SHC Reports

Adapted Assessment Tool & Collection of Technical and Economic KPIs
September 2024 - PDF 4.06MB
By: Daniel Neyer, Manuel Ostheimer, Jan W. Bleyl
Editor: Wolfgang Weiss, Uli Jakob, Lars Munkoe
Publisher: IEA SHC Task 65

The goal of the IEA SHC Task 65 “Solar Cooling for the Sunbelt regions” is to focus on innovations for affordable, safe, and reliable Solar Cooling systems for the Sunbelt regions worldwide. Countries located between the 20th and 40th degree latitudes in the Northern and Southern Hemispheres, placed in the Sunbelt, face increasing cooling needs on the one hand and higher solar irradiation on the other a compelling solution.

Adapted Assessment Tool & Collection of Technical and Economic KPIs

Solar Collector Technologies for District Heating
Subtask A: Concepts for Efficiently Providing Solar Heat at Medium-High Temperature Level
September 2024 - PDF 3.31MB
By: Stefan Albrecht, Dominik Bestenlehner, Luuk Beurskens, Andreas Bohren, Lukas Feierl, Dirk Krüger, Klaus Lichtenegger, Alex Mellor, Yuvaraj Pandian, Dimitris Papageorgiou, Pedro Rubio, Sebastian Schramm, Luis M. Serra, Marcel Wagner, Johannes Werner, Michael Zellinger
Editor: Silas Tamm, Magdalena Berberich

Existing district heating networks in Europe often supply heat in a temperature range of 80 °C to 120 °C. To decarbonise these systems, solar thermal has a great potential. Up to now, high-performance flat-plate collectors and evacuated tube collectors are state of the art for the integration of solar heat into district heating (DH) networks and are well developed and described. However, other collector technologies, such as parabolic troughs and linear Fresnel collectors, can provide heat in a wider temperature range and might offer higher efficiency and advantages over the state of the art, like tracking and the possibility to control the heat yield.

Solar Collector Technologies for District Heating

Technical and Economic Benchmarking for Solar Cooling Plants
September 2024 - PDF 4.77MB
By: Daniel Neyer, Manuel Ostheimer, Jan W. Bleyl, Richard Gurtner, Tobias Schmetzer, Lars Munkoe & Uli Jakob
Publisher: IEA SHC Task 65

The goal of the IEA SHC Task 65 “Solar Cooling for the Sunbelt regions” is to focus on innovations for affordable, safe, and reliable Solar Cooling systems for the Sunbelt regions worldwide. Countries located between the 20th and 40th degree latitudes in the Northern and Southern Hemispheres, placed in the Sunbelt, face increasing cooling needs on the one hand and higher solar irradiation on the other a compelling solution.  

Technical and Economic Benchmarking for Solar Cooling Plants

Opportunities for Improved Workflows and Development Needs of Solar Planning Tools
Subtask C: Solar Planning
July 2024 - PDF 3.92MB
By: Jouri Kanters, Martin Thebault

There has been a significant development of simulation tools capable of providing support in decision-making regarding solar neighborhoods. This report highlights opportunities for maximizing the use of tools for solar neighborhood planning by analyzing the current use of tools in the design process, the mapping of the solar potential and installed capacity, and by describing opportunities for an increase in use of tools.

Opportunities for Improved Workflows and Development Needs of Solar Planning Tools

Technical and Economic Database for Assessment of Solar Cooling
Subtask C: Assessment and Tools
July 2024 - PDF 3.23MB
By: Daniel Neyer, Jan W. Bleyl, Lars Munkoe

Assessing solar cooling options requires thorough technical, economic, and financial evaluations at each project stage, utilizing tools that provide key performance indicators (KPIs) considering economic, social, and environmental factors. This assessment is particularly challenging in Sunbelt countries due to varying local conditions, necessitating a comprehensive database for accurate KPIs and a Life Cycle Cost (LCC) analysis to address crucial financial and operational questions. Additionally, reviewing and adapting existing tools, along with sensitivity analyses on critical parameters, is essential for understanding future prospects of solar cooling technologies.

Technical and Economic Database for Assessment of Solar Cooling

Guidelines for Simulation Tools and Monitoring the Performance of SHIP Systems
Subtask C: Simulation and Design Tools
June 2024 - PDF 0.32MB
By: José Miguel Cardemil, Alan Pino, Allan Starke, Ignacio Calderón- Vásquez, Ian Wolde, Carlos Felbol, Leonardo F.L Lemos, Vinicius Bonini, Ignacio Arias, Cristóbal Sarmiento, Javier Iñigo-Labairu, Jürgen Dersch

The integration of solar thermal technologies into the industrial sector represents a significant move toward sustainable energy utilization. This report presents a comprehensive analysis of various methodologies regarding the design, implementation, and operational management of solar thermal plants. The focus of this analysis encompasses a broad spectrum of approaches that are fundamental to optimizing the efficiency and effectiveness of these renewable energy systems. This document presents the most significant outcomes of the second stage of Subtask C: Simulation and Design Tools, specifically Task 64/IV, jointly developed under the framework of the International Energy Agency's Solar Heating and Cooling Programme and SolarPACES. Throughout the four-year execution of the Task, Subtask C brought together 50 participants from academia, applied research, and project developers from 15 countries. The combination of state-of-the-art research, existing technical documentation, and on-the-ground experience of project developers adds value to the outcomes of this analysis.

Guidelines for Simulation Tools and Monitoring the Performance of SHIP Systems

Summary Report of Task Workshops & Trainings
Subtask D: Dissemination
June 2024 - PDF 3.75MB
By: Paul Kohlenbach, Uli Jakob

The goal of work package D-D5 was to organize four half-day workshops dedicated to the industrial players (manufacturers and installers, consultants, policy makers) in Sunbelt countries. This goal has been exceeded with eleven workshops and trainings organized and conducted for 567 participants over the four years of Task 65. This document lists the individual workshops and trainings as well as gives general information on each of them. Detailed workshop and training agendas can be found in the Appendix.
 

Summary Report of Task Workshops & Trainings

Summary Report on List of Stakeholders and Activities
Subtask D: Dissemination
June 2024 - PDF 1.81MB
By: Paul Kohlenbach, Uli Jakob

The goal of work package D-D6 was to identify key stakeholders around the Sunbelt countries. Those stakeholders should be invited to try the technology in demonstration projects. Involvement of stakeholders through one-to-one meetings, workshops, conferences, etc. in their countries.

This document describes the identification process, which first involved collecting 90 individuals and organisations from the entire Task 65 observer list. Second, an initial email was sent to 44 individuals and organisations in Sunbelt countries identified from this collection. Third, a second email and questionnaire were sent to 19 individuals and organisations who expressed interest in proceeding. The analysis of questionnaire feedback provided a comprehensive list of topics of interest to stakeholders in Sunbelt countries, Finally, 5 individuals and organisations expressed interest in becoming more involved in the objectives of Task 65.

Summary Report on List of Stakeholders and Activities

System/Component Modularization for SHIP Applications
Subtask B: Modularization
June 2024 - PDF 0.66MB
By: E. Zarza, Navina Konz, Dirk Krueger and D. Alarcón
Publisher: IEA SHC Task 64

The main objective of Subtask B in Task 64/IV was the definition of modularized and “normalized” components/subsystems for SHIP (Solar Heat for Industrial Processes) applications (e.g., for the balance of plant, solar field, thermal energy storage and hydraulic circuit).

System/Component Modularization for SHIP Applications

Update on SHIP Technology Costs & SHIP Business and Financing Models
Subtask E: Guideline to Market
June 2024 - PDF 1.02MB
By: Wolfgang Gruber-Glatzl, Peter Nitz

This report contains two deliverable reports within Task 64/IV Solar Process Heat, Subtask E. After a short introduction in Chapter 2, Chapter 3 presents an update of Solar Heat for Industrial Processes (SHIP) technology costs (Deliverable E2), followed by Chapter 4 presenting new trends on business models and financing schemes for SHIP plants (Deliverable E3). In Chapter 5, additional information supporting the main text is annexed.  

Update on SHIP Technology Costs & SHIP Business and Financing Models

Adapted Systems
Subtask A: Adaptation
May 2024 - PDF 2.13MB
By: Manuel Ostheimer

This document is the final report on activity A3 “System adaption”. The main parts are a description of a literature review on adapted systems to Sunbelt regions and a short summary on selected projects related to that.

The literature review focuses on adapted systems in solar cooling for Sunbelt regions. It outlines the methodology for conducting the review, including defining keywords, searching sources, preprocessing data, and coding information. The review aims to analyze qualitative data from various sources, utilizing Computer Assisted
Qualitative Data Analysis Software (CAQDAS) like MAXQDA. The process involves steps such as working with word clouds, exploring full texts, highlighting important passages, and writing excerpts. After detailed data evaluation of 187 sources, the results will be synthesized and summarized for publication. Preliminary analysis shows trends in publication years (2012 followed by 2014 and 2020), types of references (mostly journal papers), titles, keywords (more than 500), and abstracts, providing insights into the state of the literature on solar cooling systems. Results of the literature review are presented as word clouds, showing the frequency of terms in different aspects of the literature, e.g., title or abstract.
 

Adapted Systems

Business Models and Financing Options for Solar Cooling
Subtask D: Dissemination
May 2024 - PDF 1.34MB
By: Jan W. Bleyl

This document is the final report on activity D2 “Policy advise & financing models”. Activity D2b on financing models provides relevant information about new financing schemes suitable for solar cooling. As solar cooling solutions typically require high upfront capital expenditures. They may also be perceived as risky by potential clients due to their complexity or unfamiliarity with solar cooling technologies. These and other non-technical barriers underscore the importance of developing client- and service-oriented solar cooling solutions for greater market penetration – in particular in the Sunbelt regions. However, a common language in this interdisciplinary developmental area is missing, which limits effective communication and collaboration among stakeholders.

Business Models and Financing Options for Solar Cooling

Decision-Making Tool for Solar Neighborhood Planning
May 2024 - PDF 0.91MB
By: Kuljeet Singh Grewal, Caroline Hachem-Vermette

This report is a user guide for the solar neighborhood decision-making tool (https://task63.iea-shc.org/decision-making-tool). The tool offers a structured approach to selecting sustainable solar strategies for neighborhood development, catering to professionals such as architects, urban planners, energy planners, and policymakers. The tool considers various passive and active solar strategies, to enhance building performance and reduce energy consumption. The output of the tool provides recommendations for suitable solar strategies based on user inputs, helping users make informed decisions towards achieving their sustainability goals.

Decision-Making Tool for Solar Neighborhood Planning

Roadmaps for Solar Cooling in Sunbelt Countries
Subtask D: Dissemination
May 2024 - PDF 2.27MB
By: Michael Strobel , Uli Jakob

This document is the final report on activity D3 “Roadmaps for solar cooling in Sunbelt countries”. Activity D3 is dedicated to provide guidelines and recommendations on the development of roadmaps and policy recommendations to accelerate and spread the development of solar cooling technologies. A literature review provides information and compares exemplary roadmaps and documents on cooling demand and solar technologies, respectively. The review results identify promising methods and possibilities in roadmap and implementation plan formulation. Furthermore, existing roadmap manuals and analyses and Task 65 results are introduced to provide background information and to collect input for new roadmap and policy recommendations. The screening and review outcomes indicate that a linkage between the solar cooling technologies and their potential field of application on a national scale, directly targeting the most fruitful operation, is promising.

Roadmaps for Solar Cooling in Sunbelt Countries

Standardization Activities
Subtask A: Adaptation
May 2024 - PDF 1.79MB
By: Salvatore Vasta, Alessio Sapienza

This document is the final report on activity A5 “Standardization activities”. Activity A5 is dedicated to provide a comprehensive understanding of the significance of standardized actions and key performance indicators (KPIs) in driving advancements in the field of solar heating and cooling systems. Therefore, the importance of standardization in promoting interoperability, ensuring quality and fostering confidence among stakeholders was examined. In addition, the critical role of KPIs in assessing system performance, economic profitability and environmental impact were investigated.

Standardization Activities

Strategies for the Design of New and Existing High Energy Performance Solar Neighborhoods
Solar planning strategies and concepts
May 2024 - PDF 14.51MB
By: Caroline Hachem -Vermette, Kuljeet Singh Grewal, Gilles Desthieux, Javeriya Hasan, and Somil Yadav
Editor: Caroline Hachem-Vermette, Kuljeet Singh Grewal, and Maria Wall

This report provides a comprehensive overview of solar neighborhoods, including their definition, applications, standards, and regulations. It also outlines the methodology and tools used to develop archetype designs and analyses solar strategies at both building and neighborhood levels. The report presents selected archetypes from Canada, France, Italy, Norway, Sweden, and Switzerland and provides a decision-making tool for solar strategies. The target audience for this report includes architects, urban planners, policymakers, and anyone interested in sustainable and energy-oriented developments.

Strategies for the Design of New and Existing High Energy Performance Solar Neighborhoods

Standardized Solar Cooling Kits
Subtask B: Demonstration
April 2024 - PDF 2.65MB
By: Wolfgang Weiss, Uli Jakob, Monika Weiss, Boaventura Cuamba

This document is the final report of activities B4, “Standardized solar cooling kits” of the IEA SHC Task 65, “Solar Cooling for the Sunbelt Regions. The report presents experiences from 11 component and/or system suppliers of solar cooling kits, which adapted/investigated their products/concepts for Sunbelt region conditions. Moreover, several findings on system adaptations for Sunbelt regions are collected and analyzed from manufacturers, equipment providers, solar system providers and researchers.

Standardized Solar Cooling Kits

An Integrated Framework for Stakeholder and Citizen Engagement in Solar Neighborhoods
This is a report from SHC Task 63: Solar neighborhood planning and work performed in Subtask B: Economic Strategies and Stakeholder Engagement
March 2024 - PDF 0.82MB
By: Nicolas Caballero, Jessica Balest, Grazia Giacovelli, Tahmineh Akbarinejad, Gilles Desthieux, Matteo Formolli, Tobias Kristiansen, Gabriele Lobaccaro, Mark Snow, Martin Thebault
Editor: Nicolas Caballero, Jessica Balest, Grazia Giacovelli

This report proposes an integrated framework for stakeholder engagement in solar neighborhoods, informed by practical insights from behavioral science (a practice known as behavioral design). It includes insights from behavioral science and details how their application can enrich participatory processes, contextualizing these insights to the case of solar neighborhood planning. A stakeholder ENGAGEment-behavioral Design framework (ENGAGED), was developed. This framework is intended to inform engagement processes in solar neighborhood planning and highlight how several phases in the development of a solar project can be informed by engagement activities and citizen participation.

An Integrated Framework for Stakeholder and Citizen Engagement in Solar Neighborhoods

Integration Concepts and Design Guidelines
Subtask A: Integrated Energy Systems
March 2024 - PDF 0.51MB
By: M. Jesper, F. Pag,

The defossilization of the industrial heat supply is crucial for achieving the Paris climate targets. For the defossilization of heat with supply temperatures of at least 150 °C, solar thermal heat for industrial processes (SHIP) and heat pumps (HP) are technically mature technologies that allow a complete substitution of fossilfueled systems already today [1]. However, the individual potential of these technologies is often limited by restrictions regarding the availability of renewable energy sources, e.g., solar radiation, environmental or excess heat, or by technical limitations, e.g., the available space for solar thermal collectors. The combination of both technologies could, therefore, be a solution to maximize the degree of defossilization and overall efficiency.

Integration Concepts and Design Guidelines

Show Cases on System and Component Level & Adapted Components
This is a report from SHC Task 65: Solar Cooling for the Sunbelt Regions and work performed in Subtask A: Adaptation & B: Demonstration
March 2024 - PDF 1.88MB
By: Marco Beccali, Marina Bonomolo, Francesca Martorana, Ben Alex Baby, Marco Pellegrini & Salvatore Vasta

This document is the final report for joint activities A2, “Adapted components”, and B1, “Show cases on system and component level” of the IEA SHC Task 65, “Solar Cooling for the Sunbelt Regions. The first part of the report presents results from 32 investigated projects across 18 countries representing a range of 10 weather profiles such as the tropical wet and dry (Aw), hot desert (BWh), hot semi-arid (BSh), hot summer-Mediterranean (Csa), warmsummer Mediterranean (Csb), humid subtropic (Cfa), monsoon-influenced humid subtropical (Cwa), hot summer humid continental climate zones.

Show Cases on System and Component Level & Adapted Components

Solar Neighborhood Financing Mechanisms and Business Models
Economic incentives and business models that promote the diffusion of solar neighborhoods
March 2024 - PDF 0.35MB
By: Eric Wilczynski
Editor: Maria Wall

Since solar neighborhoods often span multiple land use spaces, local community members are key stakeholders in these developments. As such, involving the community can help promote and accelerate the investment and dissemination of these developments. In doing so, certain solar neighborhood business models can include individuals who otherwise cannot gain direct benefits from solar projects due to not having the ability to purchase their own solar equipment.

Within the framework of IEA SHC Task 63, business models were developed to be flexible in terms of who sponsors the project versus who ultimately owns/hosts the completed development. This allows for models where community members can be involved in some way - either as sponsors of the project or as part of a customer base leasing or subscribing to the project's output.

Solar Neighborhood Financing Mechanisms and Business Models

Efficient Gathering, Storing, Distributing and Validation of Data
January 2024 - PDF 0.53MB
By: Lukas Feierl, Sabine Putz, Viktor Unterberger, Mohamad S. Mortada, Yuvaraj Pandian, Adam R. Jensen, Thomas Natiesta, Stefan Mehnert, Daniel Tschopp, Philip Ohnewein

This report focuses on efficient data gathering, storage, distribution, and validation, covering data management topics- from sensor selection to permanent data storage. The report is mainly targeted at system designers and plant operators, aiming to provide checklists and recommendations on these topics.

Efficient Gathering, Storing, Distributing and Validation of Data

Task 66, Deliverable D1: Description of available technology portfolio
December 2023 - PDF 1.37MB
By: Thomas Ramschak, Michael Gumhalter

This report aims to foster the utilization of renewable technologies in solar buildings by identifying the technologies and possible combinations of technologies already in use.

Task 66, Deliverable D1: Description of available technology portfolio

Guideline for Yield Assessment in SHIP Plants
Uncertainties derived from the simulation approaches
October 2023 - PDF 4.2MB
By: José Miguel Cardemil, Alan Pino, Allan Starke, Ignacio Calderón-Vásquez, Ian Wolde, Carlos Felbol, Leonardo F.L Lemos, Vinicius Bonini, Ignacio Arias, Cristóbal Sarmiento, Javier Iñigo-Labairu, Jürgen Dersch

Solar thermal technologies have been recognized as a reliable option for delivering process heat to industrial processes (Farjana et al. 2018; Sharma et al. 2017), and have been a subject of study in two previous Tasks of the Solar Heating and Cooling Program (SHC), Task 33 and Task 49, and it represents a permanent task in Solar- PACES: Task IV. Despite the efforts and progress achieved to build new knowledge and reduce the entry barriers that solar thermal technologies face in the heat market for industry, the number of solar heat plants coupled with industrial processes is less than 1,000 installations (Weiss and Spörk-Dür 2020). In that context, since 2020, Task 64/IV has started a collaborative effort bringing together the experience from professionals, project developers, and scientists, aiming to address part of the entry barriers that hinder the further development of the market.

Guideline for Yield Assessment in SHIP Plants


Design Guidelines
Subtask B: Demonstration
September 2023 - PDF 2.64MB
By: Puneet Saini (Absolicon) & Wolfgang Weiss (ergSol) Contributors: Ahmed Hamza H. Ali (Assuit University), Uli Jakob (JER), Christoffer Larsson (Dalarna University), Michael Strobel (UIBK / JER), Miriam Martínes (Sole), Mohammad Ghasemi (Dalarna University), Nayrana Daborer-Prado (FHOÖ), Pietro Finocchiaro (Solarinvent), Gaurav Patel (GERMI), Hannes Poier (SOLID SES) & Tamer Abdel Rehim (NVEC)

This document is the final report for activity B2 “Design guidelines” of the IEA SHC Task 65 “Solar Cooling for the Sunbelt regions”. It presents the collection of design and system integration guidelines for solar cooling projects. For this purpose, a comprehensive questionnaire was created that goes into detail about various solar cooling components, design, sizing and other sub-systems such as heat rejection unit and cold distribution system. Data from 10 case studies are collected and presented showing the performance of solar cooling systems with varying boundary conditions. Additionally, three different case studies, each with their own scope and unique characteristics, are discussed.

Design Guidelines

LED Guideline for the Promotion of Lighting Retrofitting
Low Carbon, High Comfort Integrated Lighting
September 2023 - PDF 6.17MB
By: IEA SHC Task 70

In the new buildings, almost only LED systems are now being designed. The majority of existing plants, on the other hand, have not yet been converted to LED technology and hold great and often easy-to-develop climate protection potential: so-called “Low Hanging Fruits”. In the conversion forced by the phasing out of fluorescent lamps (e.g., in the EU this year, 2023), the main question is whether “transitional solutions” in the form of LED replacement lamps make sense or whether it would be better to switch to more powerful LED lights right away. However, the focus of renovations is not solely on the high efficiency of the LEDs. New control options should also be considered wherever possible in coordination with the most sustainable light source, daylight. In addition, the understanding of user needs has evolved in recent years [1], so that, with proper planning, renovations also ensure an improved and performance-enhancing quality of stay with increased visual comfort in rooms.

LED Guideline for the Promotion of Lighting Retrofitting

Design tools and models
Solar Cooling for the Sunbelt Regions and work performed in Subtask C: Assessment and Tools
August 2023 - PDF 1.59MB
By: Nayrana Daborer-Prado, Daniel Neyer, Lu Aye, Uli Jakob

This is the final report on activity C1, “Design tools and models” of the IEA SHC Task 65 “Solar Cooling for the Sunbelt regions”. The work involved reviewing and adapting tools and models for technical and financial assessment and design for solar cooling and the project phases from pre-feasibility to simulation to monitoring. The main focus is the documentation of the tools and their specific application to provide measured data for validating the tools and the adaptation of selected ones for Sunbelt countries.

Design tools and models

Lessons learned (technical and non-technical)
August 2023 - PDF 0.76MB
By: Monika Weiss

This document is the final report on activity B5 "Lessons learned (technical and non-technical)." Within Subtask B, Activity B5 involved identifying and documenting lessons learned, both technical and non-technical, to create a summary for dissemination in Subtask D. The primary objective was to collect trustworthy data and gain valuable insights from various stakeholders. A survey was conducted to gather information on stakeholder’s requirements, expectations, and specific circumstances that may prompt the utilization of solar cooling. The survey's primary objective was to identify crucial factors influencing the adoption of solar cooling technologies across different applications and regions. The gathered information was then analyzed to better comprehend the challenges, needs, and desires of the stakeholders involved.

Lessons learned (technical and non-technical)

Building and process optimization potential
July 2023 - PDF 2.2MB
By: Marina Bonomolo, Michael Strobel
Publisher: IEA SHC Task 65

This document is the final report on activity A4 “Building and process optimization” of the IEA SHC Task 65 “Solar Cooling for the Sunbelt regions”. It presents an overview on the relevance of building and process optimization..Several ongoing and completed projects are introduced and results are depicted. In particular, information about completed and running research projects are presented in order to quantify the amount of energy used for cooling systems. Furthermore, main projects related to the IEA EBC (Buildings and Communities Programme) about cooling.
systems are reported.
 

Building and process optimization potential

Solar Cooling for the Sunbelt Regions: Climatic Conditions & Applications
D-A1
June 2023 - PDF 4.71MB
By: Richard Gurtner, Tobias Schmetzer & Manuel Riepl

In general, climatic conditions and typical applications for (solar) cooling heavily depend on the location. In order to be able to deduce regionally specific requirements for solar cooling systems, it is therefore obvious to use geographical data. To process such data a Geographic information system (GIS) is needed. GIS are able to capture, store, check, and display data related to positions on Earth’s surface. Most geographical data relevant for this application are already available from various sources, such as solar radiation data, climatic data, population data etc.

In activity A1 a GIS software was used to combine geographic data in a way that local reference boundary conditions for solar cooling systems in the Sunbelt regions can be determined and also used for evaluation. The developed method can also be used to create information about possible locations and potentials of specific solar cooling systems. By additionally using for example population density and purchase power data a base for future market potential studies on certain products / technologies is provided. As a result potential sites can be identified as well as economic factors can be considered in order to identify (future) markets.

Many results from the ongoing research project “Solar thermal energy system for cooling and process heating in the sunbelt region – SBC” have been included into this Task. The project is carried out by two partners: Industrial Solar GmbH and the Bavarian Center for Applied Energy Research (ZAE Bayern). It was funded by the German Federal Ministry for Economic Affairs and Climate Action (BMWK) under the project number 03ETW026. The developed method was used to determine possible locations and potentials for the SBC system as a first example. It is planned to use the developed method in the further course of the task work.

Solar Cooling for the Sunbelt Regions: Climatic Conditions & Applications

Calculation Method for Tracked Concentrating Solar Collectors - Technical Note
May 2023 - PDF 0.29MB
Editor: Andreas Häberle

Energy statistics usually include data on the amount of solar thermal energy installed in terms of thermal power (kWth). While solar thermal installations often are only characterized by the installed collector area (m²). To address this inconsistency between data, a simple conversion factor is needed to convert the installed area (m²) into the approximate corresponding installed thermal power (kWth). Such a conversion factor exists for stationary solar thermal collectors but has yet to be established for tracked concentrating collectors. This paper details a conversion factor for tracked concentrating solar thermal collectors developed in the IEA SHC Task 64 / IEA SolarPACES Task IV on Solar ProcessHeat and the underlying reasoning.

Calculation Method for Tracked Concentrating Solar Collectors - Technical Note

Solar Decathlon Europe 21/22 – Competition Source Book
February 2023
By: Voss, Karsten / Simon, Katharina

The Solar Decathlon is a competition for universities from all over the world which focuses on designing, building and operating experimental, solar-powered houses. Participating in the project offers universities a unique and interdisciplinary platform for teaching, learning and research which combines practical experience with research. In 2022, the European edition was held in Germany for the first time. The event took place with a new urban profile to increase both the relevance of the competition and the learning experience. Its main topic was the further development of the European city, and specifically focused on the existing stock of residential apartment buildings. A total of 18 teams from 11 countries with over 500 students took part, with 16 teams ultimately building their houses on a shared solar campus. Demonstrating a balanced or a positive energy balance in practice was one of the essential goals of the competition. This was achieved by 13 of 15 projects in the energy contest. The prerequisites for this were a high level of energy efficiency and the consistent use of solar energy. Both strategies were embedded in convincing architectural concepts. These ranged from the minimised visibility of standard systems on rooftops, through to custom-built systems with full architectural integration in façades. Hybrid solar systems also became a focus, with the goal of making optimum use of the surfaces on the building envelope. This paper focuses on the energy engineering and technical and architectural integration of the solar systems. It also includes the results achieved in the competition linked to the learning experience.

Scientific Article 

Solar Decathlon Europe 21/22 – Competition Source Book

Integration schemes and BOPs more commonly used in commercial SHIP applications
Subtask B: Modularization
October 2022 - PDF 0.59MB
By: E. Zarza, D. Alarcón, M. Frasquet, P. Saini

The main objective of the Subtask B in the new Task 64/IV is the definition of modularized and normalized components/subsystems for applications in the field of Solar Heat for industrial Processes (SHIP), e.g. for the balance of plant (BOP), solar field, thermal energy storage and hydraulic circuit.

Integration schemes and BOPs more commonly used in commercial SHIP applications

Surface Uses in Solar Neighborhoods
Definition of the most suitable surface uses to prevent conflicts and create synergies
September 2022 - PDF 4.01MB
By: Caroline Hachem-Vermette, Matteo Formolli, Daniele Vettorato, Mark Snow
Editor: Silvia Croce

This report presents a collection of urban surface uses, discusses their characteristics, addresses the solar suitability and benefits of different urban surfaces, and presents examples from real cases. The potential conflicts and synergies among solar active and passive strategies and other uses are analyzed with the view of a multiple and integrated utilization of urban surfaces.

Surface Uses in Solar Neighborhoods

Identification of existing tools and workflows for solar neighborhood planning
This is a report from SHC Task 63: Solar Neighborhood Planning and work performed in Subtask C: Solar Planning Tools
June 2022 - PDF 31.3MB
By: Nicholas Baker, Rafaella Belmonte Monteiro, Alessia Boccalatte, Karine Bouty, Johannes Brozovsky, Cyril Caliot, Rafael Campamà Pizarro, Raphaël Compagnon, Agnieszka Czachura, Gilles Desthieux, Matteo Formolli, Stéphanie Giroux-Julien, Victor Guillot, Benjamin Govehovitch, Caroline Hachem-Vermette, Ellis Herman, Olivia Alarcon Herrera, Jérôme H. Kämpf, Gabriele Lobaccaro, Christophe Ménézo, Marjorie Musy, Giuseppe Peronato, Arnkell Jonas Petersen, Auline Rodler, Kuljeet Singh , Viktor Sjöberg , Mark Snow, Joar Tjetland, and Yupeng Wang
Editor: Jouri Kanters, Martin Thebault

Planning for sustainable neighborhoods is a high priority for many cities. It is therefore important to take the right decisions during the planning phase to ensure that important aspects are considered. One of these important aspects is to consider the harvesting of solar energy in the best possible way. It is however difficult to define the best ways to exploit the incoming solar energy. Solar energy can be used by means of active solar energy production, passively by means of daylighting buildings or outside buildings on the ground for direct solar access or thermal comfort. This different usage can sometimes be conflicting (for example at a building level, in order to maximize the photovoltaic production, it may be necessary to use all the surfaces, therefore preventing the access to daylight). The access to daylight in the street is appreciated during cold days, but shading is preferred during the hotter days.

Identification of existing tools and workflows for solar neighborhood planning

An Evaluation of the Usability of EN 16883:2017
Report D.B2 - Suggestions for enhancing the European guidelines for improving energy performance of historic buildings
October 2021 - PDF 0.66MB
By: Gustaf Leijonhufvud, Tor Broström, Alessia Buda

The balancing of preservation aspects and energy efficiency is a key challenge in the sustainable management of built heritage. There is a need to get a better fundamental understanding of the processes, barriers and constraints involved in the planning of energy retrofits in historic buildings, and what role standards and guidelines can have in decision making.

An Evaluation of the Usability of EN 16883:2017

Analysis and evaluation of BSDF characterization of daylighting systems
October 2021 - PDF 9.9MB
By: Peter Apian-Bennewitz, Jan de Boer, Bruno Bueno, Bertrand Deroisy, Yuan Fang, David Geisler-Moroder, Lars O. Grobe, Jacob C. Jonsson, Eleanor S. Lee, Zhen Tian, Taoning Wang, Gregory J. Ward, Helen Rose Wilson, Yujie Wu
Editor: David Geisler-Moroder

This technical report summarizes the current state of the art in the field of characterization of daylighting and shading systems by bidirectional scattering distribution functions (BSDFs) and documents the results of an inter-laboratory round robin test. It is the result of collaborative work conducted by members of the IEA SHC Task 61 / EBC Annex 77, Subtask C2.
 

Analysis and evaluation of BSDF characterization of daylighting systems

Case Studies Assessment Report
Report D.A2
October 2021 - PDF 8.42MB
By: Daniel Herrera, Franziska Haas, Alexandra Troi, Gustaf Leijonhufvud, Tor Broström, Alexander Rieser, Jørgen Rose, Walter Hüttler, Susanne Kuchar

One of the main targets of SHC Task 59 is to provide a solid knowledge base on deep renovation of historic buildings. The Historic Building Energy Retrofit Atlas (HiBERatlas, www.hiberatlas.com) provides a bestpractice database of exemplary energy efficient  interventions in historic buildings. The database presents bestpractice examples of how a historic building can be renovated to achieve high levels of energy efficiency while respecting and protecting its heritage significance.

Case Studies Assessment Report

Conservation compatible energy retrofit technologies: Part I: Introduction to the integrated approach for the identification of conservation compatible retrofit materials and solutions in historic buildings
Report D.C1-I
October 2021 - PDF 1.23MB
By: Alessia Buda, Ernst Jan de Place Hansen, Emanuela Giancola, Valeria Natalina Pracchi, Sara Mauri, Valentina Marincioni, Virginia Gori, Kalliopi Fouseki, Cristina S. Polo López, Alessandro Lo Faro, Aitziber Egusquiza, Franziska Haas, Eleonora Leonardi
Editor: Rainer Pfluger, Alexander Rieser, Daniel Herrera

According to the United Nations Environment Programme (UNEP), existing European buildings consume about 40% of the total energy consumption in Europe. For this reason, in the last decades, several energy  policies have been directed to deep renovation of the existing stock (as last 2018/844). Considering that more than one quarter of all European buildings were constructed before the 1950s, we can assume that many of them are of cultural, architectural, social and heritage values, hence in need of special attention for conservation purposes.

Conservation compatible energy retrofit technologies: Part I: Introduction to the integrated approach for the identification of conservation compatible retrofit materials and solutions in historic buildings

Conservation compatible energy retrofit technologies: Part II: Documentation and assessment of conventional and innovative solutions for conservation and thermal enhancement of window systems in historic buildings
Report D.C1-II
October 2021 - PDF 4.28MB
By: Dagmar Exner, Jørgen Rose, Élodie Héberlé, Sara Mauri
Editor: Alexander Rieser

The main objective of Subtask C is to identify, assess and in some cases further develop retrofit solutions and strategies for historic buildings. The solutions should fulfil the conservation compatibility of historic buildings as well as energy efficiency goals towards lowest possible energy demand and CO2 emissions (NZEB). Further, the objective is to make the solutions available for comprehensive integrated refurbishing concepts and strategies.

Conservation compatible energy retrofit technologies: Part II: Documentation and assessment of conventional and innovative solutions for conservation and thermal enhancement of window systems in historic buildings

Conservation compatible energy retrofit technologies: Part III - Documentation and assessment of materials and solutions for wall insulation in historic buildings
Report D.C1-III
October 2021 - PDF 11.9MB
By: Eleonora Leonardi, Daniel Herrera, Ernst Jan de Place Hansen, Roger Curtis, Valentina Marincioni, Athina Petsou, Evola Gianpiero, Cristina Polo, Sara Mauri, Tobias Hatt, Gustaf Leijonhufvud, Susanne Kuchar, Pavel Sevela, Julien Borderon
Editor: Rainer Pfluger, Alexander Rieser
Conservation compatible energy retrofit technologies: Part III - Documentation and assessment of materials and solutions for wall insulation in historic buildings

Conservation compatible energy retrofit technologies: Part IV: Documentation and assessment of energy and cost-efficient HVAC-systems and strategies with high conservation compatibility
Report D.C1-IV
October 2021 - PDF 7.97MB
By: Alexandra Troi, Eleonora Leonardi, Kirsten Engelund Thomsen, Jørgen Rose, Cristina Polo, Tobias Hatt, Pavel Sevela, Arnulf Dinkel, Gülden Gökcen, Zeynep Durmus Arsan
Editor: Rainer Pfluger, Alexander Rieser

Historic building restoration and renovation requires sensitivity to the cultural heritage, historic value, and sustainability (i.e., building physics, energy efficiency, and comfort) goals of the project. Heat recovery ventilation can contribute to the mentioned goals if ventilation concepts, and airflow distribution is planned and realized in a minimally invasive way. Compared to new buildings, the building physics of historic buildings are more complicated in terms of hygrothermal performance. In particular if internal insulation is applied, the need for dehumidification is needed for robust and risk-free future use, while maintaining the building’s cultural value. As each ventilation system has to be chosen and adapted individually to the specific building, the selection of the appropriate system type is not an easy task.

Conservation compatible energy retrofit technologies: Part IV: Documentation and assessment of energy and cost-efficient HVAC-systems and strategies with high conservation compatibility

Conservation compatible energy retrofit technologies: Part V: Documentation and assessment of integrated solar thermal and photovoltaic systems with high conservation compatibility
Report D.C1-V
October 2021 - PDF 11.52MB
By: Cristina Polo, Antonello Durante, Anne Schmidt, Elena Lucchi, Giovanna Franco, Pavel Sevela, Johannes Eisenlohr, Tobias Hatt, Jennifer Adami, Roger Curtis
Editor: Eleonora Leonardi

Renewable Energy Sources (RES) implementation, particularly in existing and historic buildings, can contribute significatively to the reduction of the energy requirement for thermal conditioning and electrical needs. The use of renewable solar energy systems in existing buildings is now strongly supported by the legislative European (EU) framework, which introduced specific targets to increase the share of RES, to cut carbon dioxide emissions (CO2 emissions), and to enhance the energy performances of existing buildings RES play an important role for achieving these goals in energy renovations of existing buildings, as the legislation requires to cover 32.5% of energy produced for domestic hot water, heating, and cooling by RES [1]. The EU 2030 Climate Target Plan consist among other things of an amended proposal on the draft EU Climate Law to incorporate the new 2030 emissions reduction target, considering reducing emissions (GHE) by at least 55% by 2030 as realistic and feasible objective.

Conservation compatible energy retrofit technologies: Part V: Documentation and assessment of integrated solar thermal and photovoltaic systems with high conservation compatibility

Knowledge transfer and dissemination: Final Report on Communication and Dissemination - Summary of Activities, Outcomes and Analysis
Report D.D3
October 2021 - PDF 1.78MB
Editor: Roger Curtis & Anne Schmidt

While this heading should not dominate the report, the impacts of COVID-19 on the delivery of many aspects of the project need to be stated, especially as 2020 was the core year for partners and stakeholders to progress on many fronts with full familiarity of the project work. The effects of COVID-19 and its restrictions have been varied, but as the project was well established, with existing relationships developed, the effects could have been much worse. While in mid-2020 there was a pause in activities, and partners readjusted their businesses and operations to the new conditions, by Autumn 2020 most were familiar and active with digital means of communication. Once adopted, the change to online working for all participants has allowed a quicker and easier exchange of information, and meetings were better attended.

Knowledge transfer and dissemination: Final Report on Communication and Dissemination - Summary of Activities, Outcomes and Analysis

Literature review - Energy saving potential of user-centered integrated lighting solutions
October 2021 - PDF 4.24MB
Editor: Niko Gentile and Werner Osterhaus

Measures for the reduction of electric energy loads for lighting have predominantly focussed on increasing the efficiency of lighting systems. This efficiency has now reached levels unthinkable a few decades ago. However, a focus on mere efficiency is physically limiting, and does not necessarily ensure that the anticipated energy savings actually materialize. There are technical and non-technical reasons because of which effective integration of lighting solutions and their controls, and thus a reduction in energy use, does not happen.

Literature review - Energy saving potential of user-centered integrated lighting solutions

Planning energy retrofits of historic buildings
Report D.B3 - EN16883:2017 in practice
October 2021 - PDF 2.56MB
By: Tor Broström, Alessia Buda, Daniel Herrera, Franziska Haas, Alexandra Troi, Dagmar Exner, Sara Mauri, Ernst Jan de Place Hansen, Valentina Marincioni, Nathalie Vernimme
Editor: Gustaf Leijonhufvud

This handbook follows the systematic approach outlined by the European standard EN 16883:2017 Guidelines for improving the energy performance of historic buildings. It describes how the standard can be applied in practice with chapters on heritage value assessment, building survey and holistic assessment of energy efficiency measures. The book draws on the experience from a team of international leading experts in the field of energy efficiency in historic building.
 

Planning energy retrofits of historic buildings

Renovation strategies for historic building
Report D.C2
October 2021 - PDF 0.83MB
By: Zeynep Durmus Arsan, Aitziber Egusquiza, Emanuela Giancola, Virginia Gori, Franziska Haas, Eleonora Leonardi, Valentina Marincioni, Ernst Jan de Place Hansen, Cristina S. Polo López, Sophie Trachte, Nathalie Vernimme
Editor: Alessia Buda, Daniel Herrera, Rainer Pfluger

The renovation of historic buildings is a complex task, as standard packages of solutions cannot be applied as in the renovation of buildings without historical significance. Each measure must be assessed on a case-by-case basis. In addition to improving energy efficiency and technical maintenance, the preservation and the  respect of the historic values must be guaranteed. The compatibility among the different measures of the renovation strategy must be carefully considered before being implemented.

Renovation strategies for historic building

Review of new systems and trends
October 2021 - PDF 1.67MB
By: Bruno Bueno Unzeta, Jan de Boer, Ruben Delvaeye, Nikodem Derengowski, Bertrand Deroisy, Marc Fontoynont, Daniel Neves Pimenta, Per Reinhold, Sophie Stoffer, Robert Weitlaner

Innovative and integrative lighting solutions are a rapidly developing trend among BMS manufacturers. They are being implemented in various systems from industry-leading firms, however they are met with a challenge of finding the best possible compromise between occupant expectations and optimization of building operation.
 

Review of new systems and trends

Standardisation issues related to lighting and daylighting control systems
October 2021 - PDF 0.92MB
By: Jan de Boer, Nikodem Derengowski, Marc Fontoynont, Daniel Neves Pimenta, Per Reinhold, Robert Weitlaner
Editor: Marc Fontoynont

Even though there are existing codes and standards regarding daylighting and electric lighting controls, they have to be constantly reviewed and updated, as the technology is growing rapidly - and so do the users’ expectations. That is, in both efficiency of buildings in terms of sustainability and energy usage (utilizing advanced sensor-based systems), and also in the need for high quality of lighting at the workplaces.
 

Standardisation issues related to lighting and daylighting control systems

Subtask A: User perspective and requirements - A.2 Use cases
October 2021 - PDF 7.4MB
By: Barbara Szybinska Matusiak, Sergio Sibilio, Justyna Martyniuk-Peczek, Claudia Naves David Amorim, Marzieh Nazari, Marie Boucher, Michelangelo Scorpio, Natalia Sokol, Giovanni Ciampi, Yasuko Koga, Thorbjörn Laike

The report starts with the introduction, chapter 1, where the main objective of the work is formulated, namely, to examine how the public buildings are used regarding lighting; both daylight and electric light is considered. In the chapter 2 a review of codes and requirements has been done. It starts with a discussion about general aspects of codes (subchapter 2.1) and presentation of international standards CEN and ISO (2.2) and follows with description of CIE reports and other internationally recognized guidance books (2.3). Then national recommendations are also presented (2.4). Finally, the impact of codes on architectural design is elaborated based on the interviews with architectural offices (2.5).
 

Subtask A: User perspective and requirements - A.2 Use cases

Subtask A: User perspective and requirements - A.3 Personas
October 2021 - PDF 4.37MB
By: Barbara Szybinska Matusiak, Justyna Martyniuk-Peczek, Sergio Sibilio, Claudia Naves David Amorim, Michelangelo Scorpio, Giovanni Ciampi, Marzieh Nazari, Natalia Sokol, Julia Kurek, Marta Waczynska, Natalia Giraldo Vasquez, and Julia Resende Kanno

The consumption of energy for lighting in buildings depends very much on the way people interact with the build environment. In this study the following building types were studied, office, school, university, commercial and industry buildings. For each building type typical user groups were identified. Then, Personas have been created for each group. As opposed to describing users with numbers and statistics, a single Persona reflects a group and is presented with a narrative. The Persona has a name, a family and living conditions that are representative for the group, also her/his values and interests are not uncommon. The Personas “typical day” includes a time schedule typical for the group. Visual conditions are common for the group, but some specific challenges connected to the visual conditions that may occur in the group are also mentioned.

Subtask A: User perspective and requirements - A.3 Personas

Evaluating integrated lighting projects
A Procedure to Post-Occupancy Evaluation of Daylight and Electrical Lighting Integrated Projects
September 2021 - PDF 3.41MB
By: Sergio ALTOMONTE, Cláudia NAVES DAVID AMORIM, Rafael Campamá PIZARRO, Donatienne CARMON, Giovanni CIAMPI, Ruben DELVAEYE, Veronica GARCIA-HANSEN, Niko GENTILE, David GEISLER-MORODER, Myrta GKAINTATZI MASOUTI, Hillevi HEMPHÄLÄ, Johannes LINDÉN, Werner OSTERHAUS, Francisca RODRIGUEZ, Kieu PHAM, Clotilde PIERSON, Michelangelo SCORPIO, Sergio SIBILIO
Editor: AMORIM NAVES DAVID, Cláudia; GARCIA-HANSEN, Veronica; GENTILE, Niko; OSTERHAUS, Werner; PHAM, Kieu

The report targets industry professionals, building designers, lighting designers, building managers, researchers and/or owners wishing to evaluate projects where lighting is supplied by a combination of electrical lighting, daylighting systems (e.g., fenestrations) and assisted technologies (e.g., smart sensors). The framework in this report makes available methods and procedures related to the evaluation of integrated lighting performance in residential and non-residential buildings and its impact on users, and it summarises and categorize methods and procedures in an accessible and industry-oriented language.

Evaluating integrated lighting projects

Development and Characterization of Improved Thermochemical Materials
Subtask DT2
July 2021 - PDF 1.18MB
By: Alenka Ristic

The Subtask 2T focuses on the development of improved TCM materials, which are based on sorption (micro/mesoporous solids and liquids (hydroxides)), chemical reactions (salt hydrates and metal oxides/hydroxides) and combinations (zeolites / graphite + salt hydrates / metal). The activities of the Subtask 2T include the listing of new and improved existing materials, determination of material properties, measurement of thermo-physical properties and expanding the database implemented within the previous task.
 

Development and Characterization of Improved Thermochemical Materials

Integrating daylighting and lighting in practice
Lessons learned from international case studies
June 2021 - PDF 15.19MB
By: Sergio ALTOMONTE, Flávia BUKZEM, Rafael CAMPAMÀ PIZARRO, Donatienne CARMON, Giovanni CIAMPI, Ayana DANTAS DE MEDEIROS, Veronica GARCIA-HANSEN, David GEISLER-MORODER, Niko GENTILE, Sascha HAMMES, Eleanor S. LEE, Marshal MASKARENJ, Cláudia NAVES DAVID AMORIM, Julien NEMBRINI, Werner OSTERHAUS, Kieu PHAM, Michelangelo SCORPIO, Sergio SIBILIO

This report presents lessons learned from twenty-five worldwide real-life case studies implementing the integration of daylighting and electric lighting. The case studies were monitored with respect to energy use for lighting, visual performance, non-visual performance, and users’ satisfaction. The monitoring is largely based on field measurements, but it is also complemented with simulations and calculations where needed.

Integrating daylighting and lighting in practice

Spectral sky models for advanced daylight simulations
T61.C.3 – A Technical Report of Subtask C
June 2021 - PDF 12.02MB
By: Aicha Diakite-Kortlever, Priji Balakrishnan, Stanislav Darula, David Geisler-Moroder, J. Alstan Jakubiec, Martine Knoop, Tao Luo, Gunther Seckmeyer, Mario Tobar, Taoning Wang, Gregory J. Ward, Jan Wienold
Editor: Aicha Diakite-Kortlever

Lighting accounts for approximately 15 % of the global electric energy consumption and 5 % of greenhouse gas emissions. Growing economies, higher user demands for quality lighting and rebound effects as a result of low priced and more versatile electric lighting continuously still lead to an absolute increase of lighting energy consumption. More light is used, often less consciously.
 

Spectral sky models for advanced daylight simulations

TCM measuring procedures and testing under application conditions
Daniel Lager, Lia Kouchachvili, Xavier Daguenet
June 2021 - PDF 2.55MB

This Subtask aims to have reliable thermal analysis methods/protocols and procedures for the characterization of aterial and reaction properties for sorption and chemical reactions of thermal energy storage  (TES) applications. One goal is an inventory of already standardized measurement procedures for TCM as well  as of needed characterization procedures.

TCM measuring procedures and testing under application conditions

Collection of available solar process heat related national and trans-national research and funding programs
Deliverable Report D.E1
April 2021 - PDF 0.74MB
By: Peter Nitz, Jürgen Fluch

Within Task 64/IV Solar Process Heat, Subtask E Guideline to Market is aiming to support a wider penetration of solar thermal technologies in the supply of heating (and cooling) in industry, demonstrating Solar Heat for Industrial Processes (SHIP) to be an important contribution to the decarbonisation of the industrial sector. This requires not only to overcome technical and/or technological barriers, but it is crucial to also address on technical barriers. Whereas well suited system integration strategies, design tools, standardized procedures or
modular components are all in all paramount for the development of reliable and prompt off the shelve solutions, experience shows that often non-technological barriers might have a critical role in the decision making process. Above all, competitiveness and investment/financing related barriers prove in many cases to be the bottleneck for the adoption of solar thermal technologies in the industrial framework.

Collection of available solar process heat related national and trans-national research and funding programs

Annual Report 2020
March 2021 - PDF 0.31MB
By: Sabine Putz

IEA SHC Task 55 elaborates on technical and economic requirements for the commercial market introduction of solar district heating and cooling systems in a broad range of countries. The Task activities aim to improve technological and market know-how, as well as to develop tools for the network integration of solar thermal systems and the implementation of other renewable energy technologies for maximum energy coverage. A key element is the direct cooperation of SDH experts with associations, companies, and institutions from the DHC community to bridge the gap between the research fields and organizations.

Annual Report 2020

Review of lighting and daylighting control systems
February 2021 - PDF 1.07MB
By: Bruno Bueno Unzeta, Jan de Boer, Ruben Delvaeye, Bertrand Deroisy, Marc Fontoynont, Daniel Neves Pimenta, Per Reinhold, Sophie Stoffer, Robert Weitlaner
Editor: Marc Fontoynont

There is a large number of control systems proposed either by lighting manufacturers or motor manufacturers for shading systems. In addition there are many other solutions proposed by specific manufacturers of Building Management Systems (BMS) or manufacturers of components to be installed in luminaires and switches, as well as in the electric lighting architecture (transformers, gateways to the internet, sensors, etc.). For many consumers -i.e.-the installer, the facility manager, or the final user (building occupant) – this forms a complex and dynamic market environment with high frequent changes, every year or even every month or day. In this report we aim to provide some basic strategic information, showing the status of the supply at the time this report was written (2019-2021). Although the market develops very fast, there are principles of controls which are rather independent of the progress of technology.

Review of lighting and daylighting control systems

Survey on opportunities and barriers in lighting controls
February 2021 - PDF 0.72MB
By: Bruno Bueno Unzeta, Jan de Boer, Ruben Delvaeye, Bertrand Deroisy, Marc Fontoynont, David Geisler-Moroder, Niko Gentile, Daniel Neves Pimenta, Per Reinhold, Michelangelo Scorpio, Sergio Sibilio, Natalia Sokól, Sophie Stoffer, Robert Weitlaner
Editor: Marc Fontoynont

This report summarizes a survey performed in eight countries on the status quo of daylight and electric lighting control systems. Feedback from more than 100 international experts (building / facility managers and planers) was evaluated. The aim of the survey was to identify the perception of the different possibilities of the current lighting control solutions and the expectations about the control systems. The survey aims to provide a mapping of the current lighting control systems available at the market and an overview of which functions are perceived as most important and which areas are found to be improved. Participants of the survey had to rank each question in relation to the perceived importance and the need for improvement. The survey enclosed five general topics; energy, operational aspects, occupant control, occupant comfort and control functionality.

Survey on opportunities and barriers in lighting controls

User Interfaces
February 2021 - PDF 0.6MB
By: Bruno Bueno Unzeta, Jan de Boer, Ruben Delvaeye, Nikodem Dernegowski, Bertrand Deroisy, Marc Fontoynont, Bruce Norman, Daniel Neves Pimenta
Editor: Marc Fontoynont

This report shows, that the impact of a good User Interfaces (UI) is not only affecting the usability and comfort for the user, but is also a major key to save energy. At least as important for effectiveness to the quality of individual interfaces is consistency in the meaning of individual user interface elements (visual, conceptual, auditory, etc.)

User Interfaces

BSDF Generation Procedures for Daylighting Systems
White paper
January 2021 - PDF 0.59MB
By: Bruno Bueno, Bertrand Deroisy, David Geisler-Moroder, Lars O. Grobe, Eleanor S. Lee, Taoning Wang, Gregory Ward, Helen Rose Wilson
Editor: David Geisler-Moroder and Eleanor S. Lee

This white paper summarizes the current state of the art in the field of measurement and simulation characterization of daylighting systems by bidirectional scattering distribution functions (BSDFs) and provides recommendations broken down by classes of systems and use cases.

BSDF Generation Procedures for Daylighting Systems

Reference applications for renewable heat
Compilation of reference applications for integrated energy systems with solar heating plants incl. representative load profiles
January 2021 - PDF 1.12MB
By: F. Pag, M. Jesper, U. Jordan, W. Gruber-Glatzl, J. Fluch

There is a high degree of freedom and flexibility in the way to integrate renewable process heat in industrial processes.  Nearly in every industrial or commercial application various heat sinks can be found, which are suitable to be supplied by renewable heat, e.g. from solar thermal, heat pumps, biomass or others. But in contrast to conventional fossil fuel powered heating systems, most renewable heating technologies are more sensitive to the requirements defined by the specific demand of the industrial company. Fossil fuel-based systems benefit from their indifference to process temperatures in terms of energy efficiency, their flexibility with respect to part-load as well as on-off operation, and the fuel as a (unlimited) chemical storage. In contrast, the required temperature and the temporal course of the heat demand over the year determine whether a certain regenerative heat generator is technically feasible at all or at least significantly influence parameters like efficiency or coverage rate.

Reference applications for renewable heat

Solar Heat for Cities: The Sustainable Solution for District Heating - Turkish
January 2021 - PDF 11.12MB
By: Sabine Putz & Bärbel Epp
Editor: Bärbel Epp

The brochure contains very useful info charts and general information about large scale SDH as well as several case studies of SDH installations in Denmark, China, Serbia, Austria, France, Latvia and Germany, translated into Turkish.

Solar Heat for Cities: The Sustainable Solution for District Heating - Turkish

Collection of documents prepared along the Task for industry and market
SHC Task 60/Report D7
December 2020 - PDF 3.88MB
By: JC Hadorn and Daniel Zenhäusern
Editor: JC Hadorn
Publisher: Task 60

This report gathers all documents and links to information that Task 60 has produced over the course of the 3 years of the Task to promote its activities and the PVT technologies. It is a track of the communication of the Task also helpful for future Task set up.

Collection of documents prepared along the Task for industry and market

Performance Assessment of Example PVT-Systems
SHC Task 60/Report D2
December 2020 - PDF 1.3MB
By: Maike Schubert and Daniel Zenhäusern
Editor: Maike Schubert and Daniel Zenhäusern
Publisher: Task 60

The performance of 26 PVT-Systems was analysed and compared in IEA-SHC Task 60. The systems are located in countries with different climatic conditions. The applications range from direct domestic hot water production and heating of public swimming pools to heat pump systems with PVT as the main heat source of the heat pump. The Key Performance Indicators (KPIs) determined for the different PVT solutions give the possibility to compare the systems despite their diversity. The goal was to show the potential of PVT collectors in different fields of application. The results show that the integration of PVT collectors in different kinds of well-dimensioned systems leads to competitive solutions, both from an energy and a financial perspective. Additionally the answers to a survey about control strategies for PVT systems, showing some main problems and possible solutions, are summarised.

Performance Assessment of Example PVT-Systems

BIPV in dialogue with history
November 2020 - PDF 2.62MB
By: Cristina S. Polo López; Paolo Corti, Pierluigi Bonomo

This article introduces chapter 1 "Evolution of BIPV in 40 years: architecture, technology & costs" of the BIPV Status Report 2020 "Building Integrated Photovoltaics: A practical handbook for solar buildings’ stakeholders", a joint publication SUPSI Institute of Applied Sustainability to the Built Environment (ISAAC) and the Becquerel Institute.

solarchitecture.ch/bipv-in-dialogue-with-history/

BIPV in dialogue with history

Key Performance Indicators for PVT Systems
SHC Task 60/Report D1
November 2020 - PDF 0.96MB
By: Daniel Zenhäusern et al.
Publisher: Task 60

Report D1: The aim of this report is to provide precise definitions of useful KPI’s for PVT systems. Where possible, these definitions correspond to those used in the technology fields of solar thermal systems and photovoltaic systems. In particular, the KPI's for the thermal performance of PVT systems are to a considerable extent based on the definitions adopted in IEA SHC Task 44 (Hadorn 2015). The stipulation and use of standardized KPI’s and notations will be essential for the comparability of different research results.

Key Performance Indicators for PVT Systems

Solar District Heating Perspective in Austria
Evolution of the Austrian district heating sector and the role of solar thermal energy: scenarios for 2030
November 2020 - PDF 0.28MB
By: Hamid Aghaie

Austrian district heating (DH) has experienced a fast increasing trend for the last 30 years (with the exception of the period 2010-2014), resulting in a triplication of delivered heat; in the year 2018, with about 2400 networks and 20 TWh supply, DH covered 6.4% of the final energy consumption (1122.5 PJ). Worth to underline is also that this growth of Austrian district heating has been about twice faster than the one of the energy demand in the same period. Currently, district heating provides about 26% of the Austrian households with the energy requested for space heating and domestic hot water preparation.

Solar District Heating Perspective in Austria

Status Quo of PVT Characterization
Report B1
October 2020 - PDF 2.71MB
By: K. Kramer and Task 60
Editor: Korbinian Kramer, Fraunhofer ISE, Freiburg, Germany
Publisher: Task 60

Report B1: This report therefore aims at displaying the Status Quo of PVT Characterization in order to support PVT technology in its further development and applications. The report is hence of interest for researchers as well as public and private sector stakeholders. A key finding is that the reliability and durability of PVT modules are especially challenged at elevated temperatures and higher humidity loads. The test methods available from the IEC and ISO standards are covering the specifics of PV and ST module’s, most of which are similar for PVT modules, too.

Status Quo of PVT Characterization

Literature review of user needs, toward user requirements
September 2020 - PDF 0.88MB
By: Claudia Naves David Amorim, David Geisler-Moroder, Thorbjörn Laike, Justyna Martyniuk-Peczek, Barbara Szybinska Matusiak, Wilfried Pohl, Natalia Sokol
Editor: Barbara Szybinska Matusiak
Document Number: T61.A.1

This report has been developed in the frame of the IEA SHC Task 61 Subtask A “User requirements”. The main objective was to rethink and reformulate user requirements to lighting (daylighting and electric lighting) in public buildings on the basis of a thorough literature study. The work is a joint effort of a number of scientists and represents collective knowledge in this topic. The concept of Lighting quality is the one, among many lighting concepts, which expresses the user perspective best. Lighting quality is the important goal of lighting designers and planners; however, it is difficult to define and to measure.

Literature review of user needs, toward user requirements

Numerical simulation tools for PVT collectors and systems
SHC Task 60/Report C1
September 2020 - PDF 3.7MB
By: Asier Sanz et al.
Editor: Asier Sanz
Publisher: Task 60

The computer-based experimentation covers almost the entire activity chain of the PVT sector. The PVT community carries out very different kind of modelling and simulation labours in order to answer to very diverse needs, such as proof-of-concepts, research, design, sizing, controlling, optimization, validation, marketing, sales, O&M, etc.

The modelling and simulation activities are key for success, but only if the outcomes are reliable and “good enough” for desired KPI estimation. Thus, the current report represents the current numerical simulation tools that the community is using for PVT collectors and systems modelling.

During the IEA SHC Task 60 the experience of the community with up to 11 different tools has been gathered for PVT collector and/or system level modelling, including 24 different case studies. Additionally, the gap between the user expectation and real experience has been collected and clustered. Finally, a useful guideline for PVT collector model parameterization is included, as a link between normative coefficients and numerical tools.

Numerical simulation tools for PVT collectors and systems

2020 Subsidies for PVT collectors in selected countries
Report D6
July 2020 - PDF 1.11MB
By: Alois Resch
Document Number: 10.18777/ieashc-task60-2020-0005

Report D6: PVT collectors can be still considered as young technology, but with significant growing tendency in terms of market development and number of manufacturers on a worldwide point of view. Nevertheless, PVT is definitely in an early stage of its product life cycle, where economic competitiveness among other renewable technologies providing heat and electricity is challenging.

2020 Subsidies for PVT collectors in selected countries

Interview with Roberto Fedrizzi
Building Integrated Solar Envelopes
July 2020 - PDF 0.14MB
Editor: Pamela Murphy

The SHC Programme finalized its work on Building Integrated Solar Envelope Systems for HVAC and Lighting (Task 56) this month. To learn first-hand of  the Task’s impact on buildings, we asked Roberto Fedrizzi, the Task Operating Agent, to share some of his thoughts on this 4-year project.
 

Interview with Roberto Fedrizzi

Validation of dynamic hygrothermal simulation models for historical buildings: State of the art, research challenges and recommendations
July 2020
By: H.E. Huerto-Cardenas, F. Leonforte, N. Aste, C. Del Pero, G. Evola, V. Constanzo, E. Lucchi
Publisher: Building and Environment, Volume 180

The proper simulation of the hygrothermal behaviour of historical buildings is a challenging task with several implications regarding the evaluation of indoor thermal comfort and the suitability of retrofit strategies that comply with the conservation of cultural heritage. An inaccurate simulation may lead to inadequate conclusions, which could result in inappropriate and dangerous actions for the preservation of the heritage buildings.

The present work reviewed the main approaches used by researchers for building performance model validation with special reference to historical buildings based on microclimatic parameters, highlighting the main advantages and drawbacks of the different methods reviewed. Finally, recommendations to properly carry out the model validation based on microclimatic parameters have been provided. The collected information may be useful to different subjects (e.g. designers, energy auditors, researchers, conservators, buildings’ owners and policy makers) and can drive suitable and reliable retrofit and maintenance interventions.

Click here to access the full version.

Validation of dynamic hygrothermal simulation models for historical buildings: State of the art, research challenges and recommendations

Basic concepts of PVT collector technologies, applications and markets
SHC Task 60/Report D5
May 2020 - PDF 1.02MB
By: Manuel Lämmle, María Herrando, Glen Ryan et. al.
Publisher: Task 60

Report D5: The aim of this report is to provide a summary of the current state of the PVT collector technologies, applications, and markets. The contents of this report have been used to update and enhance a Wikipedia article on PVT in order to better inform on PVT a wide audience. Therefore, the main structure and some literal fragments of the current Wikipedia are reused. Instead of citing the literal fragments of the old Wikipedia article in the main text, we included the old article in appendix and marked the fragments that were reused.

Basic concepts of  PVT collector technologies, applications and markets

DALEC (Day and Artificial Light with Energy Calculation) Fact sheet
May 2020 - PDF 0.29MB

DALEC (Day- and Artificial Light with Energy Calculation) is an online concept evaluation tool for lighting designers, architects, building engineers and building owners. Although easy to use, the software accounts for the complex thermal and light processes in buildings and allows a simple evaluation of heating, cooling and electric lighting loads. Not only energy, but also user behavior is considered, and visual and thermal comfort is evaluated (glare, overheating frequency). This novel and innovative, holistic approach makes sustainable and energy efficient building design possible for new buildings as well as refurbishment. The simulation tool has been developed by Bartenbach, Zumtobel Lighting and the University of Innsbruck.

DALEC (Day and Artificial Light with Energy Calculation) Fact sheet

Existing PVT Systems and Solutions
Report A1
May 2020 - PDF 3.77MB
By: Thomas Ramschak et al.

Report A1: The report presents recent PVT applications in the world in a vrieta of applications. A worldwide survey of operating PVT plants for year 2018 is also presented. Within this survey, 22 920 PVT-systems were identified. A global market overview and a sample of installed PVT systems with various PVT-collector types are exhibited in the report, spanning most of the relevant PVT applications. These case studies include a general description of the solar installation, the overall heat supply concept and integration scheme, and other pertinent information to provide a deeper understanding of the subtleties of such projects.
 

Existing PVT Systems and Solutions

Design Guidelines
Deliverable DC.3
April 2020 - PDF 1.05MB
By: Ochs Fabian, Magni Mara, Venturi Elisa, de Vries Samuel, Hauer Martin, Bonato Paolo, Taveres-Cachat Ellika, Venus David, Geisler-Moroder David, Abdelnour Nermeen

In Subtask C of IEA SHC Task 56 complete solar envelope systems based on active and passive components and integrated into the HVAC system are investigated on building level. Different approaches for investigating Solar Envelope Systems are required for residential and office buildings. This report has the goal to describe the different methods used for non-residential (i.e. office) and residential buildings and to give comprehensive information about the reference buildings and HVAC systems used in IEA SHC Task 56.

Design Guidelines

Experimental devices to investigate degradation of PCM
April 2020 - PDF 2.72MB
By: Christoph Rathgeber

Deliverable 2 of Subtask 3P is a collection of questionnaires regarding experimental devices that are used by the experts of Task 58 / Annex 33 to investigate the degradation of Phase Change Materials (PCM). Three types of experiments are considered: Tests on degradation of PCM over thermal cycling (type I), tests on degradation of PCM with stable supercooling (type II), and tests on degradation of phase change slurries (type III).

Experimental devices to investigate degradation of PCM

Monitoring Results
Deliverable DC.4
April 2020 - PDF 0.93MB
By: Ochs Fabian, Elisa Venturi, Mara Magni, Dermentzis Georgios, Zissis Ioannidis, Stratos Ru

In Deliverable D C.4 two Demo buildings are presented. The first one is a multi-family house built in Innsbruck, Austria according to the Passive House standard. The second one is a library located in Varennes, Quebec, Canada designed as net zero energy building. Demo buildings are illustrated and monitoring results are reported.

Monitoring Results

Report on test methods and recommendations
Deliverable DB.5
April 2020 - PDF 0.49MB
By: B. Bueno, C. Hubschneider, C. Maurer, D. Geisler-Moroder, D. Venus, F. Ochs, M. Meir, N. O’Neill, P. Bonato, P. Lemarchand, T. E. Kuhn, V. Aagesen
Editor: Christoph Maurer

This report presents an analysis of current test methods that can be applied to Solar Building Envelope (SBE) technologies. Relevant standards for construction products, solar thermal collectors, photovoltaics, daylighting systems, ventilation devices and heat pumps are selected and assessed. The selection includes the most important standards for fire protection as applied to SBE technologies. For each standard, the report assesses its applicability to SBE technologies. At the end, recommendations are presented on how current standards and regulations could be improved to prepare the ground for a wider adoption of SBE systems.

Report on test methods and recommendations

Report on the development of strategies for market penetration
Deliverable DB.2
April 2020 - PDF 0.33MB
By: Carolin Hubschneiderk, Christoph Maurer, John Hollick, Michaela Meir, Philippe Lemarchand, Roberto Garay, Tilmann E. Kuhn, Vickie Aagesen
Editor: Christoph Maurer and Bruno Bueno

Task 56 is part of the Solar Heating and Cooling Programme (SHC) of the International Energy Agency (IEA). Within Task 56, Subtask B aims to develop tools and strategies to foster the market penetration for industrialised solar envelope systems. This report outlines strategies for stakeholders of solar building envelopes (SBE) in order to deal with some of the market barriers that have been identified in a previous report (DB.1). The current report focuses on strategies for SBE manufacturers but includes strategies for other SBE stakeholders such as policy makers, architects, building owners and industry associations. In section 2, strategies are discussed to enhance the commercial success of SBE technologies in the current market situation. Section 3 then discusses strategies with regard to future changes in legal frameworks and boundary conditions. A summary of the proposed strategies is presented at the end.

Report on the development of strategies for market penetration

System Simulation Models
Deliverable DC.1
April 2020 - PDF 0.72MB
By: Fabian Ochs, Mara Magni, Paolo Bonato, Matteo D’Antoni, David Geisler-Moroder, Martin Hauer, Samuel de Vries, Roel Loonen

Building Integrated Solar Envelope Systems for HVAC and Lighting includes a broad variety of technologies. Different “Solar Envelope” solutions for office and residential buildings are investigated and evaluated by means of building and system simulation. Detailed technical/economic analysis will be carried out in order to assess the impact of the integration of the solar envelope components for different buildings in different climates. Models for these technologies shall allow to develop and optimize control strategies for coupled control of indoor air quality, thermal and visual comfort (lighting) considering optimal energy performance.

System Simulation Models

System Simulation Results
Deliverable DC2
April 2020 - PDF 5.11MB
By: Ochs Fabian, Magni Mara, Hauer Martin, Geisler-Moroder David, Bonato Paolo, de Vries Samuel, Loonen Roel, Venus David, Abdelnour Nermeen, Calabrese Toni, Venturi Elisa, Maccarini Alessandro, Häringer Simon, Bueno Bruno, Ioannidis Zissis, Rounis Efstratios

Different approaches for investigating Solar Envelope Systems are required for residential and office buildings. This report has the goal to describe the different methods used for non-residential (i.e. office) and residential buildings and to give comprehensive information about the reference buildings and HVAC systems used in IEA SHC Task 56.

System Simulation Results

Annual Report 2019
March 2020 - PDF 0.35MB
By: Sabine Putz

IEA SHC Task 55 elaborates on technical and economic requirements for the commercial market introduction of solar district heating and cooling systems in a broad range of countries. The Task activities aim to improve technological and market know-how, as well as to develop tools for the network integration of solar thermal systems and the implementation of other renewable energy technologies for maximum energy coverage. A key element is the direct cooperation of SDH experts with associations, companies, and institutions from the DHC community to bridge the gap between the research fields and organizations.

Annual Report 2019

Properties of Phase Change Materials (PCM) in the Lab Environment and under Application Conditions
March 2020 - PDF 0.3MB
By: Christoph Rathgeber

Deliverable 1 of Subtask 3P is an inventory of properties of Phase Change Materials (PCM) that change comparing experiments in the lab environment with tests under application conditions. Examples where no change is observed are also included.
 

Properties of Phase Change Materials (PCM) in the Lab Environment and under Application Conditions

Dynamic thermal and hygrometric simulation of historical buildings: Critical factors and possible solutions
February 2020
By: G.G. Akkurt, N. Aste, J. Borderon, A. Buda, M. Calzolari, D. Chunge, V. Costanzo, C. Del Perob, G. Evola, H.E. Huerto-Cardenas, F.Leonforte, A. Lo Faro, E. Lucchi, L. Marletta, F. Nocerag, V. Pracchi, C. Turhan
Publisher: Science Direct, Volume 118

Building dynamic simulation tools, traditionally used to study the hygrothermal performance of new buildings during the preliminary design steps, have been recently adopted also in historical buildings, as a tool to investigate possible strategies for their conservation and the suitability of energy retrofit scenarios, according to the boundary conditions.

However, designers often face with the lack of reliable thermophysical input data for various envelope components as well as with some intrinsic limitations in the simulation models, especially to describe the geometric features and peculiarities of the heritage buildings. This paper attempts to bridge this knowledge gap, providing critical factors and possible solutions to support hygrothermal simulations of historical buildings.

Click here to access the full version

Dynamic thermal and hygrometric simulation of historical buildings: Critical factors and possible solutions

Summary of Work On development and characterization of improved Materials
January 2020 - PDF 4.81MB
By: Stefan Gschwander, Ana Lazaro, Monica Delgado, Christoph Rathgeber, Michael Brütting, Stephan Höhlein, Melissa Obermeyer, Dominic Groulx, Thomas Haussmann, Daniel Lager, Saman Nimali Gunasekara, Mohammed Farid, Rocio Bayón, Gonzal Diarce, Juan de Dios Cruz Elvira, Gerald Englmair, Thomas Aigenbauer

As the material development is done at different institution the objective of the work was to collect the materials which are under research and development to get an overview on the most relevant properties of these materials and application which are addressed.

Summary of Work On development and characterization of improved Materials

Report on confidential feedback workshops as a method to foster innovation
Deliverable DB.3
December 2019 - PDF 0.28MB
By: Christoph Maurer

Building Integrated Solar Envelope (BISE) technologies face a number barriers despite their potential (see Deliverable DB1 of the IEA SHC Task 56 for a detailed description of barriers). BISE technologies have a highly innovative character and often require that different professional disciplines interact closely in the manufacturing, installation and operation phases. For example, the implementation of solar thermal venetian blinds forces novel interactions between a façade manufacturer and a HVAC designer during the design and installation phases, which implies the need of new procedures and costs. The need to develop new know-how in a wide range of topics hinders the development of new technologies.

Report on confidential feedback workshops as a method to foster innovation

Report on Simulation Models of Solar Envelope Components
Deliverable B.4
December 2019 - PDF 0.56MB
By: Ellika Taveres-Cachat, Roel C.G.M. Loonen, Johannes Eisenlohr, Francesco Goia, Christoph Maurer

This report presents a review about simulation models of building integrated solar envelopes. The models can be used to predict the performance of a building integrated solar envelope for a specific case. Such cases include a building, a technical building plant and a location and climate. The performance of a building integrated solar envelope depends on the case. Therefore, it is very important for building projects that the performance of a building integrated solar envelope can be predicted easily and accurately.

 

Report on Simulation Models of Solar Envelope Components

SHC Solar Update Dec. 2019, p. 3-5
Building Integrated Solar Envelopes: Common Challenges and Trends for the Future
December 2019 - PDF 0.19MB
By: Paolo Bonato, Roberto Fedrizzi
SHC Solar Update Dec. 2019, p. 3-5

Solar District Heating: Inspiration and Experiences from Denmark
November 2019 - PDF 1.82MB
By: Danish District Heating Association / PlanEnergi
Publisher: IEA SHC TASK 55

This document brings together some of the most important experiences from the inspiring development of solar district heating systems that have been seen in Denmark in the past years. The document is an adapted translations of “Solvarme – Inspirationskatalog” from February 2017, elaborated by PlanEnergi for the Danish District Heating Association. Some of the conditions and regulations described might be specific Danish. The main objective of this document is to inspire and qualify the district heating companies (board members as well as operating personnel) as well as representatives from municipalities with respect to the specific processes in the project development phases. This is not a proper guidance in the establishment of solar installations. More specific guidance can be found in IEA SHC Task 45 and Task 55 guidelines and fact sheets and in the Europeran SDH projects – see last section in the document. This document thus complements these guidelines with specific Danish experience. After summing up to the various protagonists follow descriptions of six specific Danish solar district heating plants – and some experiences gained here.

Solar District Heating: Inspiration and Experiences from Denmark

State-of-the-art and SWOT analysis of building integrated solar envelope systems
Deliverables A.1 and A.2
November 2019 - PDF 7.99MB
Editor: Paolo Bonato, Roberto Fedrizzi, Matteo D’Antoni, Michaela Meir

The present document includes a state-of-the-art review of solar envelope systems that are already on the market or that can potentially reach that stage in a short-medium timeframe. The analysis focuses on the technological integration of such solutions in the envelope and building, but non-technical issues such as aesthetic, architectural integration and customer acceptance are also tackled. The solar envelope systems are classified in: Solar harvesting systems: systems that generate electricity or heat; Solar gains control systems, controlling; Hybrid systems: combination of solar harvesting and solar gains control systems.

State-of-the-art and SWOT analysis of building integrated solar envelope systems

Workflows and software for the design of integrated lighting solutions
November 2019 - PDF 10.34MB
By: Numerous
Editor: David Geisler-Moroder

Practitioners are using a wide variety of different workflows, methods and tools in the planning of integrated solutions for daylighting, electric lighting and lighting controls. Lighting design projects cover a huge variety of applications with different requirements as well as project types and sizes. Within the Subtask C “Design Support for Practitioners – Tools, Standards, Guidelines” of the IEA SHC Task 61 / EBC Annex 77 “Integrated Solutions for Daylighting and Electric Lighting: From Component to User Centered System Efficiency” currently applied workflows in practical applications have been reviewed.
 

Workflows and software for the design of integrated lighting solutions

Visualization of energy flows in PVT systems
Report D4
October 2019 - PDF 0.56MB
By: Danny Jonas

Report D4: PVT collectors are always part of a system approach. These kinds of systems are highly integrated. So, all components have to interact with each other in a well-concerted way and it is important to describe this in a technical way that incorporates different information needed for the interaction. One possibility to describe the interaction of PVT collectors and other components in a system is the use of a representation of flows developed in an IEA SHC Task (Task 44 – see ref). The representation is called the “energy flow diagram” or simply “square views” (you will understand why) for the visualization of energy flows between the different system components. 

Visualization of energy flows in PVT systems

Comparison of simulation results for an office building between different BES tools: The challenge of getting rid of modeller influence and identifying reasons for deviations
16th IBPSA - Int. Building Simulation Conference, Rome, 2-4 Sept 2019
September 2019
By: Magni, M.; Ochs, F.; Bonato, P.; D'Antoni, M.; Geisler-Moroder, D.; de Vries, S.; Loonen, R.; Maccarini, A.; Afshari, A.; Calabrese, T.
Document Number: https://doi.org/10.26868/25222708.2019.210834

Abstract - The model of the reference office building, reported in IEA SHC Task 56, is implemented by different experts in building simulations, with different tools (i.e. dynamics simulation tools such as EnergyPlus, TRNSYS, CarnotUIBK, ALMAbuild, DALEC, Modelica and quasi steady state calculation tool such as PHPP). The aim is to set up reference models for (virtually) testing different solar passive and solar active façade systems. Hence, identifying deviations between the resulting energy balance for heating and cooling of the used tools due to different levels of detail of their models is of great importance, while in the same time, trying to get rid of the user influence was experienced as a real challenge. It can be concluded that even considering a relatively simple case study, it is hard to reach a good agreement between different tools and an additional calibration phase is necessary. In particular, it was found that the resolution of the window model can lead to considerable differences (...)

Comparison of simulation results for an office building between different BES tools: The challenge of getting rid of modeller influence and identifying reasons for deviations

Modelling Of Complex Fenestration Systems – Application Of Different Toolchain Approaches On Real Case Scenarios
16th IBPSA - Int. Building Simulation Conference, Rome, 2-4 Sept 2019
September 2019
By: Martin Hauer, Giuseppe De Michele, Francesco Babich, Daniel Plörer, Stefano Stefano
Document Number: https://doi.org/10.26868/25222708.2019.211107

This paper presents a comparative study among well-established simulation tools showing their capabilities evaluating complex fenestration systems in terms of thermal and daylight performance. Two powerful and flexible toolchain approaches based on EnergyPlus and TRNSYS including third-party software are analysed in detail and their application is shown on exemplarily test cases. By investing into comparative simulations, capabilities of both toolchains are highlighted, and pros and cons are discussed within this paper. Upon comparison with measured data, the ability of both toolchains to predict real case scenarios is shown. Satisfying alignment has been achieved in energy performance prediction (cooling loads, temperatures) as well as daylighting prediction (illuminance levels). Remaining uncertainties reflects the sensibility in used model definitions, used data as well as tool handling.

Modelling Of Complex Fenestration Systems – Application Of Different Toolchain Approaches On Real Case Scenarios

Compact ventilation and heat pump with recirculation air for renovation of small apartments
E3S Web of Conferences 111, 01011 (2019)
August 2019
By: Calabrese, Toni; Ochs, Fabian; Siegele, Dietmar; Dermentzis, Georgios
Document Number: https://doi.org/10.1051/e3sconf/201911101011

Abstract - A new compact and cost effective heating and ventilation concept for decentral renovation of small flats in multifamily houses was developed and investigated in the framework of the Austrian project “SaLüH!” through a dynamic building and HVAC simulation study based on results of laboratory measurements of functional models. The system consists of a façade integrated supply air/exhaust air heat pump equipped with a desuperheater allowing to increase the heating power and to add more freedom to control the system. The simulation results show that such a system is able to improve the thermal comfort of the flat (compared to the standard heating concept without desuperheater) with good indoor air quality and satisfying energy performance. The proposed system - because of its versatility and compactness - represents an ideal solution for decentral renovation of flats in multi-family houses, especially in case of limited space inside the flat and if central solutions are not possible for technical, economic or social reasons.

Compact ventilation and heat pump with recirculation air for renovation of small apartments

UK Solar Academy On-site Training on Solar Heat Networks Report
March 2019 - PDF 1.56MB
By: Dr Richard Hall
Over the next three years, the UK Government Department for Business, Energy and Industrial Strategy (BEIS) are investing £320m of capital funding into heat networks via the Heat Networks Investment Project (HNIP). Heat networks have the potential to substantially contribute to the UK’s ambition to decarbonise heat, however only if the source of heat for the network is low carbon.
 
One of the most effective ways of decarbonising a heat network is to use solar heat and we invited to the UK two National Experts from the IEA SHC Task 55 (Towards the Integration of Large SHC Systems into District Heating and Cooling (DHC) Networks) to speak on Solar Heat Networks. They were Jan Erik Nielsen from the renewable energy planning specialist PlanEnergi (Denmark) and Christian Holter from the solar engineering company SOLID (Austria). We also invited three UK experts to speak: Grant Feasey from the solar collector manufacturing company AES Solar; Renaldi Renaldi from Newcastle University; and Edmund Papworth from the small-scale heat network company, Minus 7. 
 
The details of the Solar Academy event were as follows: 
• Title: Solar Heat Networks: Policy, Planning, Design and Performance 
• Time: Friday 8th March 2019 09:30–17:00 
• Location: Department for Business, Energy and Industrial Strategy (BEIS) Conference Centre, London 
 
A copy of the agenda can be found on page 3. The following topics were discussed: 
• Introduction to Solar Heat Networks 
• Integration of Solar into Heat Networks 
• Integration of Seasonal Heat Storage into Heat Networks 
• ESCO Models and System Performance 
 

 

UK Solar Academy On-site Training on Solar Heat Networks Report

Definition of the existing cooling reference systems
February 2019 - PDF 0.82MB
By: Tim Selke

In this activity of SHC Task 53, a detailed description of typical conventional reference system is delivered. Market dominating small scale system types (< 10 kW) for air-conditioning, cooling and heating for rooms are investigated and identified reference systems apply the mechanical compression method to treat the working fluid.  The reference system respect different European climate zones and with displaying and discussing the simulation results of a parametric study, the energy performance of the defined reference system is shown as a function of the room type and of the climate condition of the selected European Cities.

 

Definition of the existing cooling reference systems

Task 54 Highlights 2018
February 2019 - PDF 0.22MB

One of the greatest challenges of the 21st century is to secure a sustainable energy supply and to considerably reduce CO2 emissions and the serious consequence of climate change. The challenging goals with regard to the contributions of renewable energy cannot be reached without considerable growth of solar thermal markets worldwide. Therefore, costcompetitive, efficient and reliable solar thermal systems are required. Cost-competitiveness is particularly hard to achieve as the price of solar thermal systems is still not equaled by the price end-users have to pay for conventional heat supply. A great number of complex, costly and oftentimes non-transparent steps are needed to bring solar thermal from the factory to the actual users. SHC Task 54 is looking for ways to optimize each of these steps as well as looking into the social-political context in which solar thermal installations are embedded. The ultimate goal is to strengthen the solar thermal industry by finding solutions for more cost-efficient production and installation of solar thermal systems and for marketing them at an even more competitive price.
 

Task 54 Highlights 2018

A comprehensive evaluation of a monthly-based energy auditing tool through dynamic simulations, and monitoring in a renovation case study
Energy and Buildings Volume 183, 15 January 2019, Pages 713-726
January 2019
By: Dermentzis, G.; Ochs, F.; Gustafsson, M.; Calabrese, T.; Siegele, D.; Feist, W.; Dipasquale, C.; Fedrizzi, R.; Bales, C.
Document Number: https://doi.org/10.1016/j.enbuild.2018.11.046

Abstract - An energy auditing tool (PHPP) was evaluated against a dynamic simulation tool (TRNSYS) and used for the assessment of energy conservation measures in a demo case study. The comprehensive comparison of useful heating and cooling demands and loads included three building types (single-, multi-family house, and office), three building energy levels (before renovation and after renovation with a heating demand of 45 and 25 kWh/(m²a)) and seven European climates. Dynamic simulation results proved PHPP (monthly energy balance) to be able to calculate heating demand and energy savings with good precision and cooling demand with acceptable precision compared to detailed numerical models (TRNSYS). The average deviation between the tools was 8% for heating and 15% for cooling (considering climates with a relevant cooling load only). The higher the thermal envelope quality was, i.e. in case of good energy standards and in cold climates, the better was the agreement. Furthermore, it was confirmed that PHPP slightly overestimates the heating and cooling loads by intention for system design. (...)

A comprehensive evaluation of a monthly-based energy auditing tool through dynamic simulations, and monitoring in a renovation case study

Task 59 Renovating Historic Buildings
Task Flyer
January 2019 - PDF 0.85MB
Publisher: Task 59

Historic buildings constitute a considerable part of our building stock and are the trademark of numerous cities.  Historic buildings will, however, only survive if kept in use. To save this heritage for future generations, we need to find conservation compatible, renovation approaches and measures that preserve the heritage values of these buildings while improving user comfort, lowering energy bills and minimizing environmental impacts.

Task 59 Renovating Historic Buildings

Definition of boundary conditions for industrial applications and industrial Peak Shaving
Subtask 1: “Energy Relevant Applications For An Application Oriented Development Of Improved Storage Materials
December 2018 - PDF 0.42MB
By: Anastasia Stamatiou, Rebecca Ravotti, Andreas König-Haagen, Christoph Rathgeber, Maike Johnson, Annelies Vandersickel

The aim of this project is to find materials and possibilities that allow thermal storage at temperatures in the range of 8 to 15 ° C (PCM8-15) and 50 ° C (PCM50) in addition to today's ice storage. Ice storage for storing latent heat for cooling purposes are now operated with water. For new applications in the field of air conditioning and heating, a higher temperature level is exergetically much cheaper. Based on the PCM with the phase transition temperature of 50 ° C, the storage density can be achieved in the useful hot water storage. This reduces the storage space of the thermal energy store. The material chosen has phase change occurring at 10°C.

Definition of boundary conditions for industrial applications and industrial Peak Shaving

IEA ShC Task 57 Final Management Report 2018
December 2018 - PDF 0.66MB
Publisher: Task 57

Report on the work done in the task with links to deliverables.

IEA ShC Task 57 Final Management Report 2018

Current Trends and Future Challenges in the Performance Assessment of Adaptive Façade Systems
Energy and Buildings, 179, 165-182
November 2018
By: Attia, S., Bilir, S., Safy, T., Struck, C., Loonen, R.C.G.M., & Goia, F.
Document Number: 10.1016/j.enbuild.2018.09.017

Abstract - During the last decades, a great number of innovative building envelope materials and façade components have been developed. The majority of these technologies promise significant improvements in energy efficiency and occupant's comfort, with products that are easily available in the market. However, it remains a challenge to assess the performance of such facades, leading to difficulties for efficient design, operation, and maintenance. As a consequence, the market adoption of adaptive facades is not realizing its full potential, resulting in missed opportunities for energy savings and improved occupant satisfaction. In this study, the current trends of adaptive facades are investigated, with particular emphasis on their performance assessment (...) Download open access paper

Current Trends and Future Challenges in the Performance Assessment of Adaptive Façade Systems

Development of Accelerated Ageing Tests for Evacuated Tube Collectors
November 2018 - PDF 2.34MB
Publisher: China Academy of Building Research

Report on experiments and test for accelerated ageing of evacuated collector. In some cases significant influence on the heat loss coefficient is seen.

 

Development of Accelerated Ageing Tests for Evacuated Tube Collectors

Report of Solar Academy Onsite Training Course: Solar District Heating Systems
November 2018 - PDF 0.86MB
By: Sabine Putz
By the opportunity of Task 55 expert meeting held in China, Chinese country member of SHC applies for an onsite training course and approved by SHC Solar Academy. In Oct.31th to Nov. 1st, onsite training course Solar District Heating System was finished successfully in Lianyungang under the organization of China Academy of Building Research (CABR) and Jiangsu Sunrain Solar Energy Co.,Ltd. 
Report of Solar Academy Onsite Training Course: Solar District Heating Systems

Report on Barriers for New Solar Envelope Systems
Deliverable B.1
November 2018 - PDF 0.46MB
By: C. Hubschneider, C. Maurer, E. Taveres-Cachat, J. Hollick, P. Lemarchand, R. Garay, R. Loonen, V. Aagesen
Editor: Christoph Maurer

This report is a result of extensive discussions within Task 56 of the Solar Heating and Cooling Programme (SHC) of the International Energy Agency (IEA). Innovative solar envelope technologies face multiple barriers, which prevent some of these innovations from contributing significantly against climate change. This report presents the barriers that the experts of Task 56 are aware of so that developers of integrated solar envelope systems could benefit of, at an early stage of their planning phase.

Report on Barriers for New Solar Envelope Systems

Test methods for mechanical load on support of close-coupled solar water heating systems
This is a final draft which may be proposed to ISO/TC 180
November 2018 - PDF 0.2MB
By: Shen Bin

This standard is appropriate to the support of close-coupled type domestic solar water heating system (the tank storage capacity less than 0.6 m3) and the supports of which are made from galvanized iron sheet or aluminium alloy or/and stainless steel. The supports are processed by panel beating, surface paint-spraying and surface plastic-spraying. The testing method of the supports made from other materials or other processing of surface treatments can refer to this standard.

Test methods for mechanical load on support of close-coupled solar water heating systems

Utilisation of ISO9806:2017 in Global Solar Certification
November 2018 - PDF 0.59MB
By: J.G. Parker, L.T. Guthrie, K.I. Guthrie

Update of Task 43 questionnaire with indication of interest in use of international standards.

 A new questionnaire with indication of interest in use of international standards has been elaborated – and the results analyzed. This survey shows that countries are increasingly adopting ISO 9806, validating the value of the similar study completed in 2014. Further, this study has captured many extra recommended changes which if included in future revisions of ISO 9806, will make it more likely to continue being adopted. This study has found that incorporating the recommended changes from China is the most pressing concern when considering future revisions of ISO 9806. Finally, this study has gathered much valuable information about the systems and markets that exist in each country.

ISO 9806 Solar energy - Solar thermal collectors - Test methods, the international standard for testing solar thermal collectors, was first published in 1994. Since that time there have been advances in technology, resulting in a need for the standard to be updated. The most recent update was completed in 2017. The thirtyfour member nations of the European Committee for Standardisation (CEN) have adopted ISO 9806:2017. This study investigates the likelihood that ISO 9806:2017 will be adopted in other countries around the world and follows up on a similar study in 2014 regarding ISO 9806:2013. To determine this, a survey which received 84 responses from 35 countries was conducted. Respondents were asked how likely their countries were to adopt the standard and what, if any changes could be made to the standard to improve it. Sixteen countries outside of the CEN membership were identified as having reasonably large solar market size and were targeted by the 2014 study have again been targeted by this study as well. Responses were received from thirteen of these countries, many of which suggested alterations to ISO 9806 in order to increase the likelihood of adoption in their country and will be used to inform the next revision of ISO 9806.

Utilisation of ISO9806:2017 in Global Solar Certification

GUIDE TO STANDARD ISO 9806:2017 2.0
A Resource for Manufacturers, Testing Laboratories, Certification Bodies and Regulatory Agencies
October 2018 - PDF 2.98MB
By: Korbinian Kramer, Stefan Mehnert, Christoph Thoma, Patrik Ollas

A comprehensive guideline for use of the new solar collector testing standard ISO 9806:2017 has been elaborated. The purpose of this guide is to provide guidance about the application and use of the ISO 9806:2017 standard, concerning the testing of solar thermal collectors. It is intended to support the interpretation and application of the standard. The guide has been developed with three different target groups and objectives in mind. - A guide directed to established and new test laboratories for collector testing. The main purpose here is to give a quick introduction to the standard for new laboratories and in general to contribute to a uniform interpretation of the standard and presentation of results. - A guide directed to manufacturers and importers of collectors. Here, the purpose is to give a very light introduction to the standard and to explain how it is used for type testing as well as for innovation and development support. - A guide directed to certification bodies. The intention here is to provide access to easy evaluation of the presented results.

GUIDE TO STANDARD ISO 9806:2017 2.0

Towards new metrics for the characterisation of the dynamic performance of adaptive façade systems
Journal of Façade Design and Engineering, 6(3), 2019, 175-196
October 2018 - PDF 2.02MB
By: Bianco, L. Cascone, Y., Avesani, S., Vullo, P., Bejat, T., Loonen, R.C.G.M., Koenders, S., Goia, F., Serra, V. & Favoino, F.
Document Number: https://doi.org/10.7480/jfde.2018.3.2564

Abstract - Traditional façade characterisation metrics such as U-value and g-value are of limited value in the design process of buildings with adaptive façades. This issue is particularly important for adaptive façade components that have the capability of controlling thermal energy storage in the construction thermal mass. Building performance simulations can help to analyse the performance of buildings with adaptive façades, but such studies usually only provide information about the energy and comfort performance at room level. (...) This paper presents experiences and lessons learned from four European R&D projects that have introduced novel metrics to capture the dynamic performance of adaptive opaque façades. 

Towards new metrics for the characterisation of the dynamic performance of adaptive façade systems

Brief survey report on what is going on in IEC/TC and IEA/ PVPS groups on “Extreme conditions”
Survey report on “Extreme weather conditions”
September 2018 - PDF 0.14MB
By: He Zinian

In the Work Plan for the Task 57 of IEA/SHC, a specific activity B5 “Defining / discussing environmental extreme conditions” was presented for the Subtask B. In order to make it co-ordinated with related international standards, a more concrete activity B5 “What is going on in IEC/TC and IEA/ PVPS groups on Extreme conditions” was further specified.

In past years, some information about IEC/TC and IEA/ PVPS groups on Extreme conditions has been searched. The search results are undoubtedly helpful for preparing definitions of environmental extreme conditions in solar thermal application in the future.

 

Brief survey report on what is going on in IEC/TC and IEA/ PVPS groups on “Extreme conditions”

Check of solar collector field performance
Delivered as proposal for new Work Item to ISO/TC 180)
September 2018 - PDF 0.67MB
By: J.E. Nielsen

This document specifies a procedure to verify the performance of large collector fields. The collectors in the fields can be glazed flat plate collectors, evacuated tube collectors and/or tracking, focusing collectors. The check is done on the thermal power output of the collector field – the document specifies how to compare a measured output with a calculated one.

The document applies for all sizes of collector fields.

Check of solar collector field performance

Comparison of SHAMCI and Solar Keymark
September 2018 - PDF 0.68MB
By: Ashraf Kraidy and Lotus Shaheen

In the Arab countries a certification scheme (SHAMCI) for solar thermal product is being introduced. SHAMCI is very much inspired by the European certification scheme Solar Keymark, and in the task a comparison between SHAMCI and Solar Keymark has been elaborated. This paper compares between the certification schemes and quality mark of solar water heaters (SWH) in Europe; represented by the Solar Keymark (SK) and the Solar Heating Arab Marks and Certification Initiative (SHAMCI). The paper also discusses the expected benefits  of realizing a harmonization between the two previously mentioned schemes, highlighting current and possible future cooperation.

Comparison of SHAMCI and Solar Keymark

Definition of a reference office building for simulation based evaluation of solar envelope systems
EuroSun 2018 - 12th International Conference on Solar Energy for Buildings and Industry, Rapperswil, Switzerland, Sept. 10-13, 2018
September 2018
By: D´Antoni, M., Geisler-Moroder, D., Bonato, P., Ochs, F., Magni, M., De Vries, S.B., Loonen, R.C.G.M., Fedrizzi, F.
Document Number: http://proceedings.ises.org/?doi=eurosun2018.06.13

Abstract - Solar Envelope systems, which represent the technological response for meeting aesthetic requirements and solar renewable energy exploitation on building façades, are gaining a rising attention. However, they are still rare on the market. IEA SHC Task 56 focuses on the critical analysis, simulation, laboratory tests and onsite monitoring of market available and near market Solar Envelope systems. Within this framework, reference boundary conditions are required in order to assess the performance of Solar Envelope systems and compare different technologies through numerical simulations. The present paper reviews the process of defining reference boundary conditions for an office building, listing possible simplifications and required assumptions in order to calculate the impact at whole building level in terms of useful and final energy savings related to the installation of a façade integrated technology. The paper concludes with a comparison of simulation results between TRNSYS and DALEC, a simplified concept evaluation tool, which performs combined thermal and lighting analysis already at early design stages. 

Definition of a reference office building for simulation based evaluation of solar envelope systems

Evaluation of Efficiency and Renewable Energy Measures Considering the Future Energy Mix
7th International Building Physics Conference (IBPC 2018)
September 2018
By: Ochs, Fabian; Dermentzis, Georgios
Document Number: https://doi.org/10.14305/ibpc.2018.pe-1.03

Abstract - Sustainable and responsible use of resources is required in order to mitigate climate change. Micro-economic goals usually consider the capitalized investment costs and/or the purchased energy but disregard environmental impacts. However, on macro-economic scale, the aim must be the reduction of the (non-renewable) primary energy (PE) use and of CO2-emissions. There is need for an appropriate evaluation method for comparing and ranking different passive and active building technologies, e.g. according to their impact on the PE consumption. (...) This paper discusses - using a realized NZE multi-family building as an example - a PE evaluation method, that allows to include future development of the load (i.e. building stock) and electricity mix (share of REs) with seasonal variations and shows the impact on the ranking of different passive and active technologies.

Evaluation of Efficiency and Renewable Energy Measures Considering the Future Energy Mix

Guideline for Implementing Certification Schemes for Solar Heating and Cooling Products
September 2018 - PDF 0.62MB
By: J.E. Nielsen

To support implementation of certification schemes in countries regions without tradition / experience in certification schemes, an introduction to product certification schemes at a general level has been elaborated. Here guidelines for how to initiate and implement a certification scheme for solar heating and cooling products are given.

What is certification: A product certificate (mark/label) is given to show that the product fulfils some specific requirements and/or have some specific characteristics. Product certificates/labels/marks are well known from the market – e.g. the European CE marking and Energy Rating/Labelling from different parts of the world. For some products - e.g. electrical products - focus could be on safety. For other products -  e.g. energy using or producing products - focus could be on energy performance. The basis for certification schemes are usually standards giving the specific requirements for the products – and defining the test procedures for how to check if requirements are fulfilled.

Guideline for Implementing Certification Schemes for Solar Heating and Cooling Products

Test methods and requirements for building integrated collectors and systems
This is a final draft which may be proposed to ISO/TC 180
September 2018 - PDF 0.59MB
By: Zhang Lei, Gu Xiuzhi

This standard specifies the terms and definitions, classifications, codes and markings, general requirements, requirements and test methods, inspection rules, signs, marking and operation instruction, packaging, transportation and storage of solar thermal components for building.  This standard is applicable to solar thermal components for industrial and civil usage.

Test methods and requirements for building integrated collectors and systems

Test methods for close-coupled solar water heating systems - Reliability and safety
This is a final draft which may be proposed to ISO/TC 180
September 2018 - PDF 0.52MB
By: He Zinian

This standard specifies test methods for assessing the reliability and safety with regard to close-coupled solar water heating systems.

This standard is applicable to all types of close-coupled solar water heating systems, including those using flat-plate collectors with thermo-siphon circulation; and those using evacuated tubes directly connected to the storage tank.

This standard is also applicable to close-coupled solar water heating systems assisted by air-source heat-pumps; and to close-coupled solar water heating systems with auxiliary electric energy for normal system operation.

 

Test methods for close-coupled solar water heating systems - Reliability and safety

Angle-dependent optical properties of advanced fenestration systems
Building Simulation (2018), Online ISSN 1996-8744
August 2018
By: Capperucci, R., Loonen, R.C.G.M., Hensen, J.L.M., Rosemann, A.L.P.
Publisher: Tsinghua University Press
Document Number: https://doi.org/10.1007/s12273-018-0466-4

Abstract - Advanced glazing systems with special spectral characteristics or light redirecting behavior are commonly applied to improve building energy efficiency and indoor comfort conditions. The angle-dependent optical properties of such advanced windows can be markedly different from those of ordinary glass. To achieve accurate building performance predictions, it is necessary to represent the physical behavior of advanced window systems at a sufficiently high level of detail in building simulation programs [...]  Download open access paper

Angle-dependent optical properties of advanced fenestration systems

Approaches, Methods and Tools for Solar Energy in Urban Planning
August 2018 - PDF 31.54MB
By: Olaf Bruun Jørgensen, Johan Dahlberg, Laurent Deschamps, Aymeric Delmas, Pietro Florio, Francesco Frontini, François Garde, Simone Giostra, Jouri Kanters, Karin Kappel, Margarethe Korolkow, Tilmann Kuhn, Marja Lundgren, Christoph Maurer, Maria Cristina Munari Probst, Emilie Nault, Romain Nouvel, Giuseppe Peronato, Cristina S. Polo López, Cristian Roecker, Alessandra Scognamiglio, Simon Stendorf Sørensen, Tanja Siems, Katharina Simon, Daniele Vettorato, Karsten Voss
Editor: Marja Lundgren & Johan Dahlberg
Publisher: IEA SHC Task 51
Document Number: Task 51/ Report B2

This report gathers and presents approaches, methods and tools that can support and facilitate daylight and solar energy considerations within urban planning processes. The report presents different ways to address existing building stock, new urban environments and landscape environments in relation to use of daylight and active solar. It addresses the need for spatial and energy planning that enhances solar energy while respecting cultural and historical heritage values in urban and landscape contexts.

Approaches, Methods and Tools for Solar Energy in Urban Planning

Investigating the potential of a closed-loop dynamic insulation system for opaque building elements
Energy and Buildings 173, 2018, Pages 409-427, ISSN 0378-7788
August 2018
By: Koenders, S.J.M., Loonen, R.C.G.M. & Hensen, J.L.M.
Document Number: https://doi.org/10.1016/j.enbuild.2018.05.051

Abstract - In this paper the performance of a novel type of closed-loop forced convective dynamic insulation system is investigated. First results show that a ninefold higher U-value can be achieved in comparison with the insulating state of the system. Multiple case studies have been analysed to study the behaviour and performance of the system. We found that the dynamic insulation system can reduce the energy consumption and increase the indoor thermal comfort of a typical residential building, while using less auxiliary energy than comparable passive cooling systems, such as night ventilation. Applying dynamic insulation to a façade construction with a heavyweight interior partition and lightweight exterior partition resulted in the best performance [...]  Download open access publication


SHC Solar Update Newsletter July 2018, p. 6
Building Experts at EuroSun 2018 Discuss What’s Being Done and What Needs To Be Done
July 2018 - PDF 0.19MB
By: Matteo D’Anton
SHC Solar Update Newsletter July 2018, p. 6

Adapted Monitoring Procedure for the thermal side of New Generation Solar Heating & Cooling Systems
C1-2 Final Report
June 2018 - PDF 1.84MB
By: Bettina Nock3, Daniel Neyer, Alexander Thür, Karl Berger

Activity 1 of Subtask C is dedicated to prepare the testing and the monitoring methodology to measure the performances of the selected demo projects for NG H&C-Systems. A valorization of past and ongoing results from IEA SHC Task 38, 44 and 48 was done on how to properly monitor these systems, in order to achieve reliable indicators and significant information on the performance as well as primary energy savings and reduction of greenhouse gases, plus finally also on economic criteria.

Adapted Monitoring Procedure for the thermal side of New Generation Solar Heating & Cooling Systems

Catalogue of Selected Systems
Task 53 / Report C2
June 2018 - PDF 1.02MB
By: Daniel Neyer, Rebekka Köll and Pedro G. Vicente Quiles
IEA SHC Task 53 continues the work of earlier IEA SHC Tasks (Tasks 38, 48) to find solutions to make solar heating and cooling systems interesting and more cost competitive. The general objective of Subtask C is to stimulate, monitor and analyze performance of field test systems and demonstration projects of new generation solar cooling & heating systems.
Catalogue of Selected Systems

Cost Curves for Heat Savings in Buildings
Calculation of costs and potentials for heat savings in existing buildings through the refurbishment of the building surface for various countries in Europe until 2050
June 2018 - PDF 0.79MB
By: Marcus Hummel

This report shows the underlying data on existing buildings, the assumptions regarding future developments of the building stocks, the costs and energetic effects of various renovation measures on different parts of the building shell, the methodology for calculating the cost curves for heat savings in buildings, the resulting cost curves for the countries under investigation including their sensitivity to important input assumptions, and conclusions as well as discussion points that resulted from this work.

Cost Curves for Heat Savings in Buildings

Influence of Sector Coupling on Solar Thermal Energy
A scenario analysis of the German energy system
June 2018 - PDF 0.9MB
By: Sebastian Herkel, Andreas Palzer

This report presents the results of a scenario study on the potential role of solar thermal in future energy systems in Germany. This work is applied in the IEA task 52 Solar Heat and Energy Economics in Urban Environments. In the framework of IEA-SHC Task 52 the (possible future) role of solar thermal energy utilization in urban environments is investigated more deeply. Main focus is on the utilization of solar energy by means of active technologies such as solar thermal collectors.This report presents the scenario results calculated based on the methodology in Subtask A of the IEA task 52 Solar Heat and Energy Economics in Urban Environments.

Influence of Sector Coupling on Solar Thermal Energy

Joined Workshop SHC Task 55 & DHC Annex TS2 10th of April 2018, in Graz, Austria
June 2018 - PDF 0.07MB
By: Sabine Putz, Anna Katharina Provasnek, Kristina Lygnerud

The programs of Solar Heating and cooling (SHC) as well as District Heating and Cooling (DHC) belong to the 5 main technology collaboration programmes (TCP) of the IEA (International Energy Agency). SHC was among the first programmes of the IEA established in 1977. Its goal is to promote the use of all aspects of solar thermal energy.

Joined Workshop SHC Task 55 & DHC Annex TS2  10th of April 2018, in Graz, Austria

LCA and techno-eco comparison between reference and new systems
A5 Final Report
June 2018 - PDF 2.03MB
Editor: Marco Beccali, Maurizio Cellura, Sonia Longo

This technical report describes the research activities developed within Subtasks A: “Components, Systems & Quality, Activity A5 “LCA and techno-eco comparison between reference and new systems”.
Subtask A – Activity A5 is focused on environmental analysis and, when applicable, on the techno-economic analysis, of the systems studied in Subtask A, and the comparison with reference systems when accurate (same location and same boundary conditions).

 

LCA and techno-eco comparison between reference and new systems

Monitoring data analysis on technical issues & on performances
C3 Final Report
June 2018 - PDF 10.2MB
By: Rebekka Köll and Daniel Neyer

The number of solar cooling and heating (SHC) systems is increasing permanently (Mugnier and Jakob, 2015) new technologies and different solutions are available on research level but also on the market (Mugnier, 2015). These systems are characterized by a high diversity of design possibilities including not only different cooling and heating technologies, but also a great variety of different renewable and non-renewable energy sources. Main obstacles for a wider and faster spread of solar cooling and heating are based on (i) lack of knowledge. (ii) technical issues but mainly on (iii) economics.
 

Monitoring data analysis on technical issues & on performances

Monitoring Procedure for Field Test & Demo Systems with Compression Heat Pumps Driven by Photovoltaic Solar Energy
C1-1 Final Report
June 2018 - PDF 2.21MB
By: Franscisco Aguilar Valero, Daniel Neyer and Pedro Vicente Quiles

Monitoring of field test systems and demonstration projects for new generation solar cooling & heating systems is fundamental to analyze their performances, to identify, their possibilities and to verify the quality of the proposed solutions. This work is done in Subtask C, called “Testing and demonstration projects”, using the results of Subtasks A and B.
 

Monitoring Procedure for Field Test & Demo Systems with Compression Heat Pumps Driven by Photovoltaic Solar Energy

Opportunities and Challenges for Performance Prediction of Dynamic Complex Fenestration Systems (CFS)
Journal of Façade Design and Engineering, 6(3), 2019, 101-115
June 2018 - PDF 1.85MB
By: De Michele, G., Loonen, R.C.G.M., Saini, H., Favoino, F., Avesani, S., Papaiz, L. & Gasparella, A.
Document Number: https://doi.org/10.7480/jfde.2018.3.2531

Abstract - This article presents an overview of possibilities and points of attention for modelling the performance of dynamic CFS in building performance simulation software. Following a detailed analysis of the unique requirements that are associated with modelling of CFS, a comparative study of the capabilities in different software implementations is presented. In addition, we present on overview of state-of-the-art approaches to obtain the necessary Bi-directional Scattering Distribution Functions (BSDF), involving experimental characterisation, databases, and component-level ray-tracing approaches. The second part of the paper provides a detailed discussion of a case study of a high reflective lamella system [...]

Opportunities and Challenges for Performance Prediction of Dynamic Complex Fenestration Systems (CFS)

Task 61 Brochure
Integrated Solutions for Daylight and Electric Lighting
June 2018 - PDF 0.62MB

The overall objective of the Task is to foster the integration of daylight and electric lighting solutions to the benefits of higher user satisfaction and at the same time energy savings. The Brochure gives an overview on the Task activities.

Task 61 Brochure

Technical report on components and system models validation
B3 Final Report
June 2018 - PDF 1.44MB
Editor: Chiara Dipasquale, Roberto Fedrizzi, Valeria Palomba, Alex Thür, DagmarJähnig

This document reports on the layout configuration and components characteristics of solar driven heating and cooling systems. These HVAC systems are installed in the residential buildings described in the Deliverable B1.

The energy plant reported for the first example has a modular structure in a way that different configurations can be modelled and system performance can be compared. Four generation devices, three distribution systems and different solar field areas of solar thermal and PV systems can be combined keeping the control strategies unchanged.

Technical report on components and system models validation

Technical report on simulations results and systems intercomparison
B5 Final Report
June 2018 - PDF 2.04MB
By: Chiara Dipasquale, Roberto Fedrizzi, Valeria Palomba, Alex Thür, Dagmar Jähnig

The use of solar technologies for covering heating and cooling loads can assume different configurations. In deliverable B3, a number of this kind of heating & cooling systems are described. These systems are installed in residential buildings described in the deliverable B1: single and multi-family houses located in different climates throughout Europe. Systems sizing and control strategies are reported in B4.
 

Technical report on simulations results and systems intercomparison

Technical report on system sizing and optimised control strategies
B4 Final Report
June 2018 - PDF 1.73MB
Editor: Chiara Dipasquale, Roberto Fedrizzi, Valeria Palomba, Alex Thür, Dagmar Jähnig
Technical report on system sizing and optimised control strategies

Technical report on the reference conditions for modelling
B1 Final Report
June 2018 - PDF 2.01MB
Editor: Chiara Dipasquale, Roberto Fedrizzi, Valeria Palomba, Alex Thür, DagmarJähnig

The main objective of SubTask B is to analyse and select optimized control strategies to manage the interaction between solar and cooling machine and to investigate demand/response strategies to optimise the interaction with smart grids. The latter objective is developed in the Deliverable B2, while the first is presented in the Deliverable B5. Reference buildings, energy plant layouts and control strategies used for assessing the performance of innovative systems are described in B1, B3 and B4 respectively.

The aim of this report is therefore to provide information on the boundary conditions and construction typologies that have been used to simulate heating and cooling demands of residential buildings.

Technical report on the reference conditions for modelling

Unglazed solar thermal systems for building integration, coupled with district heating systems
Journal of Facade Design and Engineering 6(2) 119-131, June 2018, ISSN: 2213-3038
June 2018
By: MUGAGUREN, Mikel Lumbreras; GARAY, Roberto; MARTIN, Koldobika
Document Number: https://doi.org/10.7480/jfde.2018.2.2085

Abstract - In this paper, the energy performance of a solar thermal (ST) façade system is studied in relation to its connection to a district heating system. This concept allows for the direct use of ST heat in the building, while taking profit from the network for delivery/selling of excess heat and purchase of heat during periods of underproduction. The use of unglazed collectors for low-intrusive architectural interaction in façades is discussed. Studies are carried out on the heat production of the system and its capacity to cope with local demands. Economic studies are carried out in order to balance the investment and operational costs/profits of the system. Download open access publication

Unglazed solar thermal systems for building integration, coupled with district heating systems

Urban energy concept Solar district heating Methodology and tools
Technical Report of IEA SHC Task 52, subtask B - Methodologies, Tools and Case studies for Urban Energy concepts
June 2018 - PDF 1.04MB
By: Martin Joly (Sorane, CH), Paul Bourdoukan (Sorane, CH), Jan-Bleicke Eggers (ISE, DE), Martin Andersen (SERC, SE), Chris Bales (SERC, SE), Gabriel Ruiz (CREM, CH), Daniel Trier (Planenergi, DK), Christine Weber (BKW, CH), Sebastian Herkel (ISE, DE)
Editor: Martin Joly

This report summaries the different achievements of the subtask B focused on Methodologies, Tools and Case studies for Urban Energy concepts. In the first chapter, we will present the preliminary studies made on existing tools and on the assessment of the needs of urban actors. These studies were used as a base to build a new methodology. In the second chapter, we present a methodology to guide stakeholders in their different choices when projecting a solar district heating in urban environment. The case studies analysis is presented in a the Case Study report of Task 52

Urban energy concept Solar district heating Methodology and tools

On the development of a façade-integrated solar water storage
Journal of Facade Design and Engineering 6(2) 9-20, June 2018, ISSN: 2213-3038
May 2018
Document Number: https://doi.org/10.7480/jfde.2018.2.2048

Abstract - The scope of this paper is to highlight the main barriers that are experienced in the development of façade-integrated solar water storage. This activity is a part of the SunRise project that aims to develop a new unitised curtain wall element for tertiary office buildings. The façade element integrates a complete solar thermal system consisting of a solar collector, hot water storage, a radiant panel, and all the required operation components. A mock-up of the solar façade is manufactured to identify practical constructional issues. The thermal behaviour of the tank is analysed through FEM simulations and laboratory tests. Download publication

On the development of a façade-integrated solar water storage

Report on a new and universal classification method “new generation solar cooling square view” for generic systems
A4 Final Report
May 2018 - PDF 1.2MB
By: Marcus Rennhofer, Tim Selke

The activity will study in a conceptual approach called “square view” develop among IEA SHC Task 44 consisting on simply presenting the different configurations of integration of solar cooling and heating systems among buildings, micro grids and the central grid. One criteria of limitation of the possibilities of configuration will be to consider systems available on the market to close to be commercialized.

Report on a new and universal classification method “new generation solar cooling square view” for generic systems

Lesson Learned from Case Studies of Solar Energy in Urban Planning
April 2018 - PDF 31.51MB
By: Olaf Bruun Jørgensen, Silvia Croce, Johan Dahlberg, Aymeric Delmas, Pietro Florio, François Garde, Jianqing He, Miljana Horvat, Jouri Kanters, Karin Kappel, Margarethe Korolkow, Carmel Lindkvist, Gabriele Lobaccaro, Marja Lundgren, Anne Monnier, Marlene Moore, Maria Cristina Munari Probst, Emilie Nault, Romain Nouvel, Rossana Paparella, Alexandre Pavlovski, Giuseppe Peronato, Christina S. Polo López, Christian Roecker, Alessandra Scognamiglio, Tanja Siems, Katharina Simon, Simon Stendorf Sørensen, Daniele Vettorato, Daiva Walangitang, Maria Wall, Annemie Wyckmans, Isa Zanetti
Editor: Gabriele Lobaccaro, Carmel Lindkvist & Maria Wall
Publisher: IEA SHC Task 51
Document Number: Task 51/Report C3

This report (C3) presents lessons learnt drawn from the case studies within Task 51 presented in Report C1 and Report C2. The lessons learnt are divided into ten categories. Each category includes lessons learnt for the environments 1) new urban areas, 2) existing urban areas and 3) landscapes. Target groups are 1) citizens, 2) education actors, 3) professionals and stakeholders and 4) politicians and decision makers.

Lesson Learned from Case Studies of Solar Energy in Urban Planning

Solar District Heating Trends and Possibilities
Characteristics of Ground-Mounted Systems for Screening of Land Use Requirements and Feasibility
March 2018 - PDF 5.98MB
By: Daniel Trier, Federico Bava, Christian Kok, Skov Simon, Stendorf Sørensen

To reach a high solar fraction for a given town, a large number of roof mounted solar collector systems will in general be required, as the size of each system is limited by the roof area available. Given a certain area required to reach a specific solar fraction, a large ground-mounted system will often have a much lower total cost due to economy of scale. Hence, it is relevant to determine whether it would be more feasible to place large solar collector fields outside a town and supply heat to the district heating (DH) network through a transmission pipe, rather than to install many smaller solar heating systems on rooftops within the town. The analysis shows that the economies of scale of groundmounted solar collector systems can normally compensate for the extra costs of transmission pipes, as long as these are not too long, so that the resulting total cost of solar heat can become acceptable. This report aims at answering a few key questions regarding the development of largescale solar thermal systems supplying DH networks, which will be referred to as “solar district heating” (SDH): We have seen a strong SDH development in Denmark in the past decade – what are the characteristics of the Danish SDH systems? and Would it be possible to see a similar development in other countries?

Solar District Heating Trends and Possibilities

State-of-the-Art of Education on Solar Energy in Urban Planning
Part 2: Solar Irradiation Potential Tools in Education
February 2018 - PDF 3.54MB
By: Susanne Hendel, Carmel Margaret Lindkvist, Gabriele Lobaccaro, Marja Lundgren (contributor), Romain Nouvel, Alexander Saurbier, Nava Shahin, Tanja Siems, Katharina Simon, Karsten Voss, Tjado Voss, Maria Wall (operating agent)
Editor: Tanja Siems, Katharina Simon & Karsten Voss
Publisher: IEA SHC Task 51
Document Number: Task 51/ Report D1 Part 2

This report compares experiences in using selected software tools in seminars at universities based on a design task example with experiences of international partners within the framework of IEA SHC Task 51. Also, this report discusses the current development status of new research and teaching tools.

State-of-the-Art of Education on Solar Energy in Urban Planning

Task 54 Highlights 2017
February 2018 - PDF 0.42MB
One of the greatest challenges of the 21st century is to secure a sustainable energy supply and to considerably reduce CO2 emissions and the serious consequence of climate change. The challenging goals with regard to the contributions of renewable energy cannot be reached without considerable growth of solar thermal markets worldwide. Therefore, cost-competitive, efficient and reliable solar thermal systems are required. Cost-competitiveness is particularly hard to achieve as the price of solar thermal systems is still not equaled by the price end-users have to pay for conventional heat supply.
Task 54 Highlights 2017

National and International Comparison of Case Studies on Solar Energy in Urban Planning
January 2018 - PDF 32.13MB
By: Olaf Bruun Jørgensen, Silvia Croce, Johan Dahlberg, Aymeric Delmas, François Garde, Simone Giostra, Jianqing He, Miljana Horvat, Jouri Kanters, Karin Kappel, Margarethe Korolkow, Carmel Lindkvist, Gabriele Lobaccaro, Marja Lundgren, Anne Monnier, Marlene Moore, Emilie Nault, Romain Nouvel, Rossana Paparella, Alexandre Pavlovski, Giuseppe Peronato, Christina S. Polo López, Alessandra Scognamiglio, Tanja Siems, Katharina Simon, Simon Stendorf Sørensen, Daniele Vettorato, Daiva Walangitang, Maria Wall, Annemie Wyckmans, Isa Zanetti
Editor: Gabriele Lobaccaro, Carmel Lindkvist & Maria Wall
Document Number: Task 51/Report C2

This report presents 14 comparisons among the case studies collected in the Task 51/Report C1. The case studies represent new urban areas, existing urban areas and landscapes. The comparisons concern 1) scale and planning process, 2) legislation and technology and 3) targets and goals. Each comparison provides lessons learnt and recommendations for the different target groups, such as urban planners, architects, researchers and urban stakeholders involved in the planning process.

National and International Comparison of Case Studies on Solar Energy in Urban Planning

Best Practices Handbook for the Collection and Use of Solar Resource Data for Solar Energy Applications: Second Edition
December 2017 - PDF 9.3MB
Editor: Manajit Sengupta, Aron Habte, Christian Gueymard, Stefan Wilbert, and Dave Renné
Document Number: NREL/TP-5D00-68886

Designing, financing, and operating successful solar heating, concentrating solar power, and photovoltaic systems requires reliable information about the solar resource available and its variability over time. In the past, seasonal and daily variability has been studied and understood; however, with new solar technologies becoming more important in energy supply grids, small time-scale effects are critical to successful deployment of these important low carbon technologies. A vital part of the bankability of solar projects is to understand the variability of the solar resource so that supply and storage technologies can be optimized.

Best Practices Handbook for the Collection and Use of Solar Resource Data for Solar Energy Applications: Second Edition

SHC Solar Update Newsletter, Dec. 2017, p 4-5
Hurdles and opportunities offered by the exploitation of the solar source through multifunctional envelope technologies
December 2017 - PDF 0.71MB
By: Roberto Fedrizzi, Ellika Cachat , Bärbel Epp, Fabian Ochs, David Geisler-Moroder, Tomas Mikeska
SHC Solar Update Newsletter, Dec. 2017, p 4-5

The Solar Cooling Design Guide: Case Studies of Successful Solar Air Conditioning Design
December 2017
Editor: Daniel Mugnier, Daniel Neyer, Stephen D. White
Publisher: Wiley
Order - $95.00 USD

Solar cooling systems can be a cost-effective and environmentally attractive air-conditioning solution. The design of such systems, however, is complex. Research carried out under the aegis of the International Energy Agency's Solar Heating and Cooling Program has shown that there is a range of seemingly subtle design decisions that can impact significantly on the performance of solar cooling systems. In order to reduce the risk of errors in the design process, this guide provides detailed and very specific engineering design information. It focuses on case study examples of installed plants that have been monitored and evaluated over the last decade. For three successful plants the design process is described in detail and the rationale for each key design decision is explained. Numerical constraints are suggested for the sizing / selection parameters of key equipment items. Moreover, the application conditions under which the system selection is appropriate are discussed. By following The Guide for any of the three specific solar cooling systems, the designer can expect to reliably achieve a robust, energy-saving solution. This book is intended as a companion to the IEA Solar Cooling Handbook which provides a general overview of the various technologies as well as comprehensive advice to enable engineers to design their own solar cooling system from first principles.

The Solar Cooling Design Guide: Case Studies of Successful Solar Air Conditioning Design

Urban-based solar potential analysis – A teaching and learning tool for determining the solar energy use at the district scale
User Manual
December 2017 - PDF 2.11MB
By: Susanne Hendel & Karsten Voss
Publisher: IEA SHC Task 51

As part of the “Lernnetz Bauphysik” (Building Physics Learning Network), an independent online tool for urban-based solar potential analyses has been specially developed for use in education and training. Based on a simplified 3D model created in the integrated Project Editor, EnOB Solar Potential Analysis enables the simulation of solar irradiation totals in freely defined time periods together with shading effects and solar hours, in each case on the district scale. This tool is available free of charge and can be obtained by the link: https://projektinfos.energiewendebauen.de/en/project/werkzeug-fuer-die-staedtebauliche-solarpotenzialanalyse/

Urban-based solar potential analysis – A teaching and learning tool for determining the solar energy use at the district scale

State of the art of new generation commercially available products
November 2017 - PDF 4.18MB
By: Daniel Mugnier (TECSOL) & Alexandre Mopty ; Marcu Rennhofer (AIT) & Tim Selke (AIT)
Editor: Daniel Mugnier

The A2 activity is dedicated to building the state-of-the-art for new cooling and heating system configurations according to market available and close to market solutions (R&D level just before or during demo stage) at the start of SHC Task 53). This state-of-the-art is based on results from surveying SHC Task 53 participants, and no claim can be made for completeness. The survey results for both solar thermal and solar PV solutions are classified according different criteria: size, applications, etc. The present report has been built so as to make a picture of the existing and future systems called “New Generation Solar Cooling and Heating Systems” and try to understand their main features. This picture cannot be completed but this can give an interesting fore view of this new generation. This survey is not including refrigeration systems. The solutions are all pre-engineered systems with small to medium capacities for the following building types: single family houses, small multi-family buildings, offices, shops, commercial centres, factories, hotels. All of these buildings can be grid connected or off grid in case of PV cooling and heating. The cooling and heating power range will be from 1 kWcooling/heating to several tens of kWcooling/heating. The majority of the presented solutions can be driven by solar thermal or/and solar photovoltaic energy, which means these are all solar cooling solutions. 10 solutions are described in a summary set of tables giving technical comparative details as well as some economic indications (overall average end user price for instance) and a comparative square view of the principle scheme is presented. Additional details and pictures can be found in the Annex.

State of the art of new generation commercially available products

Technical report on best practices for energy storage including both efficiency and adaptability in solar cooling systems
A3 Final Report
November 2017 - PDF 2.56MB
Editor: Dr. Elena-Lavinia Niederhäuser, Matthias Rouge

The gravity centre in energy research and development is shifting from centralized production to the level of building neighbourhood, district and urban systems that bring together a variety of classical research topics such as energy management, as well as the production of heat/cold and of electricity via renewable and non-renewable technologies, electricity distribution networks, thermal networks, energy demand in buildings into one integrated system. Thus, a strong need to stimulate the solar cooling sector for small and medium power size was identified.

Technical report on best practices for energy storage including both efficiency and adaptability in solar cooling systems

The Role of Solar thermal in Future Energy Systems
Country Cases for Germany, Italy, Austria and Denmark
November 2017 - PDF 3.71MB
By: Brian Vad Mathiesen, Kenneth Hansen

This report deals with solar thermal technologies and investigates possible roles for solar thermal in future energy systems for four national energy systems; Germany, Austria, Italy and Denmark. The project period started in January 2014 and finished by October 2017. This report is based on research performed by Aalborg University with the collaboration of Subtask A project partners Sebastian Herkel and Andreas Palzer from Fraunhofer ISE, Marcus Hummel and Richard Büchele from the Technical University of Vienna as well as Bengt Perers and Simon Furbo from the Technical University of Denmark. Additional collaboration with other subtask project partners has contributed to enhancing the methodology and reporting of the research. Contributions from Rasmus Lund from Aalborg University are also appreciated.

The Role of Solar thermal in Future Energy Systems

A review of control methodologies for dynamic glazing
12th Conference on Advanced Building Skins, 2-3 October 2017, Bern, Switzerland,
October 2017
By: Eoin McLean, Brian Norton, Derek Kearney, Philippe Lemarchand

With adaptive building façade technologies, a building envelope can provide a comfortable indoor environment under varying external conditions with minimal additional heating or cooling. The control strategy applied to the adaptation of the façade is a key determining factor in the successful integration of these technologies into a building. The building envelope plays a key role in regulating light, heat and mass transfer from the outdoor environment to the indoor. Dynamic glazing can be used to adjust the amount of solar radiation entering a building. The control strategies that ultimately determine the success of these switchable technologies to affect a building's energy performance and occupant comfort are reviewed in this paper.

A review of control methodologies for dynamic glazing

Die LCoH-Methode zur Berechnung von Wärmegestehungskosten
October 2017 - PDF 3.91MB
By: Stephan Fischer
Publisher: Tagung Kosteneffiziente solarthermische Systeme, Linz 04.10.2017
Die LCoH-Methode zur Berechnung von Wärmegestehungskosten

Experimentation under real performing conditions of a highly integrable unglazed solar collector into a building façade
Energy Procedia, Volume 122, 2017, Pages 775-780, ISSN 1876-6102
September 2017
By: P. Elguezabal, R. Garay, K. Martin
Publisher: www.icae2018.eu
Document Number: https://doi.org/10.1016/j.egypro.2017.07.395

Abstract - In the current context of moving towards more sustainable construction, advanced façade systems that integrate solar collecting devices represent a commitment with future trends that combine renewable technologies with building skins. This paper describes a real experience when combining a novel unglazed solar collector based on sandwich panel technology, a heat pump and a controller that manages the different operation modes. Installed in the Kubik by Tecnalia testing building in northern Spain, the system has been monitored for several months in 2016, under an energy efficiency scope. The study will present measured values regarding the yield of the collector, performance of the heat pump and general efficiencies. Download open access publication

Experimentation under real performing conditions of a highly integrable unglazed solar collector into a building façade

Cost Performance for Small Smart Solar Thermal Systems Outside District Heating Networks
August 2017 - PDF 0.59MB
By: Bengt Perers, Simon Furbo, Elsa Andersen, Janne Dragsted

Other than for solar district heating, solar thermal systems attached to individual buildings face a significant market downturn all over Europe for several years already. On the other hand, every solar thermal technology enables CO2-free heat supply and hence has the potential to contribute to future low-carbon energy systems in cities.

In this respect, this report aims to critically reflect on past solar thermal developments on the one hand side and to show opportunities and innovative ideas for future product developments in the field of small smart solar combi systems on the other side. The work is based on 40 years of research and development experience at Danish Technical University (DTU) and driven by the conviction that there is large potential for solar thermal applications in urban environments also outside of district heating supply areas

Cost Performance for Small Smart Solar Thermal Systems Outside District Heating Networks

Solar Thermal Applications in Urban Environmensts
August 2017 - PDF 2.16MB
By: Franz Mauthner

Examples and case study on solar thermal applications in urban environments

Solar Thermal Applications in Urban Environmensts

Technology and Demonstrators
Technical Report Subtask B – Part B3, Technical Report Subtask C – Part C2
August 2017 - PDF 4.9MB
By: Franz Mauthner, Martin Joly

In Report C2: Analysis of best practice examples, information about built best practice examples as well as conceptual feasibility studies of solar thermal applications in urban environments is summarized. Objective is to highlight technical potentials, innovative approaches and restrictions of solar thermal applications in urban environments in a holistic energy system context on the one hand and to identify and describe lessons learned regarding applied methodologies, success factors and barriers on the other side.

Technology and Demonstrators

Illustrative Prospective of Solar Energy in Urban Planning
Collection of International Case Studies
June 2017 - PDF 75.37MB
By: Olaf Bruun Jørgensen, Mauro Caini, Silvia Croce, Johan Dahlberg, Aymeric Delmas, Pietro Florio, Francesco Frontini, François Garde, Markus Gratzl, Virginie Grosdemouge, Caroline Hachem-Vermette, Mats Hachem-Åberg, Jianqing He, Miljana Horvat, Jouri Kanters, Karin Kappel, Margarethe Korolkow, Carmel Lindkvist, Gabriele Lobaccaro, Marja Lundgren, Thomas Mach, Michael Malderle, Christophe Menezo, Anne Monnier, Marlene Moore, Maria Cristina Munari Probst, Marjorie Musy, Emilie Nault, Hans-Martin Neumann, Romain Nouvel, Rossana Paparella, Alexandre Pavlovski, Giuseppe Peronato, Christina S. Polo López, Ernst Rainer, Natalie Robertson, Christian Roecker, Erika Saretta, Kelsey Saunders, Alessandra Scognamiglio, Nazanin Sephery-Rad, Tanja Siems, Katharina Simon, Simon Stendorf Sørensen, Daiva Walangitang, Maria Wall, Annemie Wyckmans
Editor: Gabriele Lobaccaro, Carmel Lindkvist, Maria Wall & Annemie Wyckmans
Publisher: IEA SHC Task 51
Document Number: Task 51/Report C1

This report presents a collection of 34 case studies on solar energy in urban planning, addressing how the planning process has been developed, how the stakeholders have been involved, which instruments have been applied, which energy technology and environmental impact have been addressed and what the role was of the researchers during the entire process. The case studies from 10 countries include examples of new urban areas, existing urban areas and landscapes.

Illustrative Prospective of Solar Energy in Urban Planning

Summer Schools on Solar Energy in Urban Planning (English)
Teaching Methodologies and Results
June 2017 - PDF 25.55MB
By: Tanja Siems & Katharina Simon
Editor: Tanja Siems & Katharina Simon
Publisher: IEA SHC Task 51

This booklet describes an interdisciplinary summer school on solar energy in urban planning. Teaching methodologies and results are shown as an applied example of successful collaboration between teaching, research and practice, to serve as inspiration and encouragement for educators. (German) Die Broschüre beschreibt die interdisziplinäre Sommerakademie, welche sich mit der Nutzung von solaren Potenzialen im städtebaulichen Kontext auseinandergesetzt hat. Lehrmethoden und Ergebnisse werden beschrieben, die sich auf einer erfolgreichen Zusammenarbeit von Lehre, Forschung und Praxis gründen und als Inspiration und Unterstützung für Lehrende dienen sollen.

Summer Schools on Solar Energy in Urban Planning (English)

State-of-the-Art of Education on Solar Energy in Urban Planning
Part 1: Approaches and Methods in Education
May 2017 - PDF 14.07MB
By: Aymeric Delmas, Pietro Florio, Caroline Hachem- Vermette, Miljana Horvat, François Garde, Daiva Jakutyte-Walangitang, Jouri Kanters, Gabriele Lobaccaro, Marja Lundgren, Maria Cristina Munari Probst, Carmel Margaret Lindkvist, Thomas Mach, Michael Malderle, Emilie Nault, Rossana Paparella, Giuseppe Peronato, Cristina S. Polo López, Ernst Rainer, Pamela Robinson, Erika Saretta, Kelsey Saunders, Nava Shahin, Tanja Siems, Katharina Simon, Mark Snow, Tobias Weiss
Editor: Tanja Siems, Katharina Simon & Maria Wall
Publisher: IEA SHC Task 51
Document Number: Task 51/Report D1 Part 1

This report focuses on education in order to strengthen the knowledge and competence of relevant stakeholders in solar energy in urban planning. The core of this study is to create substantial links between research and education as well as between research and practice. Knowledge gaps in current education were investigated, reasons for these gaps were identified and solutions and strategies are proposed to overcome these shortcomings.

State-of-the-Art of Education on Solar Energy in Urban Planning

Solution Sets for Net-Zero Energy Buildings
Feedback from 30 Buildings worldwide
April 2017
Editor: Garde, Francois / Ayoub, Josef / Aelenei, Daniel / Aelenei, Laura / Scognamiglio, Alessandra
Publisher: Ernst & Sohn: A Wiley Brand
ISBN: 978-3-433-03072-1
Order - 79.00 EUR
Net Zero-Energy Buildings have been the object of numerous studies in recent years as various countries have set this performance level as a long-term goal of their energy policies. This book presents a unique study of 30 NZEBs that have been constructed and have had their performance measured for at least 12 months. The study is based upon an international collaborative research initiated by the International Energy Agency - the Solar Heating and Cooling Programme (SHC). It is the first book to evaluate building strategies in houses, educational buildings and offices that have been demonstrated to work in practice. It examines how the design challenges of climate and building type have been addressed, and to what extent the various design approaches have been successful. This book presents convincing evidence that a careful re-thinking of conventional design norms can achieve a far greater performance benefit than is normally feasible. It identifies `solution sets? that work at the whole building level and at the individual building design challenge level for each climate and building type. In doing so, the book provides guidance as to how to improve the design by learning from these cases.
Solution Sets for Net-Zero Energy Buildings

Concept, development and thermal characterisation of an unglazed solar thermal collector for facade integration
Dyna, National University of Colombia, Medellín
January 2017
By: Roberto Garay Martinez, Beñat Arregi Goikolea, Paul Bonnamy, Jérôme Lopez
Document Number: http://dx.doi.org/10.6036/8108

Abstract - The paper presents results from three ongoing projects. BATISOL and BASSE investigate the development of solar thermal technology so as to fulfil the functional, constructional and formal requirements of building skins. Façade assemblies are turned into active skins by integrating unglazed solar collectors in the place of conventional renders and claddings. RETROKIT explores the usage of renewable energy gains within an alternative environmental control strategy, by direct supply of heated air into the ventilation system. Finally, a discussion is presented on architectural, constructional and thermal performance aspects of these solutions, based on both design assessments and experimental data. Download open access publication

Concept, development and thermal characterisation of an unglazed solar thermal collector for facade integration

Hybridization of solar thermal systems into architectural envelopes
Proceedings PowerSkin Conference, Munich, Germany, January 19, 2017
January 2017
By: Beñat Arregi, Roberto Garay, Peru Elguezabal

Abstract - The lack of solutions for the architectural integration of solar collectors and the complexity of their assembly process are important barriers for the widespread adoption of this technology. An innovative approach is proposed in which solar collectors are not merely integrated into conventional building envelopes, but instead these envelopes are hybridized and activated to house solar thermal systems. (...) The paper presents results from three ongoing projects. BATISOL and BASSE investigate the development of solar thermal technology so as to fulfil the functional, constructional and formal requirements of building skins. (...). RETROKIT explores the usage of renewable energy gains within an alternative environmental control strategy, by direct supply of heated air into the ventilation system. Finally, a discussion is presented on architectural, constructional and thermal performance aspects of these solutions, based on both design assessments and experimental data. Access full paper on Research Gate

Hybridization of solar thermal systems into architectural envelopes

Review of current status, requirements and opportunities for building performance simulation of adaptive facade
Journal of Building Performance Simulation, 10(2), 205-223;
January 2017 - PDF 0.36MB
By: Roel Loonen, Fabio Favoino, Jan Hensen, Mauro Overend
Document Number: https://doi.org/10.1080/19401493.2016.1152303

Abstract - The main contribution of this review article is to bring together and analyse the existing information on building performance simulation of adaptive facades. In the first part, the unique requirements for successful modelling and simulation of adaptive facades are discussed. In the second part, the capabilities of five widely used BPS  tools are reviewed, in terms of their ability to model energy and occupant comfort performance of adaptive facades. Finally, it discusses various ongoing trends and research needs in this field.

Review of current status, requirements and opportunities for building performance simulation of adaptive facade

DALEC – a novel web tool for integrated day- and artificial light and energy calculation
Journal of Building Performance Simulation, 10:3, 344-363
December 2016
By: Matthias Werner, David Geisler-Moroder, Bert Junghans, Oliver Ebert & Wolfgang Feist
Publisher: Taylor & Francis Group
Document Number: https://doi.org/10.1080/19401493.2016.1259352

Abstract  -  DALEC is a novel, combined lighting and thermal simulation web tool. This tool allows building designers to evaluate their individual façade concepts in terms of thermal and visual performance and ultimately their impact on overall building energy use. Although easy to use, the software accounts for the complex thermal and light processes in buildings, by way of sophisticated and time-saving pre-calculations. Based on climatic data a calculation of heating, cooling and electric lighting loads can be obtained within a simulation time shorter than one second. The model has been validated by comparison with experimental data and other state-of-the-art software and shows deviations less than 15%. Not only energy demand is considered, but also user behaviour (e.g. glare protection), as well as visual and thermal comfort. This innovative, holistic approach facilitates and accelerates the design of sustainable and energy-efficient building for new, as well as for refurbished buildings.

DALEC – a novel web tool for integrated day- and artificial light and energy calculation

Summer School with a Twist
SHC Solar Update - December 2016
December 2016 - PDF 0.36MB
By: Tanja Siems, Katharina Simon, Susanne Rexroth, Gustav Hillmann, Margarethe Korolkow
The recently held summer school, “City in Transformation: Energy and the Urban Environment“ brought students together with researchers and teachers in combination with the IEA SHC Task on Solar Energy in Urban Planning. Over the course of a week, students from different fields and German universities developed a master plan for solar optimized buildings in an area of Berlin’s Adlershof district and then publically presented project designs.
Summer School with a Twist

Daylight-driven and user-centered lighting and energy management
Task 56 session at 12th Conference on Advanced Building Skins, 02.-03.10.2016, Bern, Switzerland, website: abs.green
October 2016 - PDF 0.32MB
By: Wilfried Pohl, Bartenbach GmbH, Austria

Abstract - In the EC-funded FP7-project ‘Development of Systemic Packages for Deep Energy Renovation of Residential and Tertiary Buildings including Envelope and Systems’ (iNSPiRe; URL: http://www.inspirefp7.eu/) amongst others envelope retrofitting packages have been developed. The goal was to improve the façade of these buildings by providing more accessible and affordable energy saving solutions. Paper | Presentation

Daylight-driven and user-centered lighting and energy management

Integrated Solar Thermal Systems for renovation of external walls
11th Conference on Advanced Building Skins, 10. October 2016, Bern, Switzerland, website: abs.green
October 2016
By: Roberto Garay Martinez, Peru Elguezabal Esnarrizaga, Julen Astudillo Larraz

Abstract - Due to steadily increasing use of technologies for the reduction of the non-renewable energy needs in buildings (...)  deeper architectural integration is needed, also considering on cost and assembly process optimization to ensure wide market adoption. In this context, two main trends appear: Integration and hybridation of solar systems in building envelopes. Integrated solutions are created when modular and dimensionally variable glazed collectors are integrated in curtain wall structures or in external cladding systems. Hybrid solutions such as external thermal insulation systems and sandwich panels are generated where unglazed collectors are integrated as part of renders, claddings, etc. to obtain neutral aesthetical impact. Architectural, constructional and thermal results are discussed, not only based on design assessments, but also on manufacture, assembly and assessment results from experimental data.
 

Integrated Solar Thermal Systems for renovation of external walls

Polymer Collectors with Temperature Control - Potentials for System integration
October 2016 - PDF 2.05MB
By: Alexander Thür, Katarina Maslikova
Publisher: Gleisdorf SOLAR 2016

Within the Austrian research project SolPol-4/5 it is the goal to find solutions for solar thermal systems based on cheap polymer materials but with low temperature limits in order to realize significant cost reduction potentials. Therefore one major point is to keep the temperature of the solar collector (and the complete system) below the material limits which means below 100°C for cheap polymer materials. For this, several possibilities are under investigation in many research projects. One solution is to design the collector in such a way, that the performance does not allow stagnation temperatures above 100°C (temperature limited collector – TLC). Other solutions try to keep the collector performance highest possible during operation and reduce the performance during stagnation by different technical solutions (overheat controlled – OHC) like reduction of absorption characteristic at high temperatures (Föste, 2015), reduction of transmission of the transparent cover or increasing the heat losses by activating cooling processes like internal ventilation of the collector (Harrison, 2004) or using a thermosyphon driven backcooler (Thür, 2014). This simulation study based on different parameter variations estimates how different operating conditions can influence design parameters for a solar domestic hot water system (SDHW) with different collector types. For different possible market conditions, which can potentially be situated world-wide, the goal of these investigations is to find out dependencies of different design parameters depending on specific operating conditions for solar domestic hot water systems (SDHW).

Polymer Collectors with Temperature Control - Potentials for System integration

T50 B.6 Daylighting and electric lighting retrofit solutions - A source book of IEA SHC Task 50
Task 50 Subtask B Report B6
October 2016
By: Martine Knoop, Berat Aktuna, Bruno Bueno, Stanislav Darula, Arnaud Deneyer, Aicha Diakite, Peter Fuhrmann, David Geisler-Moroder, Carolin Hubschneider, Kjeld Johnsen, Andre Kostro, Marta Malikova, Barbara Matusiak, Patrick Prella, Wilfried Pohl, Luo Tao, Eino Tetri
Editor: Martine Knoop
Publisher: Martine Knoop
ISBN: 978-3-7983-2836-5
Energy efficient lighting is said to be one of the most cost-effective approaches to save energy and reduce C02 emissions. In order to stimulate the application of lighting retrofits of good quality, IEA Task 50, Subtask B “Daylighting and Electric Lighting solutions” has looked into the assessment of existing and new technical retrofit solutions in the field of façade and daylighting technology, electric lighting and lighting controls. The document provides information for those involved in the development of retrofit products or involved in the decision making process of a retrofit project, such as buildings owners, authorities, designers and consultants, as well as the lighting and façade industry. This source book addresses both electric lighting solu¬tions and daylighting solutions, and offers a method to compare these retrofit solutions on a common basis, including a wide range of quality criteria of cost-related and lighting quality aspects. Simple retrofits, such as replacing a lamp or adding interior blinds, are widely accepted, often applied because of their low initial costs or short payback periods. The work presented in this report aims at promoting state-of-the-art and new lighting retrofit approaches that might cost more but offer a further reduction of energy consumption while improving lighting quality to a greater extend.
T50 B.6 Daylighting and electric lighting retrofit solutions - A source book of IEA SHC Task 50

IEA SHC Task 49/IV - Deliverable C4 - Best practise series of case study reports from demonstration projects
August 2016 - PDF 1.89MB
By: Bastian Schmitt, Stefan Hess
Throughout the world, many new technologies and projects are currently being undertaken to assist in the reduction of fossil fuel consumption. While the focus has been in the electrical and transport sector, significant progress has been made in the realm of renewable heat and more specifically, solar heat for industrial processes.
IEA SHC Task 49/IV - Deliverable C4 - Best practise series of case study reports from demonstration projects

IEA SHC Task 49/IV - Deliverable A1.3 - Process Heat Collectors - State of the Art and Available Medium Temperature Collectors
May 2016 - PDF 1.39MB
By: Pedro Horta
In the present SHIP applications are suited by well-established technologies covering the range of process temperatures found in different industrial sectors: low (T < 100ºC), medium (100ºC < T < 250ºC) or high temperature (250ºC < T < 400ºC). Considering that solar collectors suiting industrial processes might also suit non-industrial applications (e.g. hot water production on the Residential sector or high pressure steam for power generation purposes) it is important to establish the scope of a Solar Process Heat Collector.
IEA SHC Task 49/IV - Deliverable A1.3 - Process Heat Collectors - State of the Art and Available Medium Temperature Collectors

IEA SHC Task 49/IV - Deliverable B6 - Integrating Solar Heat into Industrial Processes (SHIP)
Booklet on results of Task49/IV Subtask B
May 2016 - PDF 0.86MB
By: Bettina Muster-Slawitsch

When integrating solar heat into industrial or commercial processes, the aim is to identify the most technically and economically suitable integration point and the most suitable integration concept. Due to the complexity of heat supply and distribution in industry, where a large number of processes might require thermal energy, this task is usually not trivial. Within Task 49/IV Subtask B several documents have been developed to assist with the necessary steps when planning the integration of a solar process heat plant.

IEA SHC Task 49/IV - Deliverable B6 - Integrating Solar Heat into Industrial Processes (SHIP)

Promoting Solar Energy While Preserving Urban Context
SHC Solar Update - May 2016
May 2016 - PDF 0.5MB
By: Maria Cristina Munari Probst, Christian Roecker
New energy regulations, together with mandatory solar fractions for electricity and Domestic Hot Water are introducing new materialities and geometries in buildings, resulting in new forms of architectural expression that are slowly modifying our city landscapes. The increased use of active solar collectors in buildings is clearly necessary and welcome, but brings major challenges in already existing environments. The large size of solar systems at the building scale asks for thoughtful planning, as these systems may end up compromising the quality of the building, threatening the identity of entire contexts.
Promoting Solar Energy While Preserving Urban Context

T50 A.1 Global Economic Models
Task 50 Subtask A Report A1
May 2016 - PDF 2.89MB
By: Marc Fontoynont, Jan de Boer, Johan Röklander, Karen Guldhammer, Nanna Sofie Gudmandsen, Yasuko Koga
This reports presents financial data related to lighting installations, before and after retrofit operations. Data are calculated over a large number of years to combine installation costs, maintenance, and energy use. The general principle was to compare the running costs of the “do nothing” approach (keeping the installation as it is and let it die gradually), and the costs associated with a retrofit with highly efficient equipment. For these reasons, long term costs of installation are quite sensitive to the initial cost, and the combined cost of electricity and energy efficiency. Total Cost of Ownership (TCO) of lighting installations has been calculated for various types of buildings: offices, schools, homes and industrial buildings. The data supplied attempt to answer to the following questions: - Which installations are low hanging fruits (with shortest payback time)? - For which type of building are retrofit operation more profitable? - How do various parameters influence the payback time (investment costs, efficacy of luminaires and sources, cost of electricity, etc.)? Then various financial models to initiate successful investments in retrofit operations with generally favourable potentials (like high number of operating hour with good reduction potentials of electric power density) were investigated: - Direct investment by the user only, showing significant benefits after the payback time. - Investment by the user based on loans. This extends payback time, but does not require too high of a financial contribution at the beginning. - Leasing of the entire installation: the building owner does not own the installation. The lighting installation is rented (installation and operation is supplied by a third party). It appears that leasing is nowadays generally the best option is the best way to trigger lighting retrofit to overcome the barriers associated to investment.
T50 A.1 Global Economic Models

T50 A.2 Barriers and Benefits; Building energy regulation and certification
Task 50 Subtask A Report A2
May 2016 - PDF 1.78MB
By: Marc Fontoynont, Jan de Boer, Johan Röklander, Karen Guldhammer, Nanna Sofie Gudmandsen, Yasuko Koga
This report addresses in a first part barriers and benefits in lighting retrofits and in second part building energy regulations and certifications. Barriers and benefits Benefit of lighting retrofits should be addressed in a broad manner: energy saving, increased value (and rental value), improved functionality, human and social benefits. A possible way, which was pursued in this study, was to compare benefits of lighting retrofits with benefits of other types of retrofits or actions (change of furniture, change of floor, etc.). Also various barriers which lead to postponement of lighting retrofits were identified, even when they are needed and cost effective. Building Energy Regulation and Certification Buildings are designed, constructed and operated in the context of standards, regulations or labels (e.g. sustainability labels). For typical and representative approaches on component and system basis critical analysis and comparisons were conducted. With respect to now highly efficient SSL lighting, measures like requesting a minimum luminaire efficiency, taking old installations (luminaires) out of operation and demanding a maximum energy demand on the basis of reference technologies are presented. In addition the sustainability labels LEED, BREEAM and DGNB were compared and recommendations for future developments
T50 A.2 Barriers and Benefits; Building energy regulation and certification

T50 A.3 Proposal of actions concerning the value chain
Task 50 Subtask A Report A3
May 2016 - PDF 0.89MB
By: Marc Fontoynont, Jan de Boer, Johan Röklander, Karen Guldhammer, Nanna Sofie Gudmandsen, Yasuko Koga
In this activity, possible actions which could be taken to stimulate the development of lighting retrofit campaigns were identifies, based on the figures from report A.1 “Global economic models” and A.2 “Barriers and Benefits; Building energy regulation and certification”. It was looked into how lighting retrofit benefits are assessed by stakeholders (manufacturers, installers, building managers, etc.). Key strategic actions, or key strategic data to deliver to each stakeholder to possibly trigger a decision concerning lighting retrofit were investigated. The objectives are to identify possible lack of awareness and know-how in the value chain, and to identify strategic information to deliver to stakeholders. Globally, the actions concern accelerating retrofits before the end of existing life of lighting installations: this means that benefits justify an anticipated (before end of gear lifetime) investment.
T50 A.3 Proposal of actions concerning the value chain

T50 C.1 Lighting retrofit in current practice - Evaluation of an international survey
Task 50 Subtask C Report C1
May 2016 - PDF 1.48MB
By: Jérôme Kaempf, Bernard Paule Additional: Magali Bodart, Bruno Bueno, Stanislav Darula, Arnaud Deneyer, David Geisler-Moroder, Niko Gentile, Anna Hoier, Kjeld Johnsen, Yasuko Koga, Cláudia Naves David Amorim, Eino Tetri
Surveys and socio-professional studies carried out at national and international levels \contribute to a better understanding of the lighting retrofit process. Within the framework of the International Energy Agency Task 50 - Advanced lighting solutions for retrofitting buildings- and its subtask C1 focusing on the analysis of workflows and needs, an online survey on lighting retrofit was initiated in December 2013. After 9 months, more than 1000 answers were collected. The survey provides clear insights about the workflow of building professionals and leads to a better understanding of their needs in terms of computer method and tools. One of the main outcomes of the survey is that retrofittig strategies used in practice essentially focus on electric lighting actions such as of luminaires replacement and the use of controls. Generally, daylighting strategies are not rated as the highest priority. The results also indicate that practitioners mainly rely on their own experience and rarely involve external consultants in the lighting retrofit process. Furthermore, the survey results suggest that practitioners are interested in user-friendly tools allowing quick evaluations of their project, with a good compromise between cost and accuracy, and producing reports that can be directly presented to their client. The survey also emphasized that the main barriers in using simulation tools are essentially their complexity and the amount of time it takes to perform a study. Practitioners are keen to use tools at preliminary design stage and would like to be able to estimate the cost and other key figures (energy consumption and lighting levels). The paper concludes with recommendations for the building software developers to address the needs of practitioners in a more suitable way.
T50 C.1 Lighting retrofit in current practice - Evaluation of an international survey

T50 C.2 Methods and tools for lighting retrofits - State of the art review
Task 50 Subtask C Report C2
May 2016 - PDF 17.93MB
By: Jérôme Kaempf, Bernard Paule Additional: Chantal Basurto, Magali Bodart, Jan de Boer, Bruno Bueno, Marie-Claude Dubois, David Geisler-Moroder, Marina Fusco, Markus Hegi, Michael Jorgensen, Nicolas Roy, Jan Wienold
This document proposes a state-of-the art review of the existing method and tools available on the market for practitioners. As starting point, the most used software were taken from the survey realised within C1, and those were categorised in four categories: 1) Facility management tools (global diagnostic tool including economic aspects) 2) Computer-assisted architectural drawing / Computer-aided design tools 3) Visualization tools 4) Simulation tools The third category regarding the visualisation tools contains a warning for the practitioners, as they are not providing tangible results in terms of physical numbers. In total 20 software were described, and their main features compared in a table for a quick reference. Furthermore, the simulation tools were assessed using a case-study of a school refurbishment. Equivalent information given to practitioners was used to define the properties of the room (2D plans and photometric properties). Simulation experts were asked to simulate for daylight the daylight factor and for electric lighting the work plane illuminance. Results indicate a rather large dispersion for daylighting results between the different tools, even though the case-study was described with great care. However, on electric lighting the results remain within 10-15% range from the median value. The obtained results indicate that practitioners can rely on electric consumption computed by the tools during night time, but that the combination of daylight and electric light remains a challenge for simulation tools.
T50 C.2 Methods and tools for lighting retrofits - State of the art review

T50 C.4 Energy audit and inspection procedures
Task 50 Subtask C Report C4
May 2016 - PDF 9.17MB
By: Jérôme Kaempf, Bernard Paule Additional: Chantal Basurto, Magali Bodart, Jan de Boer, Marie-Claude Dubois, David Geisler-Moroder, Kjeld Johnsen, Michael Jorgensen, Jan Wienold
This document consists of three parts dealing with energy audit and inspection procedures The first section (2.1: Daylight performance assessment methods), deals with the description of the different metrics available to evaluate the daylight contribution. These metrics are distinguished in two categories: Daylight availability metrics and daylight glare metrics. For each of them, a short description is given, followed by an example. Then comes a paragraph describing the boundaries of the metric and some references. The topic of the second section (2.2 Investigation of energy monitoring procedures for electric lighting systems) is addressed in detail within the framework of subtask D (Casestudies). This chapter does not intend to report on this work, but simply focuses on the presentation of a “flash” analysis method used in Switzerland to assess the lighting status of existing buildings. This simple method, based on a quick tour of the building, is used as a kind of checklist. Insofar as it does not include detailed monitoring (only a few punctual illuminance measurements) it does not intend to draw a detailed view of the situation but aims to identify the potential actions for lighting refurbishment. In the third section (2.3 Benchmark on case-study) we show, for the different metrics, the results obtained by the simulation tools described in C-2 document. The case study corresponds to the “After Refurbishment” situation described in C2 document (cf. C2.6.1 Description of the case study for lighting simulations).
T50 C.4 Energy audit and inspection procedures

T50 C.5 Advanced and future simulation tools
Task 50 Subtask C Report C5
May 2016 - PDF 8.04MB
By: Jérôme Kaempf, Bernard Paule Additional: Jan de Boer, Eike Budde, Bruno Bueno, David Geisler-Moroder
The document reflects a study about the so called “advanced and future simulation tools”. The denominated software is able to simulate Complex Fenestration Systems (CFS) which are composed of solar shading and daylight redirection systems. Those systems might have complex light transmission properties named Bidirectional Transmission Distribution Functions (BTDF) that can be monitored using gonio-photometers or simulated using raytracing tools. Five tools able to simulate CFS were examined in a variant of the refurbished case study of C2. Four kinds of CFS were considered, ranging from clear glass to lasercut panel, and were benchmarked with daylight factor values on the work plane and renderings in sunny conditions. The results showed a large discrepancy in the results for the daylight factor values, indicating the difficulty to simulate daylight likewise in the document C2. The renderings with sunny conditions let the user of the tools appreciate the deviation effect of the lasercut panel for instance, but the obtained images are bound to the intrinsic resolution of the monitored BTDF which may be coarse depending on the source of data. The advanced and future simulation tools can give an interesting indication of the light distribution through CFS, but practitioners should remain aware of the limits of the method using monitored data bound to a defined resolution. The results are satisfactory enough to get an idea of illuminance profiles or even heat transmission, but not for tasks that require a precise luminance distribution such as glare index calculation.
T50 C.5 Advanced and future simulation tools

T50 D.1 Building Stock Distribution and Electricity Use for Lighting
Task 50 Subtask D Report D1
May 2016 - PDF 3.21MB
By: Marie-Claude Dubois Additional: Jan de Boer, Arnaud Deneyer , Peter Fuhrmann, David Geisler-Moroder, Anna Hoier, Roman Jakobiak, Martine Knoop, Yasuko Koga, Werner Osterhaus, Bernard Paule, Peter Pertola, Sophie Stoffer, Eino Tetri
This report presents an analysis of the current distribution of the building stock in the nonresidential sector, which allows identifying the most important building types. The report also presents the current average energy intensity for electric lighting for each building type as well as characteristics of existing lighting installations in these buildings. The analysis concludes that five building types cover the largest floor space area: 1. Offices, 2. Educational buildings, 3. Wholesale and retail trade, 4. Industrial buildings, 5. Agriculture buildings. Three other non-residential building types should be given a second priority: 1. Hotels and restaurants, 2. Hospitals and healthcare, 3. Sports buildings. Data from Sweden, the Netherlands and the United States indicate that fluorescent lighting is clearly the dominant light source in non-residential premises, that LED lighting is still very scarce and that there are still many incandescent light sources installed in non-residential buildings.
T50 D.1 Building Stock Distribution and Electricity Use for Lighting

T50 D.2 Daylighting and lighting retrofit to reduce energy use in non-residential buildings: A literature review
Task 50 Subtask D Report D2
May 2016 - PDF 0.86MB
By: Primary: Marie-Claude Dubois, Niko Gentile Additional: Fabio Bisegna, Martine Knoop, Barbara Matusiak, Werner Osterhaus, Sophie Stoffer, Eino Tetri
This report presents a literature review about energy-efficient retrofit of electric lighting and daylighting systems in buildings. The review, which covers around 160 research articles, discusses the following energy retrofit strategies: replacement of lamp, ballast or luminaire; use of task-ambient lighting design; improvement in maintenance; reduction of maintained illuminance levels; improvement in spectral quality of light sources; improvement in occupant behavior; use of control systems; and use of daylighting systems. The review indicates that existing general knowledge about lighting retrofit is currently very limited and that there is a significant lack of information concerning the actual energy performance of lighting systems installed in the existing building stock. The resulting key directions for future research highlights issues for which a better understanding is required for the spread and development of lighting retrofit.
T50 D.2 Daylighting and lighting retrofit to reduce energy use in non-residential buildings: A literature review

T50 D.3 Monitoring protocol for lighting and daylighting retrofits
Task 50 Subtask D Report D3
May 2016 - PDF 1.74MB
By: Marie-Claude Dubois, Niko Gentile, Cláudia Naves David Amorim Additional (in alphabetical order): David Geisler-Moroder, Roman Jakobiak, Barbara Matusiak, Werner Osterhaus, Sophie Stoffer
This document presents a monitoring protocol to assess the overall performance of a lighting and/or daylighting retrofit of a building. This protocol covers four key aspects: 1. Energy use; 2. Retrofit costs; 3. Photometric assessment; 4. User assessment. This document develops each aspect in detail, presenting the required measurements and necessary equipment as well as providing guidelines for data analysis. The protocol is written as a general guideline document which could be used by non-expert assessors. A step-by-step general procedure is described, including five main phases, where each phase is described in detail, including the required documentation for two distinct monitoring levels: a ‘basic’ and a ‘comprehensive’ monitoring level.
T50 D.3 Monitoring protocol for lighting and daylighting retrofits

T50 D.5 Lessons learned from monitoring lighting and daylighting in retrofit projects
Task 50 Subtask D Report D5
May 2016 - PDF 1.12MB
By: Cláudia Naves David Amorim, Marie-Claude Dubois, Niko Gentile, Werner Osterhaus, Sophie Stoffer Additional: David Geisler-Moroder, Roman Jakobiak, Barbara Matusiak
This report presents the general lessons learned from the investigated 24 case studies from 10 countries.
T50 D.5 Lessons learned from monitoring lighting and daylighting in retrofit projects

IEA SHC Task 49/IV - Deliverable A2.1 - Comparison of process heat collectors with respect to technical and economic conditions
April 2016 - PDF 1.48MB
By: Federico Giovannetti, Pedro Horta
In the present SHIP applications are suited by well-established technologies covering the range of process temperatures found in different industrial sectors: low (T < 100ºC), medium (100ºC < T < 250ºC) or high temperature (250ºC < T < 400ºC). Considering that solar collectors suiting industrial processes might also suit non-industrial applications (e.g. hot water production on the Residential sector or high pressure steam for power generation purposes) it is important to establish the scope of a Solar Process Heat Collector in various terms.
IEA SHC Task 49/IV - Deliverable A2.1 - Comparison of process heat collectors with respect to technical and economic conditions

IEA SHC Task 49/IV - Deliverable B5 - Potential Enhancement of Solar Process Heat by Emerging Technologies
March 2016 - PDF 0.89MB
By: Bettina Muster-Slawitsch, Tobias Prosinecki, Qasid Ahmad, Christian Sattler, Judith Buchmaier, Susanne Lux, Wim van Helden, Anh Phan, Christoph Brunner
Within IEA Task 49, Subtask B is focusing on the integration possibilities of solar heat in industrial processes. In this context, also the questions are tackled: - Which new technologies can stimulate the use of renewable (solar) heat? - Which technologies must be developed for reacting best on the hybrid energy supply in future?
IEA SHC Task 49/IV - Deliverable B5 - Potential Enhancement of Solar Process Heat by Emerging Technologies

IEA SHC Task 49/IV - Deliverable C3 - Performance assessment methodology and simulation case studies
March 2016 - PDF 0.65MB
By: Werner Platzer
Performance of a solar system or any other energy conversion system in general is often being considered in a too simplified way. Simple performance indicators or metrics like efficiency are often taken without any description of the operating and application conditions, of the system boundaries considered for its calculation. The performance of a system however can be described in a broader sense as a concept including energetical, economical and environmental aspects of a system operation for a defined time period. The system boundaries considered should be clearly defined, and the operating conditions according to the application should be specified.
IEA SHC Task 49/IV - Deliverable C3 - Performance assessment methodology and simulation case studies

Task 42 Annex 29 Position Paper and All Final Deliverable Papers
March 2016 - PDF 4.76MB
By: Matthias Rommel, Andreas Hauer, Wim Van Helden
Collection of the Position Paper and all final deliverable papers of the joint task IEA SHC Task 42 and IEA ECES Annex 29. The papers were presented at the SHC Conference 2015, December 2-4 Istanbul, Turkey. They will be published in the proceedings of this conference in due time.
Task 42 Annex 29 Position Paper and All Final Deliverable Papers

IEA SHC Task 49/IV - Deliverable B4 - Catalogue of recommended components for advanced integration
February 2016 - PDF 0.22MB
By: Bettina Muster, Bastian Schmitt, Ilyes Ben Hassine
In this catalogue, software and hardware components are described that can help realising the integration of solar process heat in an advanced way.
IEA SHC Task 49/IV - Deliverable B4 - Catalogue of recommended components for advanced integration

Replacing traditional materials with polymeric materials in solar thermosiphon systems - Case study on pros and cons based on a total cost accounting approach
February 2016 - PDF 1.52MB
By: Bo Carlsson, Michaela Meir, John Rekstad, Dieter Preiss, Thomas Ramschak
Publisher: Solar Energy, Elsevier

The pros and cons of replacing traditional materials with polymeric materials in solar thermosiphon systems were analysed by adopting a total cost accounting approach. In terms of climatic and environmental performance, polymeric materials reveal better key figures than traditional ones like metals. In terms of present value total cost of energy, taking into account functional capability, end user investment cost, O&M cost, reliability and climatic cost, the results suggest that this may also be true when comparing a polymeric based thermosiphon system with a high efficient thermosiphon system of conventional materials for DHW production in the southern Europe regions. When present values for total energy cost are assessed for the total DHW systems including both the solar heating system and the auxiliary electric heating system, the difference in energy cost between the polymeric and the traditional systems is markedly reduced. The main reason for the difference in results can be related to the difference in thermal performance between the two systems. It can be concluded that the choice of auxiliary heating source is of utmost importance for the economical competiveness of systems and that electric heating may not be the best choice.

Replacing traditional materials with polymeric materials in solar thermosiphon systems - Case study on pros and cons based on a total cost accounting approach

Classification and Benchmarking of Solar Thermal Systems in Urban Environments
Technical Report Subtask C – Part C1
January 2016 - PDF 3.8MB
By: Franz Mauthner, Sebastian Herkel

In the present report [Deliverable C1: Classification and benchmarking of solar thermal systems in urban environments], solar thermal system configurations suitable for applications in urban environments are identified first (chapter 4) and characterized by representative techno-economic benchmark figures from a set of best practice examples (chapter 5). Objective of this report is to provide a comprehensive data base for techno-economic (pre-) evaluations regarding the role of solar thermal in urban energy systems, especially applicable for urban planners / energy system planners without deeper theoretical solar thermal expertise.

Classification and Benchmarking of Solar Thermal Systems in Urban Environments

Expérimentation et modélisation d’un capteur solaire opaque pour préchauffage de l’eau
Congrès annuel de la Société Française de Thermique, Toulouse, France, 21.05.-03.06.2016
January 2016
By: Paul BONNAMY, Saed RAJI, Jérôme LOPEZ, Roberto GARAY

Abstract - Cette étude porte sur la modélisation et l’étude expérimentale de capteurs solaires développés et fabriqués par INEF4 dans le cadre du projet BATISOL. Ces capteurs sont modulaires, opaques, basse température, Low-Cost, et totalement intégrés en façade derrière une solution de bardage métallique. Dans une première partie est présenté le modèle de simulation thermique du capteur. Il s’agit d’un modèle pseudo 3D par éléments finis développé sous COMSOL. Un calcul sur une coupe 2D du capteur est répété n fois selon la direction du fluide afin de déterminer les variables d’état tout au long du capteur. Dans une deuxième partie est présenté le dispositif expérimental, les prototypes réalisés ainsi que les résultats des tests expérimentaux. La comparaison entre ces deux approches permet de valider l’utilisation d’un modèle pseudo 3D pour la simulation thermique des capteurs BATISOL.

Expérimentation et modélisation d’un capteur solaire opaque pour préchauffage de l’eau

Final Report on Pumps Efficiency and Adaptability
Task 48 - A4 activity final report
December 2015 - PDF 4.03MB
By: Anita Preisler, Daniel Neyer and Alexander Thuer, Romain Siré, Mathias Safarik, Moritz Schubert, Bettina Nocke, Hilbert Focke, Khalid Nagidi, Dirk Petruschka
Editor: Martin Helm, ZAE Bayern
Publisher: Daniel Mugnier
Subtask A concentrates on developing tools and deliverables permitting to show the level of quality of the most critical components of the solar cooling and heating system. These components are mainly the chiller, the heat rejection device, the pumps and the solar collectors. This technical report focuses on pump efficiency and adaptability to part load conditions in order to minimize the electricity consumption in the hydraulic circuits to obtain a high seasonal energy efficiency ratio in solar cooling systems. In a first step a selection of market available chillers is evaluated by manufacturer design data concerning temperature differences, flow rates and pressure drops of the external hydraulic circuits and the resulting auxiliary energy electricity consumption to overcome the friction losses in the heat exchangers. While the EER for the chiller solely varies between 11.9 and 77.6 some market available chillers inherently impede good seasonal performance of the overall SHC-System. Subsequently the different hydraulic circuits of several measured solar cooling systems are analyzed concerning their portion on the overall seasonal electricity consumption. Typically more than 50 % of the auxiliaries are caused by the heat rejection system including cooling water pumps and fan. A short observation of the portion of pump costs in SHC-Systems confirms the almost negligible impact on overall investment costs and absence of meaningful cost-saving opportunities. Furthermore due to substantially reduced operation costs high-efficiency pumps help to reduce operational costs. But the deployment of high-efficiency pumps in solar cooling installations does not implicate an efficient pumping automatically. The strong relationship between pump and plant curve demands a proper system design and pump selection. The way things are an overall SEER of 20 for well-designed small scale solar cooling systems and more seems to be feasible. Specific Objectives A state of the art analysis will be conducted on this component in close cooperation with ongoing IEA-SHC Tasks 44 and 45, where these issues are tackled as well. Furthermore the design criterions of market available chillers concerning temperature levels and pressure drop in the heat exchangers are assessed. In addition to that a performance coefficient called Auxiliary Energy Consumption Ratio (AECR) for the overall hydraulic efficiency is introduced in order to compare the design of various hydraulic circuits of SHC-systems in different capacity classes. A short theoretical introduction into the rotodynamic pump design helps to avoid planning errors, adverse duty points and simplifies a correct pump selection. A particular focus will be addressed to the adaptability of the technology to part load production conditions. Finally an investigation will be done on the best practices for electric consumption reduction for pumping in the different hydraulic loops of a solar cooling system. Best practice will be valorized always including the compromise between efficiency and simplicity
Final Report on Pumps Efficiency and Adaptability

Final report on State of the art on new collectors & characterization for solar cooling
Task48 - Activity A6 Final Report
December 2015 - PDF 0.42MB
By: Marco Calderoni, Jochen Doel,l Korbinian Kramer, Stephen White, Daniel Mugnier, Uli Jakob, Christian Zahler
Editor: Marco Calderoni
Publisher: Daniel Mugnier
An extensive market overview of existing concentrating collectors has been conducted so as to create easy to consult database (like the existing Solar Key mark one for certified collectors). This database has been periodically updated during IEA Task 48 work and extended with information relating the certification process of such collectors. Concentrating collectors can nowadays be tested according to several standards (see also Kramer, Mehnert et al. 2011), the most important and enhanced one (also basis for certification according Keymark, SRCC, and others) is (Norm ISO 9806:2013[E]). New components and approaches, currently under development, have been included into the survey and their use in existing solar cooling plants has been investigated
Final report on State of the art on new collectors & characterization for solar cooling

IEA SHC Task 49/IV - Deliverable B3 - Updated Efficiency Finder
December 2015 - PDF 1.24MB
By: Bastian Schmitt, Bettina Muster
The Efficiency Finder, also known as Zero Emission WikiWeb or Matrix of Indicators is a reference book that contains important information on unit operations, energy supply technologies, process technologies, best practice examples, and guidelines for implementation of efficiency measures and renewable energy technologies. The website (http://wiki.zero-emissions.at/) can be used as an inter-active compendium by process engineers, energy managers, RES experts, etc. to support their work e.g. by providing measures for energy efficiency and finding suitable solar applications in production processes.
IEA SHC Task 49/IV - Deliverable B3 - Updated Efficiency Finder

Best practice brochure on solar cooling
Activity D2 - delivery report
November 2015 - PDF 2.68MB
By: Uli Jakob (Green Chiller Association)
Editor: Uli Jakob (Green Chiller Association)
Publisher: Daniel Mugnier (TECSOL)
This Subtask D2 activity was aimed to produce a high quality brochure presenting selected reduced number of Best practice examples. Therefore, input from other activities like C3 and the Task 48 participants have been explored to use it for this activity. In activity C3 first draft of “IEA Quality Engineered Solar Air-conditioning Design Examples: A companion to the IEA Solar Cooling Handbook” has been prepared including three solar cooling technologies: a small-scale single-effect absorption chiller system in Austria, a medium-size single-effect absorption chiller system including DHW production in France and a large-scale double-effect absorption chiller system in Australia. Additional 9 further best practice examples were collected from the Task 48 participants, thus a total of 12 projects are summarized in the best practice brochure. The selected solar cooling projects presented in the brochure represent different applications like office buildings (6), school/institute buildings (4), commercial buildings (1) and residential buildings (1). The projects are located in North America (1), Europe (4) and mostly in South-East Asia (7). The cooled floor spaces of these buildings range between 240 m² up to 11,000 m². The best annual electrical COPel are between 6 and 25, which is an average value of about 12.9. The specific installed system costs are 7,300 EUR/kW for small-scale systems and in average 1,900 EUR/kW for large-scale systems.
Best practice brochure on solar cooling

Collection of Good Practices for DEC design and installation
Task 48 - Activity B2 final report
November 2015 - PDF 12.06MB
By: Tim Selke (AIT), Antoine Frein (POLIMI), Alexander Morgenstern (FhG ISE), Subbu Sethuvenkatraman (CSIRO), Khalid Nagidi (EMCG), Steven Harrison (Queen's Uni), Pietro Finocchiaro (UNIPA), Yanjun Dai (SJTU)
Editor: Tim Selke
Publisher: Daniel Mugnier
The work plan of IEA SHC Task48 addresses quality assurance and support measures for ‘Solar Cooling Technology’ with a strong focus on solar heat driven chillers like ab- and adsorption cooling machines. Nevertheless, activity B2 of SHC Task 48 lead by Austrian partners is dedicated to keep an eye on the open cycle principle with respect to new technical research and developments and as well to produce an extensive report on Good Practice examples of existing solar heat driven desiccant evaporative cooling (SDEC) systems. A desiccant evaporative cooling (DEC) system fulfils all tasks of an air-conditioning system: a) temperature and humidity control and b) control of hygienic air quality by supplying fresh air. Generally speaking the DEC technique applies three thermodynamic principles to treat air without using conventional compression chiller technology: a) dehumidification of supply air with the help of sorption material, b) efficient sensible heat recovery and c) cooling of supply and return air by using evaporative cooling effect. The solar heat is introduced in order to discharge the sorption material loaded by water vapor of ambient air. A profound DEC technology introduction is written in the 3rd edition of the ‘Solar Cooling Handbook’ . General targets of the B2 activity are: • To support quality assurance and support measures for SDEC technology • To give an overview about worldwide installed SDEC systems • To express newest R&D activities • To highlight on existing quality labels of SDEC subsystems • To produce helpful guidance in order to stimulate stakeholder to realize SDEC This activity aims at producing a comprehensive report on quality assurance and support measures for ‘Solar heat driven desiccant evaporative cooling systems’. This SDEC technology is not the major focus in the SHC Task 48, but a limited number of activities contributors tried to observe and highlight on one hand new R&D results and on the other hand to document on GOOD PRACTICE CASES of already operated and monitored SDEC systems in three different climatic regions. Finally this cooperation in the framework of the International Energy Agency generated a report with the following chapters: CHAPTER 2 - WORLDWIDE INSTALLED SDEC SYSTEMS, This chapter document on the latest updated worldwide survey on existing solar air-conditioning DEC systems. According to the market survey conducted already in the previous SHC Task 38 , solar heat driven DEC systems have a low market share with regard to the other closed cycle systems (absorption and adsorption chillers) driven by solar heat. The survey identified 30 different SDEC systems, where a different concepts and technologies are applied. This chapter allows getting an overview into the variety of worldwide operated SDEC systems. CHAPTER 3 - NEW TECHNICAL DEVELOPMENTS Chapter 4 provides documentation on some R&D activities on four solar heat driven air-conditioning concepts and systems. The technical scope of this data collection is not limited to any specific sorption technology, but there is a dominance of open cycle application. There was not a fix structure given thus the authors decided what and how to present their R&D work. CHAPTER 4 - EXISTING QUALITY LABELS OF DIFFERENT SUBSYSTEMS OF SDEC SYSTEMS The purpose of this chapter is to describe the existing quality labels, standards and certifications to define the performance specifications of desiccant wheel and DEC system. This chapter is divided in 4 parts: a) Existing certification for regenerative heat ex-changers; b) Standards for active dehumidification wheels; c) Manufacturers’ technical data for desiccant wheel and d) Desiccant-based dehumidi¬¬fication equipment; CHAPTER 5 – GOOD PRACTICE With this chapter three selected ‘Good Practice SDEC systems’ from Austria, Australia and Italy are presented along the entire project phase, i.e. design and operational phase. The SDEC projects were scientifically accompanied by SHC Task48 participants, therefore first analysis of simulation results of the SDEC technology are documented. The SDEC systems are equipped with measurement devices which fulfil the requirements of the 3rd level evaluation according to the IEA SHC Task 38 monitoring procedure . The energy performance of the SDEC systems operation is displayed by monthly values of both energy fluxes and key performance indicators. The ‘Good Practice SDEC system’ report on each system closes with findings and lessons learned in order to guide next projects; What quality and support measures lead to a successful SDEC system implementation with high energy performance, high quality of indoor comfort and high user friendliness for facility manager ?
Collection of Good Practices for DEC design and installation

Guidelines for Roadmaps on Solar Cooling
Final D4 Deliverable Report
November 2015 - PDF 2.63MB
By: Anita Preisler (AIT), Tim Selke (AIT), Uli Jakob (Green Chiller Association for Sorption Cooling e.V), Daniel Mugnier (TECSOL)
Editor: Tim Selke (AIT Austrian Institute of Technology GmbH)
Publisher: Daniel Mugnier (TECSOL)
The Task 48 D4 activity focuses on roadmapping process and benefits strongly from the published ‘Energy Technology Roadmaps a guide to development and implementation’ of International Energy Agency in 2014. Giving advice for developing roadmap focussing only on solar thermal cooling technology would not lead to the entire picture while the most roadmaps identified address all other promising application of solar heat. The authors of D4 report structured the document as follows. CHAPTER 2 – Review process This chapter is a result of the screening process of existing roadmaps for solar heat technologies. Seven roadmaps from different countries have be identified and taken for analysis with respect to the applied methodology and topics. Furthermore there is information about renewable energy and other policy incentive schemes. A study from United Nations Environment Programme (UNEP) defines five categories and the 20 policy instruments and assess qualitative their relative technical and cost effectiveness and comments on limitations, strengths and special cases. CHAPTER 3 – Guideline for Roadmapping The guideline of roadmapping is strongly based on the published a new edition on ‘Energy Technology Roadmaps a guide to development and implementation [IEA Guide]. This guide is taken as a useful source to elaborate a guide for SHC Technology roadmaps in the framework of SHC Task48. This guideline addresses four different phases for developing a roadmap; i.e. a) Planning and preparation, b) Visioning and target definition phase, c) Roadmap development and d) Roadmap implementation and adjustment. All four phase are briefly described and additionally selected examples from three different existing roadmaps are presented.
Guidelines for Roadmaps on Solar Cooling

IEA SHC Task 49/IV - Deliverable A3.1 - Guideline on testing procedures for collectors used in solar process heat
November 2015 - PDF 1.52MB
By: Sven Fahr, Dr. Korbinian Kramer
Publisher: IEA SHC Task 49
To enable solar thermal technologies to successfully enter the important market of process heat applications, it is crucial for the manufacturers to be able to provide reliable figures to succeed in tenders, to be able to predict energy yields with sufficient accuracy and to be able to prove liability in operation. All of this requires commonly agreed key figures and testing procedures to provide these.
IEA SHC Task 49/IV - Deliverable A3.1 - Guideline on testing procedures for collectors used in solar process heat

Report on system characterization in the laboratory
Final B1/C7 delivery report
November 2015 - PDF 2.89MB
By: Diego Menegon & Roberto Fedrizzi (EURAC)
Editor: Roberto Fedrizzi (EURAC)
Publisher: Daniel Mugnier (TECSOL)
The performance of a heating and cooling system is strongly affected by the way the single components are integrated together and by the boundary conditions, which the system is subject to. This is mostly true for systems driven by a number of different energy sources and setup with a complex control strategy. In these cases, the dynamics of the system have to be taken into account, in order to perform a reliable system characterization. The implementation of a dynamic laboratory tests procedure allows to evaluate the performance considering those aspects. Different procedures are currently under development by different research institutes but their implementation is still debatable. The aim of a dynamic test procedure is to assess the system performance when operating under real-like boundary conditions. To develop a suitable procedure, some requirements are defined in order to reliably evaluation the system performance: • The test should represent the behaviour of the system in a real installation. • The result should represent the seasonal performance. • The result must be accurate and reliable. • The test must be easy to perform and cost effective to be attractive for industry. • The procedure should be reproducible for different systems, climates and loads. In this document, different dynamic test approaches are reviewed versus standardised stationary test methods. In addition, a test procedure newly developed at EURAC is presented and compared to the other. The latter results are reported with respect to a solar assisted heat pump system, while to-date the test has not been proved on a solar cooling system. Nonetheless, the degree of complication of the heating and cooling system presented here is comparable with a solar cooling one. Moreover the test procedure has been assessed on a single adsorption chiller operating in a real solar cooling plant, showing positive results system. This suggests that the procedure could be wholly extended to solar heating and cooling systems
Report on system characterization in the laboratory

State-of-the-Art: Solar Energy in Urban Planning Education
SHC Solar Update - November 2015
November 2015 - PDF 0.18MB
By: Tanja Siems, Katharina Simon, Karsten Voss
Publisher: IEA SHC
Education and dissemination are important issues for SHC Task 51 on Solar Energy in Urban Planning. As part of this work, Subtask D experts are focusing on educational issues to strengthen the knowledge and competence in solar energy and urban planning of relevant stakeholders, including university students, planners and other professionals. The creation of a substantial link between research and education as well as between research and practice is the core of Subtask D. This subtask is working to determine where deficits currently exist and then will evaluate the reasons for these deficits and propose solutions and strategies to overcome these shortcomings.
State-of-the-Art: Solar Energy in Urban Planning Education

Technology and quality assurance for solar thermal cooling systems
Task 48 Simplified short brochure
November 2015 - PDF 0.99MB
By: Moritz Schubert (SOLID) Dr. Uli Jakob, (Green Chiller – Association for Sorption Cooling e.V.)
Editor: Dr. Uli Jakob, (Green Chiller)
Publisher: Daniel Mugnier (TECSOL)
This synthetic brochure is intended to present the main results of the Task. This brochure underlines what was the methodology used to progress on the development of quality procedures for solar cooling and what are the results on creation of tools for policy support.
Technology and quality assurance for solar thermal cooling systems

IEA SHC Task 49/IV - Deliverable C5 - Potential studies on solar process heat worldwide
October 2015 - PDF 0.61MB
By: Werner Platzer, Bastian Schmitt, Christoph Lauterbach, Stefan Hess, Pierre Delmas
Potential studies for the use of solar heat for industrial processes (SHIP) were carried out in the past for different countries or regions.
IEA SHC Task 49/IV - Deliverable C5 - Potential studies on solar process heat worldwide

Integration of ground measurements with model-derived data
October 2015 - PDF 4.4MB
By: J. Polo, S. Wilbert, J.A.Ruiz-Arias, R. Meyer, C. Gueymard, M. Šúri, L. Martín, T. Mieslinger, P. Blanc, I. Grant, J. Boland, P. Ineichen, J. Remund, R. Escobar, A. Troccoli, M. Sengupta, K. P. Nielsen, D. Renne, N. Geuder
Bankable data for solar energy projects needs to ensure as much as possible the accuracy and general quality of solar radiation data to be used in the solar resource assessment studies for any site of interest in a project development. The term “site adaptation” is being used in the framework of solar energy projects to refer to the improvement that can be achieved in satellite-derived (or more generally model-derived) solar irradiance when short-term local ground measurements are used to correct systematic errors and bias of the original dataset. This document presents a review of different techniques for correcting long-term satellite-derived solar radiation data by using short-term ground measurements. The collaborative work has been done within the framework of Task 46 “Solar Resource Assessment and Forecasting” of the International Energy Agency’s Solar Heating and Cooling Programme. Different approaches whose use depends on the origin and characteristics of the uncertainties of the modelled data are presented. Recommendations to the use of ground measurements and the results of several approaches to improve satellite-derived data are shown through this report highlighting the importance of using site adaptation and the different degree of improvement that can be achieved depending on the climatological characteristics of the site.
Integration of ground measurements with model-derived data

Report on Labelling possibilities investigation
Final C5 deliverable report
October 2015 - PDF 1.11MB
By: Uli Jakob (Green Chiller Association for Sorption Cooling e.V)
Editor: Stephen D. White (CSIRO)
Publisher: Daniel Mugnier (TECSOL SA)
The work within the subtask C “Market support measures” is related to create a panel of measures to support the solar cooling market. These measures will use the results of Subtasks A “Quality procedure on component level” and B “Quality procedure on system level” and will above all explore the possibilities to identify, rate and verify the quality and performance of solar cooling solutions. The resulting tools are intended to provide a framework that will enable policy makers to craft suitable interventions (e.g. certificates, label and contracting etc.) that will support solar cooling on a level playing field with other renewable energy technologies. Even if the completion of these tools will not be achieved rapidly, the subtask should permit to initiate all and maybe conclude some of them. From the past and present experience with labelling of solar systems (e.g. Solar Keymark, Blauer Engel, etc.) or “Green quality” labels such as LEED or Green Building Council tools, within the framework of Activity C5 “Labelling possibilities investigation”, existing labels as well as different standards for solar cooling and sorption heat pumps were investigated to create a Solar cooling label itself or (more probable) a specific Solar cooling extension(s) to the existing labels. This activity has mainly exploratory and firstly make a full state of the art of the labelling process, which could welcome the solar cooling technology on their scope. From these information’s, investigations on how to integrate them or even how to create an independent Solar Cooling Label were investigated and theorized if accurate.
Report on Labelling possibilities investigation

Chiller Characterization
Final A1 Deliverable Report
September 2015 - PDF 1.36MB
By: Patrizia Norina Melograno, Polytechnic of Milan –Energy Department
Editor: Salvatore Vasta (CNR), Francois Boudehenn (CEA), Roberto Fedrizzi (EURAC), Jochen Doell (FhG ISE)
Publisher: Daniel Mugnier (TECSOL)
The objective of Subtask A1 is to supply the tools necessary for assessing the quality level of the sorption chillers installed in solar cooling plants. Particular attention has been given therefore to all those methods able to characterize the chillers at off-design conditions and during the transitory phases typical for these kind of applications. With this regard, two test procedures aimed at the “mapping” of the chillers at full load and at partial load and able to provide specific provisions on the basis of their operation (i.e. continuous and discontinuous) have been developed. The expected result is to achieve reliable data, coming from laboratory tests, that can be used as input for calculation methods for the seasonal performance evaluation of the chillers, like the BIN METHOD, or as input for the development of numerical models able to simulate their behavior on annual basis within specific boundaries. For their drafting, the testing protocols available on the dedicated normative scenario and according to the current criteria of the Eco-design and the Eco-labeling directives have been used as reference. The present final report deals with these two test procedures and includes the approach used for their drafting, the description of the test protocols in terms of rating conditions, testing methodology and the testing apparatus, and the results obtained from the first attempt of validation of the developed test procedures.
Chiller Characterization

T50 B.1 Catalogue of Criteria
Task 50 Subtask B Report B1
September 2015 - PDF 1.51MB
By: Martine Knoop, Patrick Prella, Wilfried Pohl, Arnaud Deneyer Additional: Berat Aktuna, Stanislav Darula, David Geisler-Moroder, Kjeld Johnsen, Marta Malikova, Luo Tao, Eino Tetri
Using 30 quality measures, the Catalogue of Criteria can describe the performance of highly differentiated lighting retrofit solutions, qualitatively and to some degree quantitatively. It allows for comparison of state-of-the-art, new and future retrofit solutions on an equal and holistic basis. This approach promotes lighting retrofits that might cost more but also offer more benefits, which is reflected in the solutions’ quality defined by means of the Catalogue of Criteria. The set of criteria are used as basis for rating the 38 investigated technologies in the source book “Daylighting and electric lighting retrofit solutions”. The Technology Viewer of the Lighting Retrofit Adviser is developed to convey the collected information within IEA Task 50, including approximately 50 different retrofit solutions. This tool within the Lighting Retrofit Advisor offers both a ‘quick glance’ on the retrofits’ performance for easy comparison, as well as detailed information on the selected solutions. When using the Catalogue of Criteria, future retrofit solutions can be compared with the currently available solutions as well.
T50 B.1 Catalogue of Criteria

Best Practices for Solar Irradiance Measurements with Rotating Shadowband Radiometers
August 2015 - PDF 3.11MB
By: S. Wilbert, N. Geuder, M. Schwandt, B. Kraas, W. Jessen, R. Meyer, B. Nouri
Large-scale solar thermal projects, such as those producing industrial process heat for mining areas in Chile or district heating in Denmark, require diligent solar resource assessments. Unfortunately, high accuracy irradiance data are scarcely available in many regions that are attractive for solar energy applications. This holds especially true for solar thermal technologies using concentrating collectors to produce high temperatures. For these systems, the focus of the resource assessment is on direct normal, or beam irradiance (DNI). Satellite data can only be used in combination with ground data to estimate inter-annual variability and long-term mean values. Hence, new ground measurements have to be collected for projects using concentrating collectors, such as high temperature process heat or district heating systems. Ground measurement data usually show significantly higher accuracies than satellite derived irradiance data, when general guidelines regarding site selection and preparation, instrument selection and maintenance and data quality monitoring are respected. Best practices for Rotating Shadowband Irradiometers (RSIs), developed within the framework of IEA SHC Task 46: Solar Resource Assessment and Forecasting, are presented in this report.
Best Practices for Solar Irradiance Measurements with Rotating Shadowband Radiometers

IEA SHC Task 49/IV - Deliverable C2 - Overview and description of simulation tools for solar industrial process heat systems
August 2015 - PDF 1.26MB
By: Werner Platzer
In this deliverable the authors give an overview and description of simulation tools for solar industrial process heat systems: TRNSYS, Colsim, Insel, TSOL, Polysun, Greenius, Excel-Sopro
IEA SHC Task 49/IV - Deliverable C2 - Overview and description of simulation tools for solar industrial process heat systems

Solar and Heat Pump Systems for Residential Buildings
August 2015
By: Jean-Christophe Hadorn
Editor: Jean-Christophe Hadorn
ISBN: 978-3-433-03040-0
The combination of heat pumps and solar components has great potential for improving the energy efficiency of house and hot water heating systems. This book compares different systems, analyses their performance, presents design methods and shows monitoring techniques.
Solar and Heat Pump Systems for Residential Buildings

Assessment of Technical Solution and Operational Management
June 2015 - PDF 10.66MB
By: Many authors
Editor: Doreen Kalz
The integration of components and subsystems into heating and cooling concepts and their interaction and optimization is a challenging work. However, it offers immense opportunities for energy savings. The recommendations presented in this report are derived from demonstration projects and the lessons learnt during the execution of the projects in the planning and construction phase, but also during operation.
Assessment of Technical Solution and Operational Management

Seasonal Thermal Energy Storage
Report on state of the art and necessary further R+D
June 2015 - PDF 11.43MB
By: Dick Mangold and Laure Deschaintre
Publisher: IEA Task 49
The technology of large scale seasonal thermal energy storage (STES) has been investigated in Europe since the middle of the 70's. First demonstration plants were realized in Sweden in 1978/79 based on results of a national research program.
Seasonal Thermal Energy Storage

Requirements & guidelines for collector loop installation
IEA-SHC INFO SHEET 45.A.2
April 2015 - PDF 0.42MB
By: Samuel Knabl and Christian Fink (co-authors: Philip Ohnewein, Franz Mauthner, Robert Hausner)
The state of the art of hydraulics (collector and collector array hydraulics) and safety (including stagnation) aspects of the primary solar loop is presented and analysed in a theoretical as well as practical framework, also referring to examples of successfully implemented projects. It is based on international know-how collected by IEA networking activities, presented in a condensed form in this document.
Requirements & guidelines for collector loop installation

Modelling, Design, and Optimization of Net-Zero Energy Buildings
March 2015
By: Andreas Athienitis
Editor: William O'Brien
Publisher: Wiley
ISBN: 978-3-433-03083-7

Building energy design is currently going through a period of major changes. One key factor of this is the adoption of net-zero energy as a long term goal for new buildings in most developed countries. To achieve this goal a lot of research is needed to accumulate knowledge and to utilize it in practical applications. In this book, accomplished international experts present advanced modeling techniques as well as in-depth case studies in order to aid designers in optimally using simulation tools for net-zero energy building design. The strategies and technologies discussed in this book are, however, also applicable for the design of energy-plus buildings. This book was facilitated by International Energy Agency?s Solar Heating and Cooling (SHC) Programme and the Energy in Buildings and Communities (EBC) Programme through the joint SHC Task 40/EBC Annex 52: Towards Net Zero Energy Solar Buildings R&D collaboration.

Modelling, Design, and Optimization of Net-Zero Energy Buildings

Best Practices Handbook for the Collection and Use of Solar Resource Data for Solar Energy Applications
February 2015 - PDF 8.71MB
By: M. Sengupta, 1 A. Habte,1 S. Kurtz, A. Dobos, S Wilbert, E. Lorenz, T. Stoffel, D. Renné, D. Myers, S. Wilcox, P. Blanc, and R. Perez
The first version of this handbook was developed in response to a growing need by the solar energy industry for a single document addressing the key aspects of solar resource characterization. The solar energy industry has developed rapidly throughout the last few years, and there have been significant enhancements in the body of knowledge in the areas of solar resource assessment and forecasting. Thus, this second version of the handbook was developed from the need to update and enhance the initial version and present the state of the art in a condensed form for all of its users. Although the first version of this handbook was developed by only researchers from the National Renewable Energy Laboratory, this version has additional contributions from an international group of experts primarily from the knowledge that has been gained through participation in the International Energy Agency’s Solar Heating and Cooling Programme Task 36 and Task 46. As in the first version, this material was assembled by scientists and engineers who have many decades of combined experience in atmospheric science, radiometry, meteorological data processing, and renewable energy technology development. Readers are encouraged to provide feedback to the authors for future revisions and an expansion of the handbook’s scope and content.
Best Practices Handbook for the Collection and Use of Solar Resource Data for Solar Energy Applications

IEA SHC Task 49/IV - Deliverable B1 - Methodologies and Software Tools for Integrating Solar Heat into Industrial Processes
February 2015 - PDF 1.66MB
By: Bettina Muster, Pierre Krummenacher
This document is primarily intended for the process integration community, and aims to present specific issues of, and solutions/approaches for, the integration of solar heat into industrial processes.
IEA SHC Task 49/IV - Deliverable B1 - Methodologies and Software Tools for Integrating Solar Heat into Industrial Processes

IEA SHC Task 49/IV - Deliverable B2 - Integration Guideline
February 2015 - PDF 3.12MB
By: Bettina Muster-Slawitsch
Guideline for solar planners, energy consultants and process engineers giving a general procedure to integrate solar heat into industrial processes by identifying and ranking suitable integration points and solar thermal system concepts.
IEA SHC Task 49/IV - Deliverable B2 - Integration Guideline

Lessons learned from 20 Non-Residential Building Renovations
February 2015 - PDF 1.76MB
By: Fritjof Salvesen and Mari Lyseid Authen
Document Number: IEA SHC Report T.47.A.1
The report summarizes the findings from 20 exemplary renovation projects. The buildings are divided into three categories; educational buildings, office buildings and historic & protected buildings. In this summary chapter, the key findings from all the buildings are described. More detailed information for each building category is presented under the respective chapters.
Lessons learned from 20 Non-Residential Building Renovations

Seasonal Borehole Thermal Energy Storage – Guidelines for Design & Construction
IEA-SHC INFO SHEET 45.B.3.1
February 2015 - PDF 0.24MB
By: Bruce Sibbitt and Doug McClenahan
Borehole thermal energy storage (BTES), which is also referred to as duct storage, has been successfully used for seasonal heat storage in a number of large solar systems. Some of these systems utilize a heat pump to upgrade the stored energy to the load temperature while others use the stored heat directly without upgrading. Borehole thermal energy storages have also been used for storing cold. BTES use the heat capacity in a large volume of native soil to store thermal energy underground. The soil itself is a very good medium for large heat storage systems since it is no-cost, already on-site, involves minimal excavation, is non-toxic and has a reasonable heat capacity. Much of the cost of a BTES is in the heat exchanger used to transfer heat to and from the soil, the drilling of boreholes in which to install the heat exchanger and in the insulation which is placed over the top of the store. For smaller storages (up to 5 000 m3) typically an insulated steel tank is used but for large storages a BTES can be considerably cheaper per unit volume of water-equivalent storage.
Seasonal Borehole Thermal Energy Storage – Guidelines for Design & Construction

Seasonal Borehole Thermal Energy Storage – Guidelines for design & construction
IEA-SHC TECH SHEET 45.B.3.1
February 2015 - PDF 1.37MB
By: Bruce Sibbitt and Doug McClenahan
Borehole thermal energy storage (BTES), which is also referred to as duct storage, has been successfully used for seasonal heat storage in a number of large solar systems. Some of these systems utilize a heat pump to upgrade the stored energy to the load temperature while others use the stored heat directly without upgrading. Borehole thermal energy storages have also been used for storing cold. BTES use the heat capacity in a large volume of native soil to store thermal energy underground. The soil itself is a very good medium for large heat storage systems since it is no-cost, already on-site, involves minimal excavation, is non-toxic and has a reasonable heat capacity. Much of the cost of a BTES is in the heat exchanger used to transfer heat to and from the soil, the drilling of boreholes in which to install the heat exchanger and in the insulation which is placed over the top of the store. For smaller storages (up to 5 000 m3) typically an insulated steel tank is used but for large storages a BTES can be considerably cheaper per unit volume of water-equivalent storage. The purpose of this document is to provide useful guidelines for BTES design and implementation including information on how BTES performance and solar system performance are affected by a wide range of soil properties and by the shape of the BTES field, in terms of the ratio of its diameter to its depth. This information can be beneficial to the designer since in the early stages of system planning and design, soil conditions and water table depth are often unknown. In all cases, it is assumed that a BTES would not be utilized if there is a significant water movement through the bore field since the result would likely be unacceptably high heat loss. The sensitivity results in this Tech Sheet are based on more than 1000 TRNSYS simulations of solar systems designed to meet a large fraction of the heating load at supply temperatures that are less than 40 C for most of the winter and always less than 55 C, without heat pumps. However, the results may also provide guidance for systems using heat pumps and those with higher delivery temperatures. The same systems were also simulated in 5 different Canadian climates.
Seasonal Borehole Thermal Energy Storage – Guidelines for design & construction

Seasonal pit heat storages - Guidelines for Materials & Construction
IEA-SHC INFO SHEET 45.B.3.2
February 2015 - PDF 0.33MB
Seasonal pit heat storages has been investigated and implemented in Denmark both as pilot storages and latest also as full scale storages in Dronninglund (SUNSTORE 3) and Marstal (SUNSTORE 4). The guidelines are based on the experience from the design and implementation of the Danish pit heat storages.
Seasonal pit heat storages - Guidelines for Materials & Construction

Seasonal Pit Heat Storages - Guidelines for Materials & Construction
IEA-SHC TECH SHEET 45.B.3.2
February 2015 - PDF 2.47MB
By: Morten Vang Jensen
Seasonal heat storages in connection to large scale solar plants for district heating has been investigated and implemented in Denmark. For full scale systems the storages has been made as pit thermal energy storages (pit heat storages). In addition to this a borehole thermal energy storage has been implemented as a pilot plant. This fact sheet is a design guideline for pit heat storages based on experience from the design and implementation of the Danish pit heat storages. In principle a pit heat storage is a large water reservoir for storing of thermal energy. Water is an excellent medium for heat storing as it is cheap, non-toxic and has a high heat capacity. The cost of a water storage mainly consists of the parts surrounding the water: A watertight tank and a thermal insulation. For smaller storages (up to 5 000 m3) typically an insulated steel tank is used but for larger storages a pit heat storage is considerably cheaper per m3 water (app. 1/4 of a steel tank).
Seasonal Pit Heat Storages - Guidelines for Materials & Construction

Collection of criteria to quantify the quality and cost competitiveness for solar cooling systems
Task 48 - Activity B7
January 2015 - PDF 3.35MB
By: Daniel Neyer, Jacqueline Neyer, Alexander Thür, Roberto Fedrizzi, Alice Vittoriosi, Stephen White, Hilbert Focke
Editor: Daniel Neyer, University of Innsbruck
Publisher: Daniel Mugnier, TECSOL
Subtask B concentrates on developing tools and deliverables permitting to show the level of quality of the solar cooling and heating systems. In order to achieve this goal, procedures (possibly 1 or more if needed) have to be developed extending the quality characteristics from a component level (Subtask A) to a system level. Starting from 1) on-going work in the IEA Annex 34 and Task 44, the French MéGaPICS and the EMERGENCE projects and former work performed in IEA Task38, 2) suitable analysis procedures classified in standards and 3) work performed at research level, an extension of the procedures will be developed from single stationary tests to a system performance prediction over the whole year (based on standardized and generally accepted conditions). In B7, a proposal for an appropriate evaluation procedure for the technical and economic performance assessment of large systems is set up and tested with real cases. It delivers the basis for a comparable assessment of the installed plants independently of installation site and the specific boundary conditions. Beside, a reflection will be carried out on minimum economical ratios to estimate the competitiveness of solar cooling against concurrent technologies. This activity will give an input and will be carried out in close collaboration with activities B1 (System/Subsystem characterization & field performance assessment) and C2 (Methodology for performance assessment, rating and benchmarking). This activity is to be carried out to survey the available procedures that could be adapted to solar cooling systems quality assessment. 1. A collection and review of existing key figures to quantify quality and cost will be performed but also the specific tools to calculate them will be reviewed. 2. Define the crucial key figures for large scale plants (in cooperation with B1) and find a representation for all of the key figures. 3. Review how benchmarks can be calculated (in cooperation with C2) and define minimum ratios for them. 4. Data acquisition for investment (SHC + reference system) and operating (electricity, etc.) costs has to be done in order to find specific minimum economic ratios. 5. The procedure has to be tested and validated with real installations. Therefore participating companies and institutions will provide monitoring data. Key for the success of this activity is that research institutions are willing to assess the test methods in their laboratories/test sites
Collection of criteria to quantify the quality and cost competitiveness for solar cooling systems

IEA SHC Task 49/IV - Deliverable A1.2 - Overheating prevention and stagnation handling in solar process heat applications
January 2015 - PDF 1.69MB
By: Elimar Frank, Franz Mauthner, Stephan Fischer

Solar process heat plants need to be able to operate reliably in all operation modes. Other than for conventional closed hot water or steam supply systems, solar thermal applications require specific technical solutions to cope with the phenomenon of stagnation.

IEA SHC Task 49/IV - Deliverable A1.2 - Overheating prevention and stagnation handling in solar process heat applications

Report for self-detection on monitoring procedure
Task 48 - Activity B6 final report
January 2015 - PDF 5.07MB
By: Dirk Pietruschka, Antoine Dalibard, Ilyes Ben Hassine, Hilbert Focke, Florian Judex and Anita Preisler, Martin Helm, Philip Ohnewein, Antoine Frein
Editor: Dirk Pietruschka, HFT-Stuttgart
Publisher: Daniel Mugnier, TECSOL
Starting from the statement of existing efficient system control (overview achieved in former IEA Task 38), a second generation of control system is needed to be developed which includes self-detection of faults and malfunctioning of the process based on a reduced monitoring. This new powerful functionality will be a key component assuring long term good reliability and performance of the system. This activity includes an update of good practice on the monitoring procedure starting from the experience and procedures developed during IEA SHC Task 38. However, possible system errors in solar cooling systems are diverse and reach from component defects over simple sensor faults to real control problems. Therefore, as a basic for new developments of automated fault detection systems within working group B6 first a categorization of typical system errors has been carried out. For each fault category typical errors have been collected and possible methods for error detection are discussed together with necessary monitoring equipment. In the last part of the document possible implementations of automated fault detection systems within local system controllers and within centralized internet based system observation systems are shown. For the development of a systematic error detection system, it is required that first of all the possible system errors are collected and sorted in logical error categories. Based on this error detection, methods can be developed for each category and type of error. To reach these goals the following steps were used within working group B6: - Collection of the different typical system errors which occurred in different demonstration sites - Characterization of these system errors for the different solar cooling systems - Development and documentation of possible methods on how the most common system errors can be detected (sensor based and simulation based) - Definition of minimum required additional sensors for the application of improved fault detection methods The present document summarizes the work performed by and the information collected within working group B6. This includes experiences made in many different demonstration projects with solar thermal heating and cooling applications. Furthermore, ongoing developments in the field of automated fault detection methods for the different error categories are described. The main aim of the document is to give the reader an overview on the typical system errors and possibilities for a fast detection using automated system observation methods.
Report for self-detection on monitoring procedure

Report on Life cycle analysis
Task 48 - Activities A2-B3 Final report
January 2015 - PDF 9.97MB
By: Marco Beccali, Maurizio Cellura, Sonia Longo, Pietro Finocchiaro, Tim Selke
Editor: Marco Beccali, Dipartimento di Energia, Ingegneria dell’Informazione e Modelli Matematici – Università degli Studi di Palermo
Publisher: Daniel Mugnier, TECSOL
This technical report describes the research activities developed within Subtasks A2 “Life cycle analysis at component level” and B3 “Life cycle analysis at system level”. Subtask A2 is focused on developing studies to assess the energy and environmental performances of components of solar cooling and heating (SHC) systems. In detail, the Life Cycle Assessment (LCA) approach applied to SHC systems, started by IEA Task 38, is further developed to give a ready to use collection of datasheets allowing estimating the energy and environmental impacts of different SHC systems during their life cycle. The results of the activities developed within Subtask A2 are used to update and complete a database of life cycle inventories for components of SHC systems, already developed within Task 38, to be used for the development of a LCA method tool. As outcome of Task 38, two machines have been already analysed: PINK PSC-10 (12 kW) with H2O/NH3 and SorTech AG ACS 08 (8 kW) with H2O/Silica Gel. In addition, the energy and environmental impacts of other components of SHC plants have been assessed (e.g. solar thermal collectors, gas boiler, pumps, etc.) starting from data of international LCA databases. As outcome of Subtask A2 of Task 48, the energy and environmental impacts of Pink PC19 Ammonia Chiller and of a Packed Adsorbed Bed have been assessed and the database of life cycle inventories for components of SHC systems, developed within Task 38, has been updated and completed. Furthermore the LCA database now includes solar PV components (photovoltaic panels, inverter, storage, etc.) giving the possibility to perform analysis on conventional systems which use renewable electricity with or without connection with the grid. Subtask B aims at developing a user-friendly LCA method tool, useful to calculate the energy and environmental impacts and the payback time indices of different SHC systems and to compare SHC systems and conventional ones. The tool contains the database developed in Subtask A2. An important step of the tool development has been the analysis of international LCA databases to check the LCA data availability for components of the SHC systems and for conventional equipment (pipes, pumps, electric components, photovoltaic panels, etc.). Within Subtask B, the results of the SolarCoolingOpt project are also illustrated.
Report on Life cycle analysis

Standard to determine the heat storage capacity of PCM using hf-DSC with constant heating/cooling rate (dynamic mode)
A technical report of subtask A2.1 of IEA-SHC 42 / ECES Annex 29
January 2015 - PDF 0.75MB
By: Stefan Gschwander, Thomas Haussmann, Georg Hagelstein, Aran Sole, Gonzalo Diarce, Wolfgang Hohenauer, Daniel Lager, Christoph Rathgeber, Peter Hennemann, Ana Lazaro, Harald Mehling
The measurement procedure defined in this document is based on the already existing standard RAL-GZ 896 page (www.PCM-RAL.de). The T4229 is extending the procedure for PCM-characterization using DSCs by: • Definition for the calibration of the DSC • Definitions/suggestion for the sample preparation • Detailed description for the measurement • Suggestion for the improvement of the measurement results (analyzes/evaluation)
Standard to determine the heat storage capacity of PCM using hf-DSC with constant heating/cooling rate (dynamic mode)

Sustainable Refurbishments, School Buildings
A Guide for Designers and Planners
January 2015 - PDF 17.22MB
By: Sophie Trachte and André De Herde
The lack of comfort in most school buildings has negative and scientifically proven consequences on pupils’ concentration and learning. This is why school buildings have an urgent need of fundamental refurbishment. This guide provides designers with information and resources needed to retrofit school buildings in a sustainable and efficient way. The book is richly illustrated with explanatory diagrams and pictures.
Sustainable Refurbishments, School Buildings

Market Change: Upgrading of the non-residential building stock towards nZEB standard
Recommendations to authorities and construction industry
December 2014 - PDF 2.06MB
By: Trond Haavik and Paul Jacob Helgesen
This report includes desktop studies of available building stock information and ownership structures in partner countries and summaries made by task experts from participating countries. Interviews and in-depth descriptions of decision-making processes used in case studies from the participating countries are carried out in order to identify barriers and driving forces. Two workshops within the Task have been organized to discuss preliminary findings. Based on the above listed information, a cross analysis was chaired by the subtask leader with contribution from the task experts, to identify trends, commonalities and differences across the participating countries and draw conclusions about the decision making process.
Market Change: Upgrading of the non-residential building stock towards nZEB standard
Annex to the report
December 2014 - PDF 4.68MB - Posted: 2/20/2015
By: Trond Haavik and Paul Jacob Helgesen

Utilisation of ISO9806:2013 in Global Solar Certification
November 2014 - PDF 0.72MB
By: K I Guthrie, L T Guthrie and J Osborne
ISO 9806 Solar energy - Solar thermal collectors - Test methods, the international standard for testing solar thermal collectors, was first published in 1994. Since that time there have been advances in technology, resulting in a need for the standard to be updated. This update was completed in 2013. The thirty three member nations of the European Committee for Standardisation (CEN) have adopted ISO 9806:2013. This study investigates the likelihood that ISO 9806:2013 will be adopted in other countries around the world. To determine this, a survey which received 63 responses from 30 countries was conducted. Respondents were asked how likely their countries were to adopt the standard and what, if any changes could be made to the standard to improve it. Sixteen countries outside of the CEN membership were identified as having reasonably large solar market size and were targeted by this study as they are large contributors to the world’s solar market. Responses were received from thirteen of these countries, many of which suggested alterations to ISO 9806 in order to increase the likelihood of adoption in their country. These results will be used to inform the next revision of ISO 9806.
Utilisation of ISO9806:2013 in Global Solar Certification

Task 39 Final Report
Presentation at SHC 2014 in Beijing China
October 2014 - PDF 1.21MB
By: Dr. Michael Kohl
Task Objectives: - Assessment of the applicability and the cost reduction potential of polymeric materials for solar thermal systems - Novel polymer based designs - Evaluation of less expensive materials - Assessment of durability and reliability - Promote increased confidence in the use of these products - Development and application of appropriate testing and certification methods - Identification of less expensive manufacturing processes
Task 39 Final Report

Task 39 Subtask A Report
Presentation at SHC 2014 in Beijing China
October 2014 - PDF 2.79MB
By: Dr. Michaela Meir
Final Report for Task 39 Subtask A
Task 39 Subtask A Report

Analysis of load match and grid interaction indicators in net zero energy buildings with simulated and monitored data
September 2014
By: Jaume Salom, Anna Joanna Marszal, Joakim Widén, José Candanedo, Karen Byskov Lindberg
The main objective of this paper is to contribute to the discussion on the role of Net Zero Energy Buildings (Net ZEBs) on future energy systems by the interplay between on-site generation and the building loads, often called load matching, and the resulting import/export interaction with the surrounding electricity grid, commonly named grid interaction. This investigation analyzes five case studies with high resolution data, three of which are based on real monitored buildings. The research aims at selecting and suggesting a limited set of quantitative indicators that: (a) can provide practical information for building as well as grid designers and operators, and (b) are understandable for a wider audience and do not require complex simulation tools or additional resources. This paper also presents novel graphical representations describing the yearly or daily variation of the indexes in an understandable manner. It has been found that the hourly values of the cover factors (namely, the load cover factor and the supply cover factor) provide quite a good picture of the correlation between on-site demand and supply of energy. These factors illustrate both the daily and seasonal effect, the production pattern of different renewable energy technologies, and applied operation/control strategies. The loss-of load probability factor shows how often the on-site supply does not cover the on-site demand but it provides limited information. Several grid interaction indicators are presented in a normalized form based on the connection capacity between the building and the grid. The generation multiple is an index that compares peak values of exported/imported energy; it may also be used with generation/load values. The dimensioning rate and the connection capacity credit relate the building with the electrical grid. These indexes can be used to analyze individual buildings and extend their use in the case of cluster of buildings. Although some general trends have been identified in the results and the usefulness of these indicators is demonstrated, it should be noted that further studies are needed in order to define reference values for particular building topologies, clusters of buildings and climates, which could be used as a rule-of-thumb for grid/building designers.
Analysis of load match and grid interaction indicators in net zero energy buildings with simulated and monitored data

Final report on Contracting Models for Solar Thermally Driven Cooling and Heating Systems
Task 48 - C6 activity final report
September 2014 - PDF 1.99MB
By: Moritz Schubert & Sabine Putz, S.O.L.I.D. Gesellschaft für Solarinstallation und Design mbH (s.putz@solid.at)
Editor: Daniel Mugnier
The IEA Task 48 focuses on projects which make solar thermally driven heating and cooling systems at the same time more efficient, reliable and cost competitive. Within the four subtasks, quality procedures on component levels, quality procedures on system levels, market support measures and dissemination and policy advices were elaborated. This Subtask C6 report´s activity will emphasize contracting models for solar cooling systems. For that purpose, a narrow collaboration was established with ongoing IEA SHC Task 45 on large systems for district heating and cooling systems. This analysis focuses on details, such as investment models, contracts and other relevant issues with regard to which information on ESCos is limited and dispersed in the EU and worldwide. The work will also deepen our understanding of hurdles which ESCos are faced with and will provide information on ways of overcoming such hurdles in practice. Solar thermal technology is defined as a technology used to harness energy from the sun for use in a thermal process. There are a wide variety of applications for this technology, including, but not limited to, water/process heating, radiant heating and air conditioning. In each application, solar energy is obtained through a solar collector and transferred to a thermal process. Given the proper conditions and system design, solar thermal technology can provide a reliable and cost-effective energy source in residential, commercial, and industrial applications. In the field of solar air conditioning, an exponential increase of activities occurred during the last years. Some solar cooling systems are available at small scale, starting at approx. 15 kW. Below this figure a lot of research was done to achieve satisfactory results in regard of the systems´ thermal efficiency. Most solar cooling installations were realized in the scale between 15 kW and 500 kW, being perfectly suitable for all buildings that have a continuous and regular load profile (e.g. public buildings, offices, hospitals…). Since 2011, there are also solar thermal cooling systems with cooling powers beyond 1 Megawatt in operation, like in Singapore and the USA. These systems were the first solar cooling systems based on ESCo financing models. Solar collectors for air conditioning of buildings are generally also used for other applications, such as space heating and domestic hot water preparation. Latter usually contributes to a reduced payback time of the investment. The technologies of concentrating solar cooling applications as well as the technology of solar flat plate cooling applications have their specific advantages or disadvantages in each case, depending on location and application characteristics. Components have to be carefully selected and developed through an integrated design approach to become a functional system. ESCos for solar thermal air conditioning are in many cases a competitive energy service concept to execute energy efficiency projects in buildings or production facilities. Further work will be done in the IEA SHC Task 48 and other projects to make this financial service more competitive and superior to other products
Final report on Contracting Models for Solar Thermally Driven Cooling and Heating Systems

Analysis of grid interaction indicators in net zero-energy buildings with sub-hourly collected data
August 2014
By: Jaume Saloma, Joakim Widénb, José Candanedoc & Karen Byskov Lindbergd
This paper aimed to contribute to the discussion about the role of net zero-energy buildings (ZEBs) or nearly ZEBs in future energy systems, from the perspective of the resulting import/export interaction with the surrounding energy grid (commonly named grid interaction (GI)). This investigation analyses three buildings with measured data at sub-hourly time resolution. The goal of this paper was to quantify the effect of using high-resolution data (one or a few minutes) versus hourly resolution in the GI analysis of buildings with an on-site generation system. A limited set of quantitative GI indicators have been selected: the generation multiple, the dimensioning rate and the connection capacity credit. Additionally, this paper presents graphical representations describing in an intuitive way the yearly or daily variation of the indicators. Some general trends have been identified and the usefulness of the selected indicators is demonstrated. Findings show conclusively that sub-hourly analysis will give more accurate information. Differences between peak values measured with hourly and sub-hourly time resolution can be significant. If detailed GI analysis at the individual building level is required, one should consider going for detailed sub-hourly analysis.

A total cost perspective on use of polymeric materials in solar collectors - Importance of environmental performance on suitability
July 2014 - PDF 0.71MB
By: Bo Carlsson, Helena Persson, Michaela Meir, John Rekstad
Publisher: Applied Energy, Elsevier

To assess the suitability of solar collector systems in which polymeric materials are used versus those in which more traditional materials are used, a case study was undertaken. In this case study a solar heating system with polymeric solar collectors was compared with two equivalent but more traditional solar heating systems: one with flat plate solar collectors and one with evacuated tube solar collectors. To make the comparison, a total cost accounting approach was adopted. The life cycle assessment (LCA) results clearly indicated that the polymeric solar collector system is the best as regards climatic and environmental performance when they are expressed in terms of the IPPC 100 a indicator and the Ecoindicator 99, H/A indicator, respectively. In terms of climatic and environmental costs per amount of solar heat collected, the differences between the three kinds of collector systems were small when compared with existing energy prices. With the present tax rates, it seems unlikely that the differences in environmental and climatic costs will have any significant influence on which system is the most favoured, from a total cost point of view. In the choice between a renewable heat source and a heat source based on the use of a fossil fuel, the conclusion was that for climatic performance to be an important economic factor, the tax or trade rate of carbon dioxide emissions must be increased significantly, given the initial EU carbon dioxide emission trade rate. The rate would need to be at least of the same order of magnitude as the general carbon dioxide emission tax rate used in Sweden. If environmental costs took into account not only the greenhouse effect but also other mechanisms for damaging the environment as, for example, the environmental impact factor Ecoindicator 99 does, the viability of solar heating versus that of a natural gas heating system would be much higher.

A total cost perspective on use of polymeric materials in solar collectors - Importance of environmental performance on suitability

Solution Sets and Net Zero Energy Buildings: A review of 30 Net ZEBs case studies worldwide
A report of Subtask C
May 2014 - PDF 11.74MB
By: François Garde and Michael Donn
This technical report gives a review of 30 fully documented net ZEBs case studies that have been identified by the Sub Task C participants. It reports a compilation of all technical and non-technical information of the 30 case studies that formed the foundation on which the analysis of Volume 3 of the Source Book was based.
Solution Sets and Net Zero Energy Buildings: A review of 30 Net ZEBs case studies worldwide

Dissemination activities in workshops and conferences of IEA SHC Task 44 / HPP Annex 38
A technical report of subtask D - Report D3
April 2014 - PDF 0.4MB
By: Matteo D’Antoni
This report gives a selection of important papers issued by Task 44.
Dissemination activities in workshops and conferences of IEA SHC Task 44 / HPP Annex 38

Dissemination Activities of Subtask A of the IEA SHC Task 44 / HPP Annex 38
A technical report of subtask A – Report A3
April 2014 - PDF 0.5MB
By: Sebastian Herkel and Jörn Ruschenburg
In Subtask A of the joint IEA Solar Heating and Cooling Programme Task 44 and Heat Pump Programme Annex 38, different concepts for solar and heat pump heating systems are evaluated based on annual system simulations. This report gives an overview on dissemination activities in relation to Subtask A "Solutions and Generic Systems”. These dissemination activities include: - 19 conference papers - 5 reports - 6 undergraduate theses - 8 (reviewed and non-reviewed) journal papers - 10 presentations that were not connected to a conference / conference paper
Dissemination Activities of Subtask A of the IEA SHC Task 44 / HPP Annex 38

Guarantee of Annual Output
IEA SHC TECH Sheet 45.A.3.2
April 2014 - PDF 0.59MB
By: Jan Erik Nielsen, PlanEnergi
A methodology for giving and checking the annual output of collector fields is described. The method takes into account that the weather and operating temperatures may vary from year to year. The method works with monthly average operation temperatures and hourly average weather data and will work for systems having approx. constant operating temperatures on a monthly basis – like e.g. solar district heating systems.
Guarantee of Annual Output

SHC Task 45 Fact Sheets - Overview
April 2014 - PDF 0.26MB
By: Jan Erik Nielsen, PlanEnergi
IEA-SHC Task 45 has published a number of “FACT SHEETS”. There are two types of fact sheet: INFO SHEET: A one page introduction and summary of the technical topic TECH SHEETS: A detailed multipage technical report/guideline dealing with the topic in detail
SHC Task 45 Fact Sheets - Overview

A total cost perspective on use of polymeric materials in solar collectors - Importance of environmental performance on suitability
Applied Energy 125 (2014) 10–20
March 2014
By: Bo Carlsson, Helena Persson, Michaela Meir, John Rekstad
Publisher: Elsevier Ltd.
--- To assess the suitability of solar collector systems in which polymeric materials are used versus those in which more traditional materials are used, a case study was undertaken. In this case study a solar heating system with polymeric solar collectors was compared with two equivalent but more traditional solar heating systems: one with flat plate solar collectors and one with evacuated tube solar collectors. To make the comparison, a total cost accounting approach was adopted. The life cycle assessment (LCA) results clearly indicated that the polymeric solar collector system is the best as regards climatic and environmental performance when they are expressed in terms of the IPPC 100 a indicator and the Ecoindicator 99, H/A indicator, respectively. [...]
A total cost perspective on use of polymeric materials in solar collectors - Importance of environmental performance on suitability

Analysis Of Load Match and Grid Interaction Indicators in NZEB with High-Resolution Data
March 2014 - PDF 2.65MB
By: Jaume Salom, Anna Joanna Marszal, José Candanedo, Joakim Widén, Karen Byskov Lindberg, Igor Sartori
A Net Zero Energy Building (Net ZEB) is succinctly described as a grid-connected building that generates as much energy as it uses over a year. The “Net Zero” balance is attained by applying energy conservation and efficiency measures and by incorporating renewable energy systems. The main objective of this report is to analyze the usefulness and relevance of proposed Load Match and Grid Interaction (LMGI) for Net Zero Energy Buildings. The methodology is based in the analysis of available high-resolution data (mainly hourly) both from simulated and monitored Net ZEBs (Net Zero Energy Buildings) or nZEB (nearly Zero Energy Buildings). The central question is to find a limited set of indicators which provide relevant information to building owners, local grid Distribution System Operators (DSO) when information from building simulations are available at design stage.
Analysis Of Load Match and Grid Interaction Indicators in NZEB with High-Resolution Data

Performance Optimisation of Polymeric Collectors by Means of Dynamic Simulation and Sensitivity Analysis
Energy Procedia, Volume 48, 2014, Pages 181–191
March 2014
By: Christoph Reiter, Sebastian Brandmayr, Christoph Trinkl, Wilfried Zörner, Victor I. Hanby
Editor: Andreas Häberle
Publisher: Elsevier Ltd.
--- A dynamic flat-plate collector model for parametric sensitivity studies on polymer-based collector designs was developed. Validation using experimental results of conventional flat-plate collectors showed satisfying results especially regarding the calculation of individual part temperatures of a collector. The model was used to predict system efficiency as well as individual part temperatures in order to analyse a polymeric collector approach in comparison to a conventional collector. The simulation results showed that the fractional energy savings of systems with conventional flat-plate collectors cannot be reached with the analysed polymeric collector approach. Also the stagnation temperatures of more efficient approaches are too high for low-cost polymeric materials. The exemplary analysis of annual temperature loads of the backside insulation for different approaches proved the necessity of careful collector design aiming at temperature reduction for all individual collector parts.
Performance Optimisation of Polymeric Collectors by Means of Dynamic Simulation and Sensitivity Analysis

Polymeric Solar Collectors or Heat Pump? – Lessons Learned from Passive Houses in Oslo
Volume 48, 2014, Pages 914–923
March 2014
By: Michaela Meir, Espen Murtnes, Aylin Maria Dursun, John Rekstad
Editor: Andreas Häberle
Publisher: Elsevier Ltd.
--- Energy monitoring has been performed for two passive houses in Oslo during 2012-2013. One house is heated by a solar heating system, the other with an air-to-water heat pump. The objective has been to investigate the need for additional energy supply in order to provide the required indoor comfort and prepare domestic hot water. If corrected for differences in domestic hot water consumption and indoor temperature the two houses require almost equal amounts of auxiliary energy. The solar energy gain would increase significantly if the solar collectors were placed more appropriate, with less shading due to neighboring buildings and vegetation. Both heating technologies could improve performance with minor system adaptations. It was shown that solar thermal heating can compete with heat pump techology even for locations as far north as Oslo, Norway.
Polymeric Solar Collectors or Heat Pump? – Lessons Learned from Passive Houses in Oslo

Task 39 Exhibition – Assembly of Polymeric Components for a New Generation of Solar Thermal Energy Systems
Energy Procedia, Volume 48, 2014, Pages 130–136
March 2014
By: M. Koehl, Sandrin Saile, Andreas Piekarczyk, Stephan Fischer
Editor: Andreas Häberle
Publisher: Elsevier Ltd.
--- IEA SHC Task 39 is dedicated to the development, optimization and deployment of materials and designs for polymer based solar thermal systems and components. To increase the confidence in polymeric solar thermal applications, Task 39 actively supports international research activities and seeks to promote successful applications and state-of-the-art products. For the SHC conference 2013, different polymeric components suitable for domestic hot water preparation and space heating were singled out for an exhibition. Promising polymeric collectors, air collectors, thermosiphons, storage tanks and other components from industrial partners all over the world were brought to Freiburg and assembled at the Fraunhofer-Institute for Solar Energy Systems ISE. The resulting SHC Task 39 Exhibition of polymeric components shows the feasibility of all-polymeric solar thermal systems and highlights their potential, especially as scalable and modular applications for building integration or as export products to sunny regions.
Task 39 Exhibition – Assembly of Polymeric Components for a New Generation of Solar Thermal Energy Systems

Testing of Components for Solar Thermal Collectors in Respect of Saline Atmospheres
Energy Procedia, Vol. 48, 2014, 731-738
March 2014
By: T. Kaltenbach, E.Klimm, T. Meier, M. Köhl, K.A. Weiß
Editor: Andreas Häberle
Publisher: Elsevier Ltd.
--- Typical components for solar thermal collectors like glazing materials, absorbers and reflectors are exposed to accelerated weathering tests to analyze their stability and behavior under different climatic conditions including a saline atmosphere. The samples are characterized before, during and after the tests with different methods, including FT-IR spectroscopy and microscopic technologies like AFM microscopy to measure the degradation on different scales and identify the processes taking place. In this article we focus on the solar reflector
Testing of Components for Solar Thermal Collectors in Respect of Saline Atmospheres

T.41.A.3/1 Designing Solar Thermal Systems for Architectural Integration
Criteria and guidelines for product and system developers
February 2014 - PDF 5.07MB
Editor: Christian Roecker & Maria Cristina Munari Probst
This document is addressed to manufacturers of solar thermal systems. It describes the main criteria for a successful integration of solar thermal systems in buildings and proposes a methodology for the design of systems specifically conceived for building integration. For each specific sub-technology, it provides a comprehensive set of practical recommendations that should lead to the production of new systems appealing to architects.
T.41.A.3/1 Designing Solar Thermal Systems for Architectural Integration

Task 42 Highlights 2013
Thermal Energy Storage: Material Development for System Integration
February 2014 - PDF 0.2MB
To reach high solar fractions, it is necessary to store heat or cold efficiently for longer periods of time. At this time, there are no cost-effective compact storage technologies available. For high solar fraction systems, hot water stores are expensive and require very large volumes of space. Alternative storage technologies, such as phase change materials (PCMs), sorption materials and thermochemical materials (TCMs) are only available at the laboratory scale, and more R&D is needed before they are available commercially.
Task 42 Highlights 2013

Thermotropic glazings for overheating protection. I. Material preselection, formulation, and light-shielding efficiency
Journal of Applied Polymer Science 131 (4), 2014, doi: 10.1002/app.39950
February 2014
By: Weber, A., Resch, K.
Publisher: Wiley Periodicals, Inc.
--- This article presents a systematic strategy for formulation and optimization of thermotropic layers for overheating protection purposes. Specifically, thermotropic systems with fixed domains (TSFD) which consist of a thermotropic additive finely dispersed in a matrix material are considered. Based on systematic material (component) preselection regarding thermoanalytical characteristics and refractive indices, numerous thermotropic layers were formulated. [....]
Thermotropic glazings for overheating protection. I. Material preselection, formulation, and light-shielding efficiency

Thermotropic glazings for overheating protection. II. Morphology and structure-property relationships
Journal of Applied Polymer Science 131 (4), doi: 10.1002/app.39910
February 2014
By: Weber, A., Schmid, A., Resch
Publisher: Wiley Periodicals, Inc.
--- This article completes a systematic strategy for formulation and optimization of thermotropic systems with fixed domains (TSFDs) for overheating protection purposes. Focus was on characterization of morphology and on revealing optimization potential. A comprehensive characterization of scattering domain size and shape was done applying optical microscopy and scanning electron microscopy. In general, scattering domains exhibited inappropriate size and/or shape for optimum overheating protection performance ...
Thermotropic glazings for overheating protection. II. Morphology and structure-property relationships

Thermotropic Overheating Protection Glazings: Effect of Functional Additives and Processing Conditions on Light-Shielding Efficiency
Journal of Polymer Engineering 2014 Vol: 34(2):161-172. DOI: 10.1515/polyeng-2013-0275
February 2014
By: Weber, A., Resch, K.
Editor: Grizzuti, Nino
Publisher: Walter de Gruyter GmbH
ISBN: ISSN (Online) 2191-0340
--- Within this study, the effect of functional additives and processing conditions on the overheating protection performance of thermotropic systems with fixed domains (TSFD) for overheating protection purposes was evaluated. The focus was on improving the overheating protection performance of a prototype TSFD based on a UV curable acrylate resin by optimization of the material constitution (addition of functional additives like surfactants and nucleating agents) and the processing conditions (temperature conditions during manufacturing, annealing). For the evaluated system, an effect of the nucleating agent on the overheating protection performance was ascertained. Furthermore, omission of an annealing step improved the overheating protection performance slightly.
Thermotropic Overheating Protection Glazings: Effect of Functional Additives and Processing Conditions on Light-Shielding Efficiency

Thermotropic systems with fixed domains exhibiting enhanced overheating protection performance
Journal of Applied Polymer Science 131 (12), doi: 10.1002/app.40417
February 2014
By: Weber, A., Resch, K.
Publisher: Wiley Periodicals, Inc.
--- Within this study, a time saving photo-initiated miniemulsion polymerization process (duration of polymerization was 15 min) was established in order to encapsulate a paraffin wax with an acrylate polymer shell. The obtained freeze-dried latex was an off-white powder exhibiting spherical particles with mean diameters around 400 nm and a concentration of paraffin wax around 56% ...
Thermotropic systems with fixed domains exhibiting enhanced overheating protection performance

Franciscan Monastery, Graz
January 2014 - PDF 2.57MB
By: Sophie Grünewald, TU Graz, Claudia Dankl, ÖGUT
The main part of this protected monument is from 1250 to 1650. Solar thermal collectors and heat pump, 92% energy saving, the final 8% plan to be covered by PV.
Franciscan Monastery, Graz

Kaiserstraße 7, Vienna; Austria
January 2014 - PDF 1.29MB
By: Walter Hüttler, Johannes Rammerstorfer
Monastery, listed Building from 1904 with residential use of the top floors. Primary energy demand reduced by 60%
Kaiserstraße 7, Vienna; Austria

Administration building Bruck/Mur - Austria
2014 - PDF 1.57MB
By: Dirk Jäger, BIG Bundesimmobiliengesellschaft
The office building from 1964 has several innovative features like a special façade, bivalent heat pump and lighting concept. 140 m2 PV modules on the roof. 85% reduction in heat demand.
Administration building Bruck/Mur - Austria

Refurbishment of the Riva Bella School - Belgium
2014 - PDF 1.97MB
By: Sophie Trachte; Contact : sophie.trachte@uclouvain.be
The semi-prefabricated building from 1970 renovated in 2010/12 at very low budget. Prefabrication and re-use as well as free and night cooling.
Refurbishment of the Riva Bella School - Belgium

TU Vienna Plus Energy - Austria
2014 - PDF 1.54MB
By: Helmut Schöberl, Richard Hofer, Schöberl & Pöll GmbH; Claudia Dankl, Hannes Warmuth, ÖGUT
The building from the 1970s renovated to a plus energy standard. Passive night-time cooling, and 336 kWp façade integrated PV system.
TU Vienna Plus Energy - Austria

Final deliverable report on Heat Rejection Systems for solar cooling
Task 48 - Final Activity report A3
January 2014 - PDF 3.63MB
By: Roberto Fedrizzi, Alice Vittoriosi, Davide Romeli, Matteo D’Antoni, Hannes Fugmann, Björn Nienborg, Khalid Nagidi, Marc Sheldon
Editor: Roberto Fedrizzi
SHC Task 48 Subtask A concentrates on developing tools and deliverables to show the level of quality of the most critical components of the solar cooling and heating system. These components are mainly the chiller, the heat rejection device, the pumps and the solar collectors. This report gives an overview of existing and novel concepts for heat rejection devices in solar cooling systems and recommendations on which heat rejection measure should be used under different boundary conditions (climate, system concept etc.) while achieving the 2 main objectives: 1) investment & operation costs minimization 2) re-cooling performance and efficiency. For selected components, where it was possible, a performance characterization has been made in partnership with manufacturers.
Final deliverable report on Heat Rejection Systems for solar cooling

School Renovation Cesena, Italy
January 2014 - PDF 1.1MB
Presentation that outlines a major renovation of a primary school built in the 1960s. Includes building envelope, heating system, renewable energy system and lighting
School Renovation Cesena, Italy

Solar Cooling Handbook
A Guide to Solar Assisted Cooling and Dehumidification Processes
January 2014
By: Hans Martin Henning, Mario Motta, Daniel Mugnier
Editor: Hans Martin Henning, Mario Motta, Daniel Mugnier
Publisher: Ambra Verlag
ISBN: 978-3-99043-438-3
Order - 82.00 EUR
This book in English is the absolute reference on the subject of solar thermal air conditioning. Very detailed, it is the result of the work of Task Group 48 of the IEA SHC program and has more than 350 pages in all aspects of technology: components, the system and its design approach, the economic analysis of technology and finally the feedback of field experience for both small and large systems. All sorption technologies are discussed and each time by scientists from twenty participating countries.
Solar Cooling Handbook

Solbraaveien Office Center - Asker, Norway
January 2014 - PDF 1.03MB
By: Anna Svensson, Espen Aronsen
The building from 1980-82 has reduced the energy consumption to 60% while increasing the indoor air quality.
Solbraaveien Office Center - Asker, Norway

Definition of Main System Boundaries and Performance Figures for Reporting on SHP Systems
A technical report of Subtask B, Deliverable B1, 15 December 2013
December 2013 - PDF 1.68MB
By: Ivan Malenkovic, AIT Austrian Institute of Technology GmbH, Energy Department, Giefinggasse 2, 1210 Vienna, Austria, Peter Pärisch, Institut für Solarenergieforschung Hameln GmbH (ISFH), Am Ohrberg 1, 31860 Emmerthal, Germany, Sara Eicher, Jacques Bony, Haute Ecole d’Ingénierie et de Gestion du Canton de Vaud, Laboratoire d’Energétique Solaire et de Physique du Bâtiment (LESBAT), Centre St-Roch, av. des Sports 20, 1400 Yverdon-les-Bains, Switzerlan, Michael Hartl, AIT Austrian Institute of Technology GmbH, Energy Department, Giefinggasse 2, 1210 Vienna, Austria
This report presents detailed definitions of performance figures for: 1. The components, for the component tests which may also be used for system evaluations e.g. by the Component Test System Simulation (CTSS) method; 2. The whole system and its subsystems, for the system analysis and optimisation, as well as for comparison of SHP systems among each other (including quality assurance – performance reporting), using e.g. monitoring results or whole system test (WST) results; 3. The whole system, for comparison of SHP systems to other systems in terms of e.g. energy efficiency, primary energy efficiency, and emissions.
Definition of Main System Boundaries and Performance Figures for Reporting on SHP Systems

Rockwool International Office Building - Hedehusene, Denmark
December 2013 - PDF 1.27MB
By: Kirsten Engelund Thomsen and Jørgen Rose
The building from 1979 was renovated in 2013. Features heat pump, solar collectors and PV system.
Rockwool International Office Building - Hedehusene, Denmark

Testing Solar and Heat Pump Systems in laboratory
A technical report of Subtask B
December 2013 - PDF 1.66MB
By: Michael Hartl, Editor, AIT Austrian Institute of Technology GmbH, Energy Department, Vienna, Austria Ivan Malenkovic, AIT Austrian Institute of Technology GmbH Jorge Facão, Laboratório Nacional de Energia e Geologia, LNEG, Lisbon, Portugal Ivan Katic,Danish Technological Institute, DTI, Denmark Robert Haberl, Andreas Reber, Michel Y. Haller, Institut für Solartechnik, SPF, Rapperswil, Switzerland
Within the T44A38 as many as 13 different system tests could be performed successfully. Three different test methods were conducted, a modified bin method, a test based on EN255-3 and five tests according to the concise cycle test (CCT). The test with the modified bin method and the test based on EN255-3 were conducted on the same system. The comparison of the two test methods showed a good agreement in the results, although the boundary conditions were slightly different. The test based on EN255-3 was more time consuming and depending on the weather conditions. Therefore the test seems also not to be repeatable with the same conditions. The modified bin method, which is based on a Trnsys simulation model, needs only to perform some specific experiments for parameter identification. The whole system test method CCT proved to be a valuable tool both for system development as well as for performance evaluation. The advantage of this kind of system test is that non-ideal component interactions and the influence of hydraulics and control under transient operating conditions can be detected and evaluated precisely. The test delivers within 12 days information about all operating conditions that may occur during a whole year and is thus much faster than field testing.
Testing Solar and Heat Pump Systems in laboratory

Country Status Reports Summary
November 2013 - PDF 0.06MB
By: Uwe Trenkner
This report of the IEA Solar Heating and Cooling Programme (IEA SHC) summarises the findings of the country status reports published on www.iea-shc.org/country-status-reports.
Country Status Reports Summary

T.41.A.3/2 Designing Photovoltaic Systems for Architectural Integration
Criteria and guidelines for product and system developers
November 2013 - PDF 3.01MB
By: Klaudia Farkas, Laura Maturi, Alessandra Scognamiglio, Francesco Frontini, Maria Cristina Munari Probst, Christian Roecker, Marja Lundgren
Editor: Klaudia Farkas
This document is addressed to manufacturers of photovoltaic systems. It describes the main criteria for a successful integration of PV systems in buildings and proposes a methodology for the design of systems specifically conceived for building integration. For each specific sub-technology, it provides a comprehensive set of practical recommendations that should lead to the production of new systems appealing to architects.
T.41.A.3/2 Designing Photovoltaic Systems for Architectural Integration

Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38
Part D: Ground Heat Exchangers A technical report of subtask C Report C2 Part D
October 2013 - PDF 1.86MB
By: Fabian Ochs, Dani Carbonell, and Michel Haller
The American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) established a standard nomenclature for ground source heat pumps (GSHP). According to this nomenclature that is described in Kavanaugh and Rafferty (1997), GSHPs can be divided in groundwater heat pumps (GWHPs), surface water heat pumps (SWHPs) and ground-coupled heat pumps (GCHPs). GCHP systems can have open loops using the ground with air as a heat carrier or a water reservoir as a direct energy source. In closed loop indirect systems, a ground heat exchanger (GHX) is linked to a water/brine source heat pump. Direct expansion (DX) closed loop systems are those in which the refrigerant of the heat pump circulates directly through the ground coil. For the purpose of the IEA SHC Task44 / HPP Annex 38, only the GCHP indirect systems will be addressed in this report.
Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38

Newsletters issued by IEA Task 44 / Annex 38 from 2010 to 2013
A technical report of subtask D – Report D2
October 2013 - PDF 3.58MB
By: Matteo D’Antoni
This reports gathers the 3 Newsletters issued by Task 44 / Annex 38.
Newsletters issued by IEA Task 44 / Annex 38 from 2010 to 2013

Presentation of System Performance Calculation Educational Material
A technical report of Subtask D - Report D1
October 2013 - PDF 1.95MB
By: Matteo D’Antoni
IEA Task 44 / Annex 38 has produced free available educational material on the subject of performance figures evaluation for Solar plus Heat Pump (SHP) systems. The aim is to develop supporting material useful during teaching activities on the topic of Solar plus Heat Pump systems. The content addresses the definition of several performance indicators developed within Task 44 / Annex 38. The material has been derived from the activities of Subtask B. More detailed information on this topic can be found in the deliverable B1. In the final slides an example is additionally presented for clarifying the relevance and the meaning of each single performance figure.
Presentation of System Performance Calculation Educational Material

Assessing Gaps and Needs for Integrating Building Performance Optimization Tools in Net Zero Energy Buildings Design
September 2013 - PDF 0.6MB
By: Shady Attiaab, Mohamed Hamdy, William O’Brien, Salvatore Carlucci
This paper summarizes a study undertaken to reveal potential challenges and opportunities for integrating optimisation tools in Net Zero Energy Buildings (NZEB) Design. The paper reviews current trends in simulation-based Building Performance Optimisation (BPO) and outlines major criteria for optimisation tools selection and evaluation. This is based on analyzing user’s needs for tools capabilities and requirement specifications. The review is carried out by means of a literature review of 165 publications and interviews with 28 optimisation experts. The findings are based on an inter-group comparison between experts. The aim is to assess the gaps and needs for integrating BPO tools in NZEB Design. The findings indicate a breakthrough in using evolutionary algorithms in solving highly constrained envelope, HVAC and renewable optimisation problems. Simple Genetic Algorithm solved many design and operation problems and allowed measuring the improvement in the optimality of a solution against a base case. Evolutionary Algorithms are also easily adapted to enable them to solve a particular optimization problem more effectively. However, existing limitations including model uncertainty, computation time, difficulty of use and steep learning curve. Some future directions anticipated or needed for improvement of current tools are presented.
Assessing Gaps and Needs for Integrating Building Performance Optimization Tools in Net Zero Energy Buildings Design

Designing a Thermal Storage Device - Flowchart
September 2013 - PDF 0.07MB
By: Task 42
Task 4224 - Designing a Thermal Storage Device - Flowchart
Designing a Thermal Storage Device - Flowchart

Measurement and Verification protocol for Net Zero Energy Buildings
September 2013 - PDF 2.79MB
By: Federico Noris, Assunta Napolitano and Roberto Lollini
In recent years the movement towards more efficient and sustainable buildings has driven the building sector towards the adoption of Net Zero Energy Buildings (Net ZEB) concepts based on the basically zero external energy balance resulting from the renewable energy sources covering a great extent of the building loads. In this framework, the International Energy Agency (IEA) Task 40 / Annex 52 focuses on harmonizing definitions, developing tools, innovative solutions and guidelines related to Net ZEB. Most building energy performance certifications are currently issued on the basis of design input data and several important assumptions (e.g., weather conditions, user behaviors, management of the building) are made and often do not reflect the actual boundary conditions during operation. For this reason, it is necessary to carry out performance assessments during the operation phase on the basis of monitoring data. The current document summarizes the Measurement and Verification (M&V) protocol for Net ZEB developed within IEA Task 40/Annex 52 Subtask A. This report assists with the planning, implementation and data evaluation for Net ZEB monitoring. The document is divided in two main parts focusing on energy balance and indoor environmental quality (IEQ) assessment. The monitoring can be used to compare design versus real performance for building energy label verification or as a tool to further improve building performance. However, although the recognition of the cost-effectiveness (Mills and Matthew, 2009) of monitoring for many applications, measurement campaigns are not yet common because of the investment cost and the effort required during the different phases. A standardization of monitoring procedures will reduce the effort required in monitoring activities and therefore facilitate the diffusion. The purpose of defining a monitoring procedure to check the Net ZEB definition has one of the main goal to calculate the balance associated with the Net ZEB definition.
Measurement and Verification protocol for Net Zero Energy Buildings

The Reference Framework for System Simulations of the IEA SHC Task 44 / HPP Annex 3
A technical report of subtask C Report C1 Part B
September 2013 - PDF 0.59MB
By: Ralf Dott, Michel Y. Haller, Jörn Ruschenburg, Fabian Ochs, Jacques Bony
In Subtask C of the joint IEA Solar Heating and Cooling Programme Task 44 and Heat Pump Programme Annex 38 (T44A38), different concepts for solar and heat pump heating systems are evaluated based on annual system simulations. For these system simulations, common boundary conditions have to be defined in order to ensure that different performance obtained by the simulation of different system concepts are not a result of different boundary conditions used for the simulation. This report describes the definition of the reference space heat loads based on the definition of reference buildings and heat distribution systems. General boundary conditions such as climatic properties, domestic hot water load and properties of ground and boreholes for the simulation of ground heat exchangers are presented in Part A of this report (Haller et al. 2012). Starting from the geometry of the single family house buildings that were defined in the IEA SHC Task 32, three reference buildings with different energetic performance have been defined for T44A38. These buildings are named SFH15, SFH45 and SFH100 according to their space heating energy demand which is approximately 15, 45 and 100 kWh/m2a (140 m2 floor area) in the climate of Strasbourg. Building geometry and construction data define the transmission of heat and solar radiation through the building envelope. Ventilation and shading characteristics as well as internal loads from occupants and electrical equipment are defined. A simplified approach is used for the calculation of the thermal ground coupling of the building. The reference buildings have been implemented in the simulation platform TRNSYS and results from annual simulations are shown both as tabular values and as curves. For all implementations of this reference framework on other platforms it is important to check if the simulation results match the results shown in this report, which are also available in Excel-spreadsheets on the internal Task website. The performance of both heat pumps and solar thermal systems depends significantly on the temperature levels of the heat demand. Therefore, for the comparison of the performance of a solar and heat pump system it is of utmost importance that the simulated flow and return temperatures of the heating system are comparable in the first place. This can be achieved by comparing curves of cumulated energy delivered vs. the temperature that marks the maximum of the flow or return temperature at the time of heat delivery. For the reference framework buildings presented in this report these curves are shown for the different climates of Strasbourg, Athens and Helsinki.
The Reference Framework for System Simulations of the IEA SHC Task 44 / HPP Annex 3

A Control-Oriented Simplified Building Modelling Strategy
August 2013 - PDF 1.3MB
By: Jose A. Candanedo, Vahid R. Dehkordi and Phylroy Lopez
This paper discusses the development of control-oriented simplified modelling strategy (COSMOS) for model-base predictive control (MPC) in buildings. In MPC, a model of the system is used along with forecast information for optimal planning. A model that is as simple as possible --but accurate enough for the purpose at hand -- facilitates the implementation of a MPC strategy. This paper discusses desirable features of models intended for the specific needs of advanced control applications. A path for the creation of such models is presented, based on low-order resistance-capacitance (RC) thermal networks and their equivalent state-space formulation; such an approach provides physical insight while facilitating the treatment of the problem. The model parameters are found by applying an optimization to match the output of a building simulation model. Results include an assessment of the uncertainty of the model outputs.
A Control-Oriented Simplified Building Modelling Strategy

An Optimization Procedure Based On Thermal Discomfort Minimization To Support The Design Of Comfortable Net Zero Energy Buildings
August 2013 - PDF 1.03MB
By: Salvatore Carlucci and Lorenzo Pagliano
The European standard EN 15251 specifies design criteria for dimensioning of building systems. In detail, it proposes that the adaptive comfort model is used, at first, for dimensioning passive means; but, if indoor operative temperature does not meet the chosen long-term adaptive comfort criterion in the “cooling season”, the design would include a mechanical cooling system. In this case, the reference design criteria are provided accordingly the Fanger comfort model. However, there is a discontinuity by switching from the adaptive to the Fanger model, since the best building variant, according to the former, may not coincide with the optimal according to the latter.
An Optimization Procedure Based On Thermal Discomfort  Minimization To Support The Design Of Comfortable Net Zero Energy Buildings

Computational Optimisation For Zero Energy Buildings Design: Interviews Results With Twenty Eight International Experts
August 2013 - PDF 1.04MB
By: Shady Attia, Mohamed Hamdy, William O’Brien, Salvatore Carlucci
This paper summarizes a study that was undertaken to reveal potential challenges and opportunities for integrating optimisation tools in Net/Nearly Zero Energy Buildings (NZEB) Design. The paper reviews current trends in simulation-based Building Performance Optimisation (BPO) and outlines major criteria for optimisation tools selection and evaluation. This is based on analyzing users’ needs for tools capabilities and requirement specifications. The review is carried out by means of interviews with 28 optimisation experts. The findings are based on an inter-group comparison between experts. The aim is to assess the gaps and needs for integrating BPO tools in NZEB Design. The findings indicate existing limitations including model uncertainty, computation time, difficulty of implementation and steep learning curve. Future directions anticipated or needed for improvement of current tools are presented.
Computational Optimisation For Zero Energy Buildings Design: Interviews Results With Twenty Eight International Experts

Design of Nearly Zero Energy Buildings Coupled With an Earth to Air Heat Exchanger in Mediterranean Climate: Development of an Analytic Model and Validation Against a Monitored Case Study
August 2013 - PDF 0.92MB
By: Lorenzo Pagliano, Paolo Zangheri
At the Passivhaus of Cherasco, located in Pianura Padana (Italy), an earth to air heat exchanger (EAHE) and natural night ventilation (in summer) are used to deliver comfort conditions with very low energy consumption. One year and a half of continuous measurements have been carried out in order to evaluate the energy and comfort performances of this building, which combines the Passivhaus concept with local architectural solutions. We present an analysis of the system constituted by building envelope and EAHE. Monitored data (with a particular focus on cooling potential) were evaluated with the use of established indicators and compared with simulations performed by coupling dynamic simulation software (EnergyPlus) and an analytic model for the EAHE. Based on this analysis a simplified steady-periodic model is developed to provide an estimate of the behaviour of the coupled system building envelope (including night ventilation) and EAHE from the point of view of energy and comfort, over a period of few weeks. The model is validated towards monitored data and shows a good agreement in terms of temperature profile, with a slight phase discrepancy, as expected based on the simplifying assumptions about thermal capacity effects.
Design of Nearly Zero Energy Buildings Coupled With an Earth to Air Heat Exchanger in Mediterranean Climate: Development of an Analytic Model and Validation Against a Monitored Case Study

Office and Workshop Building at Fraunhofer ISE - Germany
Fraunhofer ISE Campus
August 2013 - PDF 1.76MB
By: Doreen Kalz and Arnulf Dinke
Building from 1975 renovated in 2011. Wall insulation including ventilation ducts.
Office and Workshop Building at Fraunhofer ISE - Germany

Powerhouse Kjørbo – Norway
August 2013 - PDF 1.6MB
By: Arne Førland-Larsen
Two office buildings from early 1980s are renovated to a plus energy standard using high insulation standard, PV and ground coupled heat pump.
Powerhouse Kjørbo – Norway

Printing Workshop and Office Building - Germany
August 2013 - PDF 0.96MB
By: Doreen Kalz
Building from 1978 renovated in 2005 and 2011. Thermal comfort evaluated both in summer and winter condition.
Printing Workshop and Office Building - Germany

Time-Lapse Photography and Image Recognition to Monitor Occupant-Controlled Shade Patterns: Analysis And Results
August 2013 - PDF 1.13MB
By: K. Kapsis, W. O’Brien, A.K. Athienitis

This paper presents a high-level overview of a methodology for analysing windows shade use is existing buildings. Time-lapse photography is paired with a robust image recognition algorithm to facilitate assessment of shade use and identify any possible trends. The methodology applied on a high-rise building consisting of multiple open plan offices. The analysis showed that the mean shade occlusion and the shade movement rate depend on facade orientation, with the near-south facade having the highest values and the near-north facade having the lowest ones. An average shade use rate of 0.5/day was observed, with the 72% of the shades never adjusted, throughout the period of observation.

Time-Lapse Photography and Image Recognition to Monitor Occupant-Controlled Shade Patterns: Analysis And Results

Tool for Design Decision Making: Zero Energy Residential Buildings in Hot Humid Climate
August 2013 - PDF 1.2MB
By: Shady Attia, Elisabeth Gratia, Andre De Herde, Jan L. M., Hensen
Informed decision-making is the basis for the design of Net Zero Energy Buildings (NZEBs). This paper investigates the use of building performance simulation tools as a method of informing the design decision of NZEBs. The aim of this study was to develop a design decision making tool, ZEBO, for zero energy residential buildings in hot climates and to evaluate the effect of a simulation-based decision aid, on informed decision-making using sensitivity analysis. An assessment of the role of the BPS tools used in informing the decision-making was ascertained through cases studies, usability testing and several self-reported metrics. The paper provides results that shed light on the effectiveness of sensitivity analysis as an approach for informing the design decisions of NZEBs.
Tool for Design Decision Making: Zero Energy Residential Buildings in Hot Humid Climate

Development of Space Heating and Domestic Hot Water Systems with Compact Thermal Energy Storage
July 2013 - PDF 2.28MB
By: Jane H. Davidson, Josh Quinnell, Jay Burch, USA H.A. Zondag, Robert de Boer, Christian Finck, Ruud Cuypers, The Netherlands Luisa F. Cabeza, Spain Andreas Heinz, Dagmar Jahnig, Austria Simon Furbo, Denmark Florian Bertsch, Germany
Long-term, compact thermal energy storage (TES) is essential to the development of cost-effective solar and passive building-integrated space heating systems and may enhance the annual technical and economic performance of solar domestic hot water (DHW) systems. Systems should provide high energy storage density, charge and discharge temperatures that match the heat source used for charging and the intended load, adequate charge/discharge power, and employ storage materials that are stable over many cycles, non-toxic, environmentally safe. Moreover, these systems must compete effectively in the marketplace and therefore should provide an economic benefit compared to conventional heating and DHW systems, which have traditionally relied on sensible water storage.
Development of Space Heating and Domestic Hot Water Systems with Compact Thermal Energy Storage

Task 50 Brochure
Advanced Lighting Solutions for Retrofitting Buildings
July 2013 - PDF 1.45MB
The overall objective is to accelerate retrofitting of daylighting and electric lighting solutions in the non-residential sector using cost effective best practice approaches, which can be used on a wide range of typical existing buildings.
Task 50 Brochure

ZEMCH 2012 International Conference e-Proceedings
July 2013 - EXE 92.89MB
By: Many
Editor: Masa Noguchi
Publisher: ZEMCH Network
The ZEMCH 2012 International Conference was a first attempt to establish an intellectual forum of interactive discussion on design, production and marketing issues surrounding the delivery of low to zero energy / CO2 emission mass-customizable home and communities being built in developed and developing countries. This download is the e-proceedings. You need to download the .exe file and then run it on your computer to view the complete proceedings. The file is 92MB in size.
ZEMCH 2012 International Conference e-Proceedings

Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38
Part C: Heat Pump Models A technical report of subtask C Report C2 Part C
June 2013 - PDF 3.28MB
By: Ralf Dott, Thomas Afjei, Andreas Genkinger, Antoine Dalibard, Dani Carbonell, Ricard Consul, Andreas Heinz, Michel Haller, Andreas Witzig, Jorge Facão, Fabian Ochs, Peter Pärisch
Europe launched an ambitious program: 20-20-20 up to 2020, i.e. 20% less greenhouse gases, 20% higher energy efficiency and a share of 20% renewable energies until the year 2020. Ultra-low energy, near or net zero energy buildings are part of the solution. Many of them are equipped with heat pumps. Hence, in future highly energy-efficient buildings, heat pumps will play a key role. Annual efficiency calculation and optimization by means of simulating heat pump heating and cooling systems are very valuable, especially if building and building technology are coupled.
Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38

Subtask A: Final Report Presentation to ExCo June 14, 2013
June 2013 - PDF 0.41MB
By: Les Nelson, IAPMO
Subtask A: Final Report Presentation to ExCo June 14, 2013

Subtask A; Roadmap of Collector Testing and Certification Issues
June 2013 - PDF 1.48MB
By: Enric Mateu Serrats, CENER
The testing and characterization of solar thermal collectors and components have been investigated from the inception of the IEA Solar Heating & Cooling Programme. Performance test procedures and characterization equations were originally developed for typical solar collector types under well-defined standard test conditions. In addition, hort-term tests were developed to predict the long-term durability of standard collectors and systems. Presently, national and international testing laboratories in many IEA participant countries use these test procedures and characterization equations in order to determine a solar thermal product’s performance and compliance with required safety and reliability standards. Based on the test certificates issued by accepted test laboratories the products are certified by certification bodies. In order to assess and compare solar thermal products, appropriate procedures are required. These procedures should account for aspects like thermal performance, safety and durability issues.
Subtask A; Roadmap of Collector Testing and Certification Issues

Applications of Large Solar Thermal Systems
May 2013 - PDF 1.01MB

Solar thermal systems use free energy from the sun (solar radiation) to produce useful heat in a first instance. The solar radiation which is received on the earth plane is called "global radiation", which is made up of direct and diffuse radiation. Depending on the type of collector, in addition to the direct radiation it is also possible to use the diffuse radiation.

Applications of Large Solar Thermal Systems

LCE Analysis of Buildings - Taking the Step Towards Net Zero Energy Buildings
A Technical Report of Subtask A
May 2013 - PDF 0.21MB
By: By Björn Berggren1 and Monika Hall

Today a number of buildings exist for which the design principle has been to achieve a Zero Energy Building (ZEB) or Net Zero Energy Building (Net ZEB) [1-6]. This paper focuses on Net ZEBs. In Net ZEB definitions, there may or may not be a maximum limit on energy demand. The requirements are generally that the demand is covered by renewable energy sources and that the building is in compliance with the national standards and regulations. However, to meet the goal, a low demand gives an advantage. The general approach to reach Net ZEB could be described as a two-step concept. The first step is to reduce the energy demand by applying energy efficiency measures. The second step is to supply energy, generated by renewable sources, which may be supplied into an external grid when favourable [8-11].

LCE Analysis of Buildings - Taking the Step Towards Net Zero Energy Buildings

Market Overview
May 2013 - PDF 0.69MB

Within the TASK45 Program, data from worldwide Large Scale Solar Thermal Plants were collected and summarized in Subtask C. This provides a market overview, reflects the market´s development within the last 30 years and shows opportunities for further growth and country specific potential for implementing Large Scale Solar Thermal Plants.

Market Overview


Subtask A; White Paper on Concentrating Collectors
May 2013 - PDF 5.02MB
By: Stephan Fischer, ITW; Peter Kovacs, SP; Carsten Lampe, ISFH; Enric Mateu Serrats, CENER
Editor: Les Nelson, IAPMO
This report summarizes the work carried out in the field of concentrating and tracking solar thermal collectors. The goal of this work was the introduction and validation of a test method capable of treating concentrating as well as concentrating/tracking collectors with the same accuracy as the current standard treats flat plate and evacuated tubular collectors.
Subtask A; White Paper on Concentrating Collectors

Subtask A; White Paper on Low-to-Medium Temperature Collectors
May 2013 - PDF 1MB
By: Korbinian Kramer, Fraunhofer ISE; Stephan Fischer, ITW; Peter Kovacs, SP
Editor: Les Nelson, IAPMO
From 2010 through 2012, under the auspices of the EU-funded QAiST (Quality Assurance in Solar Thermal Heating and Cooling Technology) project, 12 laboratories participated in a proficiency test designed to identify the repeatability and conformity of solar testing laboratories results. One part of this effort involved low to medium temperature solar collector testing. The results of this work form an important part of the Task 43 work as it relates in international harmonization, in that examining the accuracy and repeatability of solar collector tests, as well as identifying problem areas, will lead to a good basis for harmonization.
Subtask A; White Paper on Low-to-Medium Temperature Collectors

Subtask A; White Paper on Solar Air Heating Collectors
May 2013 - PDF 1.41MB
By: Korbinian Kramer, ISE
Editor: Les Nelson, IAPMO
Although solar air heating collectors have some significant advantages in comparison to liquid heating collectors, currently they have a market share of less than 1% (Weiss, Bergmann et al. 2009) of the global solar collector market. The main advantages of using air as heat transfer medium are the absence of stagnation and freezing problems and a reduced tightness requirement. For instance, this makes it easier to integrate solar air heating collectors into façades. Commercially available air heating collector types range from unglazed collectors for space heating support at low temperatures, to high performance evacuated tube collectors with high efficiencies at increased temperatures. An important barrier for a broader use of solar air heating collectors is the lack of common standards for testing to ascertain quality and performance. The Fraunhofer Institute for Solar Energy Systems ISE is currently working on the development of testing standards for glazed and unglazed air collectors, the development of simulation tools to calculate solar gains of solar air heating systems as well as the improvement of solar air heating collector technology. This work is done in co-operation with industry within the project ‘Luko-E’, which is co-funded by the German ministry for the environment.
Subtask A; White Paper on Solar Air Heating Collectors

Database of Large Solar Systems (detailed)
April 2013
A database with detailed descriptions of large systems from all over the world has been established within Task 45. The systems are listed in categories as defined in the T45.C.1 fact sheets.

A Review of Market-Available Solar Thermal Heat Pump Systems
A technical report of subtask A
March 2013 - PDF 0.77MB
By: Jörn Ruschenburg and Sebastian Herkel
Editor: Fraunhofer ISE, Freiburg, 21 pages

Solar heat pump systems seen as a combination of a solar thermal collector and a compression heat pump already entered the market with more than 130 systems offered. The aim of this report is to collect, to describe and to analyze these currently (2009-2011) available systems. The undertaken survey on more than 80 companies mostly in Europe shows that most of the systems are used for a combined production of domestic hot water and heat for the space heating circuit. A new classification scheme is proposed and market available solar and heat pump systems are analyzed and classified. This report is free for distribution.

A Review of Market-Available Solar Thermal Heat Pump Systems

Evaluation Tool for Net Zero Energy Buildings: Application on Office Buildings
March 2013 - PDF 0.29MB
By: Annamaria Belleri, Federico Noris, Ulrich Filippi Oberegger, Roberto Lollini

Within the research project “IEA SHC Task 40 – ECBCS Annex 52: Towards Net Zero Energy Solar Buildings” an excel-based tool was developed to assess balance, operating costs and load match index for predefined selected Net ZEB definitions [1]. The tool can be of assistance for different stakeholders, including building designers (evaluation of building design solutions with respect to different Net ZEB definitions), energy managers (assess the balance in monitored buildings) and policy makers (assist in the upcoming implementation process of Net ZEBs within the national normative framework).

Evaluation Tool for Net Zero Energy Buildings: Application on Office Buildings

Innovation development for highly energy-efficient housing: Opportunities and challenges related to the adoption of passive houses
March 2013 - PDF 3.91MB
By: Mlecnik, E.
In previous years we have seen a recognition of the significant potential that exists for reducing energy use through innovation in residential buildings. This study investigates innovation challenges and identifies opportunities that could lead to a rapid increase in the adoption of highly energy-efficient housing concepts, particularly that of the passive house. To this end, it exemplifies, interprets and develops the innovation adoption theory through an investigation of views and experiences on the supply side, the demand side and the policy side. It highlights successful innovation trajectories and barriers experienced by businesses. It addresses both problems and positive experiences from the perspective of the end user and investigates different policy approaches. As such, the research reveals important features of innovation-adoption strategies in the building sector. It shows how multi-player enterprise collaboration plays a key role, and the study also recommends the development of quality assurance schemes. It makes a valuable contribution to discussions about how active a role government policymakers and enterprise networks should play.
Innovation development for highly energy-efficient housing: Opportunities and challenges related to the adoption of passive houses

Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38
Part E: Storage models A technical report of subtask C Report C2 Part E
March 2013 - PDF 1.12MB
By: Sunliang Cao, Kai Siren, Andreas Heinz, Sebastian Bonk
In this report, the models for the thermal energy storage systems have been reviewed and listed. The categories of the thermal energy storage models listed in this report are depicted in Figure 1. As shown in Figure 1, the thermal energy storage can be categorized into the latent energy storage (mainly phase change material storage - PCM) and sensible energy storage. For the latent energy storage, there are six representative forms in the practical application: microencapsulated PCM-slurries, capsulated PCM storage modules, multi-layer PCM unit, snow storage, ice storage, and hybrid PCM-sensible storage unit. For the sensible energy storage, there are two representative forms in the practical application: sensible liquids and sensible solids. Furthermore, based on the time scale of the storage, the categories can be divided into short term and seasonal storage. In this report, if the storage module is for seasonal storage, it will be specifically mentioned in the classification. The theoretical principles of different categories of storages are different, and are not the main theme of this report. Representative numerical models have been reviewed and listed according to the categories. In Section 2.1, the latent energy storage models are reviewed and listed, while in Section 2.2, the sensible energy storage models are presented. The validation of these representative models are introduced in Section 3. The summary table for storage models with respect to certain section is listed in Appendix A.
Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38

Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38
Part A: General Simulation Boundary Conditions A technical report of subtask C Report C1 Part A
March 2013 - PDF 0.62MB
By: Michel Y. Haller, Ralf Dott, Jörn Ruschenburg, Fabian Ochs, Jacques Bony
In Subtask C of the joint IEA Solar Heating and Cooling Programme Task 44 and Heat Pump Programme Annex 38 (T44A38), different concepts for solar and heat pump heating systems are evaluated based on annual system simulations. For these system simulations, common boundary conditions have to be defined in order to ensure that different performance obtained by the simulation of different system concepts are not a result of different boundary conditions used for the simulation. These common boundary conditions are described in the reference framework for system simulations presented in Part A of this report. Part B of this report describes the definition of the reference space heat loads based on the definition of reference buildings and heat distribution systems (Dott et al. 2012). The base climates used for the simulation framework are Strasbourg (moderate), Helsinki (cold) and Athens (warm). In addition to these, Davos is used for an extreme mountainous climate and Montreal for an extreme continental climate. The permission has been obtained from Meteotest (Switzerland) to use these Meteonorm climate data-sets for work within T44A38. A mitigation factor of 0.5 has been defined for the estimated wind speed on the collector surface in comparison to the meteorological wind speed. For the simulation of ground heat exchangers, reference ground properties are defined together with standard heat exchanger design (e.g. number and lengths of probes) for the climates of Strasbourg and Helsinki. The domestic hot water load is based on the EU mandate M/324 tapping cycle M. In order to be suitable for the use in annual simulations, adaptations have been made in order to introduce one bath tub tapping per week, the dependency of hot water demand on the cold water temperature of each location and annual fluctuations. In order to compare results of these boundary conditions implemented on different simulation platforms, monthly parameters and heat load distribution curves have been defined. A spreadsheet is provided for download on the internal task website where the results of the reference simulations performed with TRNSYS 16.1 can be compared with the results of the implementation of these boundary conditions on any simulation platform.
Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38

Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38
Part A: Summary A technical report of subtask C Report C2 Part A
March 2013 - PDF 0.72MB
By: Michel Y. Haller, E. Bertram, R. Dott, T. Afjei, F. Ochs, C. Sunliang, K. Siren, and J.-C. Hadorn
This report has been established in an international cooperation in the framework of the IEA SHC Task 44 / HPP Annex 38 on solar and heat pump systems (T44A38). Subtask C of T44A38 deals with modeling and simulation of solar and heat pump systems and their components. Report C2 of subtask C gives an overview of recent developments and the state of the art in component modeling in this field. This report has been split into several parts: Part A: Summary Part B: Collectors Part C: Heat Pumps Part D: Storage The summary presented in this Part A of Report C2 has been published in a paper at the Solar Heating and Cooling Conference SHC 2012 in San Francisco (Haller et al. 2012). The version presented in this report contains additional figures compared to the final printed version in the proceedings of the conference, as well as minor changes in the text, and an additional chapter on storage. It does not contain the editorial changes of the conference proceedings. The original paper reference is: Haller, M.Y., Bertram, E., Dott, R., Afjei, T., Ochs, F. & Hadorn, J.-C., 2012. Review of Component Models for the Simulation of Combined Solar and Heat Pump Heating Systems. Energy Procedia, 30, p.611–622. DOI: 10.1016 / j.egypro.2012.11.071.
Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38

T.41.A.2: Solar Energy Systems in Architecture - Integration Criteria and Guidelines
Subtask A: Criteria for Architectural Integration
March 2013 - PDF 26.66MB
By: Klaudia Farkas, Francesco Frontini, Laura Maturi, Maria Cristina Munari Probst, Christian Roecker, Alessandra Scognamiglio, Isa Zanetti
Editor: MariaCristina Munari Probst & Christian Roecker (EPFL-LESO)
This document is conceived for architects and intended to be as clear and practical as possible. It summarizes the knowledge needed to integrate active solar technologies (solar thermal and photovoltaics) into buildings, handling at the same time architectural integration issues and energy production requirements. Solar thermal and photovoltaics are treated separately, but the information is given following the same structure: 1- Main technical information; 2- Constructive/functional integration possibilities in the envelope layers; 3- System sizing and positioning criteria; 4- Good integration examples; 5- Formal flexibility offered by standard products; 6 - Innovative market products. To complete the information the manual ends with a short section dedicated to the differences and similarities between solar thermal and photovoltaic systems, with the purpose to help architects make an energetic and architecturally optimized use of the sun exposed surfaces of their buildings.
T.41.A.2: Solar Energy Systems in Architecture - Integration Criteria and Guidelines

Boligselskapet Sjaelland Office Building - Denmark
January 2013 - PDF 1.73MB
By: Jørgen Rose and Kirsten Engelund Thomsen
The office building from 1968 was extended with a penthouse to the top of the building. 130 m2 PV-system included.
Boligselskapet Sjaelland Office Building - Denmark

Schüco Italian Headquarter - Italy
January 2013 - PDF 2.06MB
By: G. Pansa, T. Poli
The building from 1990 includes several solar energy installations; 600 kWp PV system, solar absorption chiller 15 kWf and 10 m2 solar collectors for DHW
Schüco Italian Headquarter - Italy

Kampen School, Norway
January 2013 - PDF 1.4MB
By: Mads Mysen and Anna Svensson
A demonstration project where new concepts for energy efficient ventilation and lighting are integrated, using the existing ducts and demand control sensors.
Kampen School, Norway

CHARACTERIZATION MEASUREMENTS ON A PARABOLIC TROUGH COLLECTOR FOR PROCESS HEAT APPLICATIONS
2013
By: Larcher, M.; Rommel, M.; Frank, E.; Bohren, A.
Publisher: Proceedings ISES Solar World Congress 2013; EnergyProcedia

Evaluation of Measurements on Parabolic Trough Collector Fields for Process Heat Integration in Swiss Dairies
2013
By: Frank, E.; Marty, H.; Hangartner, L.; Minder, S.
Publisher: Proceedings ISES Solar World Congress 2013; EnergyProcedia

Heat transfer mechanisms in a compound parabolic concentrator: Comparison of computational fluid dynamics simulations to particle image velocimetry and local temperature measurements
2013
By: C. Reichl, F. Hengstberger, C. Zauner - AIT
Publisher: Solar Energy
Vol 97, 2013, 436-446

Impact of pressure losses in small-sized parabolic-trough collectors for direct steam generation
2013
By: David H. Lobón, Loreto Valenzuela
Publisher: Energy, Vol. 61 (2013), pp. 502-512

Integration of Solar Heating into Heat Recovery Loops using Constant and Variable Temperature storage
2013
By: M Walmsley, T Walmsley, M Atkins
Publisher: Chemical Engineering Transactions, pp1183, vol 35, 2013
ISBN: 978-88-95608-26-6

Investigation of low Global Warming Potential working fluids for a closed two-phase thermosyphon
2013
By: Robert MacGregor, Peter Kew, David Reay
Publisher: Applied Thermal Engineering, Vol. 51, Issues 1-2, pp. 917-925, 2013

Modeling and co-simulation of a parabolic trough solar plant for industrial process heat
2013
By: Silva, R., Pérez, M., y Fernández-Garcia, A.
Publisher: Applied Energy 106, 287-300, (2013).

Opportunities for low-grade heat recovery in the UK food processing industry
2013
By: Richard Law, Adam Harvey, David Reay
Publisher: Applied Thermal Engineering, Vol. 53, Issue 2, pp. 188-96, 2013

Parabolrinnenkollektoren für Prozesswärme in Schweizer Molkereien
2013
By: Frank, E., Feuerstein, M., Minder, S.
Publisher: Tagungsband 23. Symposium Thermische Solarenergie, Bad Staffelstein, 2013

Process Intensification - Engineering for Efficiency, Sustainability and Flexibility. 2nd Edition
2013
By: Davd Reay, Colin Ramshaw, Adam Harvey - Newcastle University, Process Intensification Group
Publisher: Butterworth-Heinemann, Oxford.
ISBN: ISBN-10: 0080983049 ISBN-13: 978-0080983042

Solar thermal plant integration into an industrial process
2013
By: A. Frein, M. Calderoni, M. Motta - Polimi
Publisher: SHC Freiburg 2013

SolNet - PhD-scholarships and courses on Solar Heating
2013
By: Jordan, U., Vajen, K., Bales, C., Cortés Fortezac, P.J., Drück, H., Frank, E., Furbo, S., Heinzen, R., Lukea, A., Martinez Moll, V., Pietschnig, R., Streicher, W., Wagner, W., Witzig, A.
Publisher: Proceedings ISES Solar World Congress 2013; EnergyProcedia

The role of heat pipes in intensified unit operations
2013
By: David Reay, Adam Harvey
Publisher: Applied Thermal Engineering, Vol. 57, Issues 1-2, pp. 147-153, 2013

Use of parabolic trough solar collectors for solar refrigeration and air-conditioning applications
2013
By: Cabrera, F. J., Fernández-García, A., Silva, R. M. P., y Pérez-García, M.
Publisher: Renewable and Sustainable Energy Reviews, 20, 103-118, (2013).

A new solar combined heat and power system for sustainable automobile manufacturing
January 2013
By: Oliver Iglauera, Christian Zahler
Publisher: Elsevier, Energy Procedia

Collector Simulation Model with Dynamic Incidence Angle Modifier for Anisotropic Diffuse Irradiance
January 2013
By: Stefan Hess, Victor Hanby
Publisher: Energy Procedia, SHC 2013, International Conference on Solar Heating and Cooling for Buildings and Industry.

CPC evacuated tube collector systems for process heat up to 160 °C
January 2013
Publisher: ASES conference Baltimore 04/2013 paper

CPC-Vakuumröhren-Kollektoranlagen für Prozesswärme bis 160 °C
January 2013
By: Rolf Meißner
Publisher: Sanitär- und Heizungtstechnik, SHT 08/2013

Design and simulation of a solar field coupled to a cork boiling plant
January 2013
By: Mario Biencinto, Lourdes González, Loreto Valenzuela, Aránzazu Fernández
Publisher: SHC 2013, International Conference on Solar Heating and Cooling for Buildings and Industry, September 23-25, Freiburg, Germany

Development and test results of a calorimetric technique for solar thermal testing loops, enabling mass flow and Cp measurements independent from fluid properties of the HTF used
January 2013
By: João Marchã, Tiago Osório, Manuel Collares Pereira, Pedro Horta
Publisher: Proceedings of the SOLARPACES 2013, September 2013, Las Vegas, USA

Final report Measurement and Verification Procedures
Task 48 C4 Final report
January 2013 - PDF 3.44MB
By: Francois Boudéhenn, Stuart Hands, Stephen White, Christian Zahler & Farah Gammoh
Editor: Francois Boudéhenn
While Measurement & Verification (M&V) procedures (e.g. IPMVP, ASHRAE and FEMP) exist for general energy conservation measures, it is desirable to have a more specific and targeted guide for solar cooling in order to simplify procedures, improve confidence in results and to assist M&V implementation with more detailed guidance. The resulting in-situ and ex-situ measurement procedures have been written up as a document suitable for submission as a draft standard. The present final deliverable is a monitoring procedure and a draft standard integrating the following aspects: - Presentation of a generic scheme for solar cooling installations; - Definition of one (or two maximum) performance indicators, with associated calculation method applied to the generic scheme; - Prescription of the sensors required (position, technologies, …) in order to obtain the needed information for calculating the performance indicator(s); - Definition of the analysis method for reporting the performance and quality of the installation.
Final report Measurement and Verification Procedures

Heat-powered cycles: are the process industries 'missing the boat'?
January 2013
By: David Reay
Publisher: Int. J. Low-Carbon Tech. (2013) 8 (suppl 1): i2-i8

Innovative, zukunftsweisende Gestaltungselemente - Kunststoffe in der Solarthermie
ee-erneuerbare energie 2013-01
January 2013
By: Michael Köhl, Sandrin Saile
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- Der vermehrte Einsatz von Kunststoffen eröffnet nicht nur ein erhebliches Kostensenkungspotential, sondern durch die Designfreiheit auch die Chance, Solarthermie ‚neu‘ zu denken. Raum für die Arbeit an innovativen Lösungsansätzen bietet das 2006 ins Leben gerufene Projekt „Polymeric Materials for Solar Thermal Applications“ (IEA SHC Task 39). Nunmehr in ihrer zweiten Phase (Laufzeit 2010 – 2014), dient es als internationale Plattform für die Vernetzung von Experten aus Forschung und Industrie der Solarthermie- und Kunststoffbranche. Ziel ist die Entwicklung zukunftsweisender solarthermischer Systeme, die durch den Einsatz geeigneter Polymermaterialien und die damit verbundene mögliche Massenproduktion einfach und kostengünstig herzustellen sind ...
Innovative, zukunftsweisende Gestaltungselemente - Kunststoffe in der Solarthermie

Kunststoffe in solarthermischen Kollektoren – Ein Weg zur Kostensenkung
ee-erneuerbare energie 2013-01
January 2013
By: Christoph Reiter, Christoph Trinkl, Wilfried Zörner
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- Polymerwerkstoffe in solarthermischen Kollektoren versprechen aufgrund von geringen Materialkosten und effizienten Fertigungsmöglichkeiten eine Verringerung der Herstellkosten. Das Kompetenzfeld Erneuerbare Energien der Hochschule Ingolstadt untersucht hierbei im Rahmen eines Kooperationsprojektes mit einem Industriepartner die dafür notwendige Fertigungstechnik und Kollektorkonstruktionen.
Kunststoffe in solarthermischen Kollektoren – Ein Weg zur Kostensenkung

Leistungsanforderungen an Polymermaterialien
ee-erneuerbare energie 2013-01
January 2013
By: Alexander Kaiser, Christian Fink, Robert Hausner, Thomas Ramschak, Wolfgang Streicher
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- Eine wichtige Voraussetzung zur Nutzung von Polymerwerkstoffen in solarthermischen Anlagen ist die genaue Kenntnis der Leistungsanforderungen an die jeweiligen Komponenten und die dafür eingesetzten Werkstoffe ...
Leistungsanforderungen an Polymermaterialien

Methoden zur beschleunigten Alterungsprüfung von Kunsststoffen
ee-erneuerbare energie 2013-01
January 2013
By: G.M. Wallner, K. Grabmayer, S. Beissmann, H. Schobermayr, W. Buchberger, R.W. Lang
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- Bei großen Saisonalwärmespeichern aber auch kleinen Wasserspeichern adaptierbarer Geometrie kommen zunehmend Kunststoffhalbzeuge (sogenannte Liner) zum Einsatz. Eine Hauptanforderung an den Kunststoffliner ist die Langzeitbeständigkeit (>20 Jahre) bei Temperaturen von 60 bis 90°C. In der Materialentwicklung aber auch zur Lebensdauervorhersage sind beschleunigte Prüfmethoden von zentraler Bedeutung.
Methoden zur beschleunigten Alterungsprüfung von Kunsststoffen

Monitoring und Analyse solarer Prozesswärmeanlagen
January 2013
By: Anette Anthrakidis, Christian Faber, Marco Lanz, Mario Adam, Sebastian Schramm, Hans-Peter Wirth
Publisher: OTTI 2013 - 23. Symposium Thermische Solarenergie

Optical characterization parameters for line-focusing solar concentrators: measurement procedures and extended simulation results
January 2013
By: Pedro Horta, Tiago Osório
Publisher: Proceedings of the SOLARPACES 2013, September 2013, Las Vegas, USA

Osram Culture Centre – Denmark
January 2013 - PDF 1.6MB
By: Jørgen Rose and Kirsten Engelund Thomsen
Built in 1953 as an industrial building and renovated in 2009. The first prefabricated building in Copenhagen.
Osram Culture Centre – Denmark

Review of relevant international standards rating and incentive schemes
Task48 - Activity C1 Final Report
January 2013 - PDF 1.43MB
By: Daniel Rowe, Dr. Stephen White, Daniel Mugnier and Khalid Nagidi
Editor: Daniel Rowe
A large number of government incentive programmes and industry development programmes have been instituted in different jurisdictions, to assist the renewable energy and building energy efficiency industries. These programmes call up procedures for quantifying benefits, rating effectiveness and achieving robust measurement and verification. A database of relevant standards, processes and incentives has been created and links to the needs of the solar heating and cooling industry have been analysed.
Review of relevant international standards rating and incentive schemes

School in Schwanenstadt - Austria
January 2013 - PDF 1.1MB
By: Claudia Dankl, Thomas Steffi and Susanne Supper
School building from 1960s with numerous expansions. Renovated in 2006/07 to meet the passive house standards.
School in Schwanenstadt - Austria

Solar Update - January 2013
IEA SHC Newsletter: Volume 57
January 2013 - PDF 0.6MB
Editor: Pamela Murphy
In This Issue: - SHC Solar Award - IEA SHC Roadmap - SHC 2013 Conference - SHC Programme Partners with BUILD UP - Solar Energy and Architecture - New SHC Projects - ECREEE Joins SHC - Solar Cooling Market - Solar + Heat Pumps - MarketPlace - New SHC Publications - Programme Contacts
Solar Update - January 2013

Solarthermische Systeme aus Polymerwerkstoffen: Das Großforschungsvorhaben SolPol
ee-erneuerbare energie 2013-01
January 2013
By: Reinhold W. Lang, Gernot M. Wallner, Jörg Fischer
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- Das Ende 2009 gestartete Großforschungsvorhaben SolPol-1/2 ist eine Forschungsinitiative des Instituts für Polymerwerkstoffe und Prüfung der Johannes Kepler Universität Linz [...]. Hauptzielsetzung von SolPol-1/2 ist die Entwicklung neuartiger, gepumpter thermischer Kollektoren in Kunststoffbauweise, die auf optimierten Polymerwerkstoffen und kunststoffgerechten Fertigungstechnologien basieren.
Solarthermische Systeme aus Polymerwerkstoffen: Das Großforschungsvorhaben SolPol

Status Quo der Entwicklungen eines überhitzungsgeschützten Kunststoffkollektors
ee-erneuerbare energie 2013-01
January 2013
By: Alexander Thür, Claudia Hintringer, Alexander Richtfeld, Wolfgang Streicher, Alexander Kaiser, Robert Hausner, Christian Fink, Willibald Koller, Roland Riepl
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- Moderne thermische Solarkollektoren sind Hightech-Produkte und bestehen aufgrund unterschiedlicher Anforderungen an die Komponenten, aus einer Vielzahl an Materialien. Dadurch ergeben sich für die Produktion dementsprechend höhere Kosten. Kunststoff bietet hier eine Vielzahl von neuen Möglichkeiten im Hinblick auf Fertigungsmethoden und Design. Der vorliegende Artikel bezieht sich auf im Rahmen des vom Klima- und Energiefonds geförderten Forschungsvorhabens „Solarthermische Systeme aus Polymerwerkstoffen: SolPol-2“ durchgeführte Arbeiten ...
Status Quo der Entwicklungen eines überhitzungsgeschützten Kunststoffkollektors

Storage in solar process heat applications
January 2013
By: Mario Adam, Sebastian Schramm
Publisher: International Conference on Solar Heating and Cooling for Buildings and Industry

Collection of experimental data on the behavior of TCM/PCM-materials to benchmark numerical codes
December 2012 - PDF 2.19MB
By: Paul Gantenbein & Camilo Rindt
The activities in this working group are aimed at developing and testing numerical models that help to understand and optimise the material behaviour and the dynamic behaviour of compact thermal energy storage systems and components based on Phase Change Materials (PCM’s) and Thermo Chemical Materials (TCM’s). Ultimately, these numerical models could help to find ways to optimise the materials in combination with the system components. The activities in this working group help to lay the foundation for such models.
Collection of experimental data on the behavior of TCM/PCM-materials to benchmark numerical codes

Composite material for heat storage, method for preparation and use
December 2012
By: R. Cuypers, A.J. de Jong, J. Eversdijk, H. Oversloot, H. van ‘t Spijker, N.E. Papen-Botterhuis

Design Handbook
Installation, Commissioning and Operation of Large Scale Solar Thermal Plants
December 2012 - PDF 1.66MB
By: Anna Katharina Provasnek and Sabine Putz, S.O.L.I.D., Austria
This handbook aims to provide guidance in designing best practice, large-scale solar thermal systems, geothermal heat pump systems and hybrid district heating systems. It addresses common design issues, operation and financing issues. The final chapter gives examples for successfully constructed plants.
Design Handbook

Microencapsulation of Salts for Enhanced Thermochemical Storage Materials
December 2012
By: R. Cuypers, A.J. de Jong, J. Eversdijk, H. van ‘t Spijker, H. Oversloot, B.L.J. Ingenhut, R.K.H. Cremers, and N.E. Papen-Botterhuis

Polymeric Materials for Solar Thermal Applications
December 2012
Editor: Michael Koehl, Michaela Georgine Meir, Philippe Papillon, Gernot M. Wallner, Sandrin Saile
ISBN: 978-3-527-33246-5
--- Bridging the gap between basic science and technological applications, this is the first book devoted to polymers for solar thermal applications. Clearly divided into three major parts, the contributions are written by experts on solar thermal applications and polymer scientists alike. The first part explains the fundamentals of solar thermal energy especially for representatives of the plastics industry and researchers. Part two then goes on to provide introductory information on polymeric materials and processing for solar thermal experts. The third part combines both of these fields, discussing the potential of polymeric materials in solar thermal applications, as well as demands on durability, design and building integration. With its emphasis on applications, this monograph is relevant for researchers at universities and developers in commercial labs.
Polymeric Materials for Solar Thermal Applications

A Model of the Optical Properties of a Non-absorbing Media with Application to Thermotropic Materials for Overheat Protection,
Energy Procedia 30 (2012) 116-124
November 2012
By: A. Gladen, J.H. Davidson, S, Mantell, J. Zhang, Y. Xu
Publisher: Elsevier Ltd.
--- Thermotropic materials offer the potential to provide overheat protection for polymer absorbers. These materials are composed of a matrix material in which a second material, referred to as the scattering domain, is dispersed. Temperature control is accomplished by a reduction in transmittance at a desired temperature corresponding to the phase change temperature of the scattering domain. The phase change is accompanied by a change in refractive index. This paper describes a numerical model to predict the transmittance and reflectance of a polymer based thermotropic material as a function of the relative index of refraction m between the matrix and scattering domains, the scattering domain size and volume fraction fv, and the sheet thickness ...
A Model of the Optical Properties of a Non-absorbing Media with Application to Thermotropic Materials for Overheat Protection,

Aging tests of components for solar thermal collectors
Energy Procedia 30 (2012) 805-814
November 2012
By: T. Kaltenbach, M. Kurth, C. Schmidt, T. Meier, M. Köhl, K.A. Weiß
Publisher: Elsevier Ltd.
--- Components for solar thermal collectors like glazing materials, absorbers and reflectors are exposed to outdoor weathering and accelerated weathering tests in order to analyze their stability and behavior under different climatic conditions. To measure the degradation on different scales and to identify the processes taking place, the samples are characterized before, during and after the tests with different methods, including FT-IR spectroscopy, contact angle measurement and microscopic technologies such as Atomic Force Microscopy (AFM).
Aging tests of components for solar thermal collectors

Black pigmented polypropylene materials for solar absorbers
Energy Procedia 30 (2012) 438-445
November 2012
By: M. Kurzböck, G.M. Wallner, R.W. Lang
Publisher: Elsevier Ltd.
--- Polyolefin materials are of high relevance and interest for absorbers of solar thermal collectors with integrated overheating protection. In this work the effect of various black pigments (carbon black (CB) and carbon nanotubes (CNT)) on optical and mechanical properties of PP-RCT grades (Polypropylene-Random Copolymer with special crystalline structure (ß phase) for elevated temperature applications) is investigated. To meet the requirements of high absorbance in the solar wavelength range (> 90%) and enhanced mechanical properties at service temperatures up to 90°C for at least 10 years, black pigmented specimens are characterized in an unaged state by UV/Vis/NIR- spectrometry and tensile testing. The experimental results reveal ...
Black pigmented polypropylene materials for solar absorbers

Fracture behavior of degraded polyethylene thin films for solar thermal applications
Energy Procedia 30 (2012) 783-792
November 2012
By: H. Ge, G. Singh, S. Mantell
Publisher: Elsevier Ltd.
--- Thin polymer films and tubes are under consideration as materials for use in roof top mounted solar thermal collectors. When polymer components are exposed to chlorinated water or UV light, degradation can lead to diminished mechanical performance and premature failure from rupture. In this paper, fracture toughness and crack growth of degraded polyethylene (MDPE) are investigated. Thin film PE samples (0.3mm thick) are degraded through exposure to 80°C chlorinated water (8 ppm chlorine) for up to 45 days ...
Fracture behavior of degraded polyethylene thin films for solar thermal applications


Intercomparative tests on phase change materials characterisation with differential scanning calorimeter
November 2012 - PDF 0.74MB
By: Ana Lazaro, Conchita Peñalosa, Aran Solé, Gonzalo Diarce, Thomas Haussmann, Magali Fois, Belén Zalba, Stefan Gshwander, Luisa F. Cabeza
Publisher: Applied Energy Journal

For the correct design of thermal storage systems using phase change materials (PCMs) in any application, as well as for their simulation, it is essential to characterise the materials from thermophysical and rheological standpoints (phase change enthalpy, thermal conductivity in solid and liquid phases, viscosity and density in function of temperature). Taking advantage of the different research groups facilities available in two international networks: within the IEA (International Energy Agency), the ECES Implementing Agreement (Energy Conservation through Energy Storage IA) and SHC Programme (Solar Heating and Cooling) Task 42/Annex 24 ‘‘Compact Thermal Energy Storage – Material Development for System Integration’’, and the COST Action TU0802 ‘‘Next generation cost effective phase change materials for increased energy efficiency in renewable energy systems in buildings (NeCoE-PCM)’’ a set of Round Robin Tests (RRTs) was proposed.

Intercomparative tests on phase change materials characterisation with differential scanning calorimeter

Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38
Part B: Collector Models A technical report of subtask C Report C2 Part B
November 2012 - PDF 0.32MB
By: E. Bertram, D.Carbonell, B. Perers, M.Y. Haller, M. Bunea, S.Eicher
Solar thermal and heat pump systems are one of the key elements for our future high efficient energy supply. In this context, realistic and reliable description of solar thermal collectors in solar heat pump systems is of great importance. This report gives an overview of solar thermal collector models. For system simulations most of the existing numerical models for glazed solar collectors are applicable. However, for unglazed collectors the typical operating range is extended to low temperatures. As a result, little experience exists under these operating conditions where significant changes of the collector performance may be expected for instance due to condensation of water vapour on the collector surface. In recent works in and outside T44/A38, the effect of condensation has been included to establish collector models for unglazed collectors. Validation and application of unglazed collector models has been conducted and is described. The investigated models show good agreement with measurements. In addition, work on condensation, in particular, real applications and the transfer of the results to systems simulations along with validation is still needed. Additional collector models have to be applied for the simulation of photovoltaic thermal (PVT-) collectors. The vast majority of commercially available PVT collectors in combination with a heat pump are modified PV modules and therefore unglazed. Although more experience is needed in this area, first validation measurements reveal, that a simple extension of thermal models by an electrical model suffices for good accuracy in thermal and electrical modelling. To conclude, no principal difficulties are to be expected and a first model with some validation data is already presented. Overall, adequate models are available allowing the description of liquid cooled glazed and unglazed collectors. Nevertheless, further validation work should be conducted to confirm the reliability of the models in the extended low temperature applications. This should not be restricted to condensation but also to night-time operation without solar radiation or any other effect in the low temperature operating range. Both, collector model validation from experiments and system model validation and long-term experience from field measurements should be included.
Models of Sub-Components and Validation for the IEA SHC Task 44 / HPP Annex 38

Thermotropic glazings for overheating protection
Energy Procedia 30 (2012) 471-477
November 2012
By: A. Weber, K. Resch
Publisher: Elsevier Ltd.
--- In this paper, the effect of material composition on the overheating protection performance of thermotropic systems with fixed domains (TSFD) is studied. Several thermotropic layers were formulated by variation of both, matrix material and thermotropic additive. Refractometry was applied in order to obtain refractive index data as a function of temperature of all material constituents and to screen wether material combinations are promising to formulate or not. Investigations concerning optical properties, switching temperature and switching process were carried out applying UV/Vis/NIR spectrometry. Morphological analysis was conducted with a Scanning Electron Microscope (SEM). Several TSFD showed reasonable light-shielding efficiency. Nevertheless further optimization of scattering domain size and shape is necessary to improve the light shielding performance.
Thermotropic glazings for overheating protection

Kindergarten Vejtoften - Denmark
October 2012 - PDF 1.3MB
By: Jørgen Rose and Kirsten Engelund Thomsen
Built in 1971 with minimal insulation standard. One of 27 kidergartens in the municipality that will undergo and extensive energy renovation. The method developed in this project will be applied in all the other kindergartens.
Kindergarten Vejtoften - Denmark

NVE Building - Norway
October 2012 - PDF 1.23MB
By: Anders Johan Almas, Michael Klinski, Niels Lassen
The office building was constructed through 1962 -64 fir the Norwegian Water Resources and Energy Directorate. Protected elements both internal and external. The first protected buiilding in Norway to be renovated to energy level B or better.
NVE Building - Norway


Molecular dynamics simulation of heat transfer through a water layer between two platinum slabs
September 2012
By: E. Iype E. Arlemark S.V. Nedea C.C.M. Rindt H.A. Zondag
Publisher: Proceedings of the 6th European Thermal Sciences Conference (Eurotherm 2012)

Product Developments and Dissemination Activities
Coordinated by Subtask A
September 2012 - PDF 3.98MB
By: Miguel Pires Amado, Klaudia Farkas, Francesco Frontini, Alessia Giovanardi, Susanne Gosztonyi, Caroline Hachem, Merete Hoff, Margarethe Korolkow, Marja Lundgren, Laura Maturi, Maria Cristina Munari Probst, Christian Roecker, Alessandra Scognamiglio, Mark Snow
Editor: Gabriele Lobaccaro & Maria Wall
This document shows product developments and dissemination activities carried out within the framework of, or in close relation to, the project IEA SHC Task 41; Solar Energy and Architecture. This Task gathered researchers and practicing architects from 14 countries in the three year project whose aim was to identify the obstacles architects are facing when incorporating solar design in their projects, to provide resources for overcoming these barriers and to help improving architects’ communication with other stakeholders in the design of solar buildings. Participating countries were Australia, Austria, Belgium, Canada, Denmark, Germany, Italy, Norway, Portugal, Republic of Korea, Singapore, Spain, Sweden and Switzerland. The report gives not a complete list of activities, but shows the different types of activities to spread the findings in Task 41 and to initiate product developments in participating countries.
Product Developments and Dissemination Activities

Solar components 3D parametric CAAD objects
Subtask B: Methods and Tools for Solar Design
September 2012
The developed solar objects are compatible with both Graphisoft ArchiCAD and Autodesk AutoCAD. The main goals of the new tool are to speed up the rendering procedure when integrating PV systems in building design, to facilitate and stimulate the use of BiPV (Building integrated Photovoltaic) systems by architects and designers and to improve the architectural quality of BiPV systems. It was developed by the Institute for Applied Sustainability to the Built Environment (ISAAC) in collaboration with IDC AG, the Swiss national Graphisoft distributor (responsible for CAD object programming), as a part of a national Swiss project: BiPV Tools, Interactive tools and instruments supporting the design of building integrated PV installations. The modules are available for free downloads from the following website: www.bipv.ch/index.php/en/material/software

Use of Rubber Crumbs as Drainage Layer in Green Roofs as Potential Energy Improvement Material
September 2012
By: Pérez G, Vila A, Rincón L, Solé C, Cabeza LF

Zero Energy Building Definition – A Literature Review
A Technical Report of Subtask A
September 2012 - PDF 0.17MB
By: Anna Joanna Marszal and Per Heiselberg
Results of this literature review are presented in two parts. First part presents key publications that significantly contribute to the discussion on ZEB definitions, and finally the discussion itself. In the second part, Appendix, the ZEB definitions from the literature are divided into the groups in order to give the reader an overview of the wide variety of ZEB definitions.
Zero Energy Building Definition – A Literature Review

Comparative Life Cycle Assessment of Thermal Energy Storage Systems For Solar Power Plants
August 2012
By: Oró E, Gil A, de Gracia A, Boer D, Cabeza LF

DFT Study on Characterization of Hydrogen Bonds in the Hydrates of MgSO4
August 2012
By: Eldhose Iype, Silvia V. Nedea, Camilo C. M. Rindt , Anton A. van Steenhoven, Herbert A. Zondag , and A. P. J. Jansen
Publisher: Copyright © 2012 American Chemical Society
Document Number: 10.1021/jp3025649
Order
Magnesium salt hydrates are potential thermo-chemical energy storage materials considering its high energy storage density and its availability. However, in practical applications, these materials suffers from low efficiency due to their sluggish kinetics and significant structural changes during hydration and dehydration. A DFT PW91-TZ2P level optimization is performed on the various hydrates of magnesium sulfate molecules to study their structural properties. The study identifies a wide network of hydrogen bonds which is significantly influencing the chemical structure of the molecules. These hydrogen bonds appear to cause distortions in the hydrated structures and even hindering the coordination of water with magnesium resulting in lower energy isomers. In the case of hexa-hydrated isomers, the hydrogen bond stabilizes a conformation which has only four coordinated water molecules, and is energetically more stable than the conformation with six coordinated water molecules. The sluggish hydration kinetics in magnesium sulfate is attributed to the strong hydrogen bond network present in the crystals. In addition, the hexahydrated structure exhibits an intra-molecular proton transfer reaction. This suggests that the strong hydrogen bond interactions potentially dissociates water molecules during hydration.

Adsorption properties of porous materials for solar thermal energy storage and heat pump applications
SHC 2012
July 2012 - PDF 0.21MB
By: J. Jänchen, H. Stach
The water adsorption properties of modified porous sorbents for solar thermal energy storage and heat transformation have been investigated by thermogravimetry (TG) differential thermogravimetry (DTG), microcalorimetry, measurements of water adsorption isotherms, and storage tests. A chabazite type SAPO, a dealuminated faujasite type zeolite, and a mesostructured aluminosilicate, have been synthesized and compared with common zeolites X, Y and silica gel. It has been found that optimized lattice composition and pore architecture contribute to well adapt hydrophilic properties and a beneficial steep isotherm.

Development of a Seasonal Thermochemical Storage System
Proceedings of the (1st International Conference on Solar Heating and Cooling for Buildings and Industry 2012, San Francisco, USA, 9-11 july 2012
July 2012
By: R. Cuypers, N. Maraz, J. Eversdijk, C. Finck, E. Henquet, H. Oversloot, H. van ‘t Spijker, A. de Geus
Publisher: Energy Procedia

IEA SHC Annual Report 2011
July 2012 - PDF 4.25MB
Editor: Pamela Murphy
The Implementing Agreement for a Programme to Develop and Test Solar Heating and Cooling Systems (referred to as the Solar Heating and Cooling Programme or SHC Programme) was established in 1977 as one of the first Implementing Agreements in the IEA. The SHC Programme’s work is unique in that it is accomplished through the international collaborative effort of experts from Member countries and the European Commission. The benefits of such an approach are numerous, namely, it accelerates the pace of technology development, promotes standardization, enhances national R&D programmes, permits national specialization, and saves time and money.
IEA SHC Annual Report 2011


New two-component water sorbent CaCl2-FeKIL2 for solar thermal energy storage
July 2012 - PDF 1MB
By: Alenka Ristic, Darja Maucec, Stefan K. Henninger, Venceslav Kaucic
Publisher: Microporous and Mesoporous Materials
A new two-component (composite) water sorbent CaCl2-FeKIL2 has been developed for sorption-based solar thermal energy storage. The matrix of the composite is FeKIL2 material with disordered mesopores, high surface area of 712 m2/g and mesopore dimensions between 4 and 29 nm. The composite, prepared by wet impregnation of FeKIL2 with CaCl2, has lower surface area (418 m2/g) and similar mesopore dimensions as the matrix. The maximum water sorption capacity of FeKIL2 is 0.21 g/g, while the composite possesses 3 times higher maximum water sorption capacity due to the presence of the salt in the matrix. Heat of adsorption of the composite is 50.4 kJ/mol. A short-term cycling test between temperatures of 150 and 40 C at a water vapour pressure of 5.6 kPa confirms a comparatively good hydrothermal stability of the composite.

T.41.B.3 Solar design of buildings for architects: Review of solar design tools
Subtask B - Methods and Tools for Solar Design
July 2012 - PDF 11.46MB
Editor: Miljana Horvat (Ryerson University, Canada) Maria Wall (Lund University, Sweden)
The third report of subtask B presents the capabilities of 19 CAAD and BPS digital tools for solar design, in order to increase overall awareness, and provide inspiration and incentive for the future choice of tool(s). The review was carried out by using the same building model as input for all tools, as far as possible. In addition, the second part of the report presents three exemplary case stories that intend to convey valuable experience as they describe different design approaches, which tools were used and how the use of solar design tools affected the design process and final architectural design.
T.41.B.3 Solar design of buildings for architects: Review of solar design tools

T.41.C.1: The Communication Process
Subtask C: Communication Guideline
July 2012 - PDF 2.48MB
By: Doris Ehrbar, Francesco Frontini, Susanne Gosztonyi, Caroline Hachem, Rolf Hagen, Merete Hoff, Miljana Horvat, Olaf Bruun Jørgensen, Jouri Kanters, Margarethe Korolkow, Andreas Lechner, Marja Lundgren, Laura Maturi, Maria Cristina Munari Probst, Christian Roecker, Mark Snow
Editor: Rolf Hagen & Olaf Bruun Jørgensen
In order to stimulate an increased use of solar in energy conscious building design, the Task 41 participants have developed a Communication Guideline as a tool to support architects in their communication process with especially clients, authorities and contractors. Today the energy performance of solar solutions is well documented and well known especially in the “technical environment”. This knowledge, however, needs to be communicated in a convincing way to the decision makers in order to ensure a broad implementation of sustainable solar solutions in future building design. The Communication Guideline includes convincing arguments and facts supporting the implementation of solar based design solutions. The Communication Guideline is divided in three main parts: • Part 1: Convincing clients to request and commission solar buildings • Part 2: Communication strategies at the design/ construction team level • Part 3: Tools and References
T.41.C.1: The Communication Process

Technology Roadmap: Solar Heating and Cooling
July 2012 - PDF 3.32MB
Publisher: IEA
Solar heating and cooling (SHC) can provide low-carbon emission energy from solar resources that are widespread throughout the world. SHC describes a wide range of technologies, from mature domestic hot water heaters to those just entering the demonstration phase, such as solar thermally driven cooling. This roadmap envisages development and deployment of solar heating and cooling by 2050 to produce 16.5 EJ (4 583 TWhth; 394 Mtoe) solar heating annually, more than 16% of total final energy use for low temperature heat, and 1.5 EJ solar cooling, nearly 17% of total energy use for cooling by that time.
Technology Roadmap: Solar Heating and Cooling

Improving Thermal Performance of Freezers Using Phase Change Materials
June 2012
By: Oró E, Miró L, Farid MM, Cabeza LF

Net zero energy building: A review of current definitions and definition development in Belgium.
Subtask A: Definitions and Implications
June 2012 - PDF 0.27MB
By: Erwin Mlecnik, Shady Attia, Stefan Van Look
The recast of the European Performance of Buildings Directive (EPBD) requires the uptake of a definition of so called ‘nearly zero energy’ buildings (nZEB). Belgium was first to set a definition for a ‘net zero energy house’ (NZEB) in 2009. Every year the definition is revised for consistency with shortcomings and emerging issues. The Belgian definition raised many questions regarding (1) the net balance, (2) the application and calculation method (3) the indoor air quality and comfort, (4) energy use included in the balance, (5) the type of buildings, (6) the accepted renewable energy supply options, (7) the quality assurance and monitoring and (8) energy storage and the connection to the energy infrastructure. Therefore, the paper presents a review on the current Belgian definition and its market status in comparison with the international context. The aim of the paper is to review current definition discussions and pave the way to a more consistent definition.

Norwegian Tax Authority Building Renovation - Oslo, Norway
June 2012 - PDF 1.17MB
By: Task 47
Presentation that outlines the renovation of the high-rise Norwegian Tax Authority building in Oslo, Norway. The renovation includes high insulated building facade, increased air tightness, energy recovery, and high efficiency technical systems.
Norwegian Tax Authority Building Renovation - Oslo, Norway

Principles for Nearly Zero Energy Building in Belgium
Subtask A: Definitions and Implications
June 2012
The recast of the European Performance of Buildings Directive (EPBD) requires all new buildings to be “nearly zero energy’ buildings (nZEB) by 2020, including existing buildings undergoing major renovations. Belgium was first to set a definition for a ‘net zero energy house’ (NZEB) in 2009. Every year the definition is revised for consistency with shortcomings and emerging issues. However, to reach the nZEB objective many questions are raised in the Belgian context. Many uncertainties exist among local governments and municipalities to achieve that objective. Therefore, the paper presents a review on the current Belgian definition and its market status in comparison with the international context. The paper builds on existing experience with the implementation of the EPB calculation method and the Passive House initiative. The aim of the paper is to review current definition discussions and pave the way to a more consistent definition. Finally, four principles are suggested to reach the nZEB objectives in Belgium.

Solar Update - June 2012
IEA SHC Newsletter: Volume 56
June 2012 - PDF 2.77MB
Editor: Pamela Murphy
In This Issue: - Solar Heat Worldwide - Non-Residential Building Renovation - SHC 2012 Conference - Country Highlights: China - Largest Solar Cooling System: Singapore - International Net ZEB Definition - SHC Publications - Compact Thermal Storage R&D - SHC Programme
Solar Update - June 2012

T.41.B.4: Needs of architects regarding digital tools for solar building design
Subtask B - Methods and Tools for Solar Design
June 2012 - PDF 0.52MB
By: The Subtask B Expert Group
One important outcome of Task 41 is a reach-out to the industry and digital tool developers in the form of a letter, clearly stating the perceived needs of professional architects, as they had been identified through the international survey and by Task 41 experts through experience and research reviews.
T.41.B.4: Needs of architects regarding digital tools for solar building design


MERITS: More Effective use of Renewables Including compact seasonal Thermal energy Storage
InnoStock Conference 2012, Lleida, Spain, 16-18 May 2012
May 2012
By: R. Cuypers, C. Finck, E. Henquet, H. Oversloot, A. de Geus

Performance analysis of an atmospheric packed bed thermo-chemical heat storage system
May 2012
By: Beek, T.J.J. van, Rindt, C.C.M. & Zondag, H.A.

Preparation, hydrothermal stability and thermal adsorption storage properties of binderless zeolite beads
International Journal of Low-Carbon Technologies Advance Access published May 5, 2012
May 2012 - PDF 0.39MB
By: Jochen Janchen, Kristin Schumann, Erik Thrun, Alfons Brandt, Baldur Unger and Udo Hellwig
Novel binderless zeolite beads of types A and X have been synthesized and characterized by scanning electron microscopy, mercury intrusion, nitrogen adsorption, thermogravimetry, water adsorption isotherm measurements, cyclic hydrothermal treatments and storage tests. The binderless molecular sieves show an improved adsorption capacity, sufficient hydrothermal stability, higher specific energies and the potential for a better performance density of the storage. Both open and closed storage tests have shown comparable adsorption capacities and specific energies for the binderless molecular sieves. A significantly higher discharging temperature, however, could be realized with the open storage system.

T.41.A.1: Building Integration of Solar Thermal and Photovoltaics – Barriers, Needs and Strategies
Subtask A: Criteria for Architectural Integration
May 2012 - PDF 3.16MB
By: Klaudia Farkas (NTNU, Norway), Miljana Horvat (Ryerson University, Canada)
This first report of Subtask A describes the results of a large international survey on the reasons why architects do not use or rarely use solar technologies, and gives proposals to help overcome these barriers by identifying the architect’s needs in this area.
T.41.A.1: Building Integration of Solar Thermal and Photovoltaics – Barriers, Needs and Strategies



Review of Solar Thermal Storage Techniques and Associated Heat Transfer Technologies
February 2012
By: Cabeza LF, Solé C, Castell A, Oró E, Gil A

The Performance of Small-Pore Microporous Aluminophosphates in Low-Temperature Solar Energy Storage
The Structure-Property Relationship
February 2012
By: Dr. Alenka Ristic, prof. Nataša Zabukovec Logar, prof. Venceslav Kaucic in collaboration with Dr. Stefan Henninger
Publisher: National Institute of Chemistry Slovenia / Fraunhofer Institute


Use of Rubber Crumbs as Drainage Layer in Experimental Green Roofs
February 2012
By: Vila A, Pérez G, Solé C, Fernández AI, Cabeza LF

A comparative analysis of market available solar thermal heat pump systems
2012 - PDF 0.96MB
By: Jörn Ruschenburg and Sebastian Herkel
Document Number: 2012.022
During the last years, many combined solar thermal heat pump systems have entered the market for residential heating systems. Regarding testing and assessment of these systems, existing methods and standards are limited on national and international level. Currently, several approaches are developed and presented. The precondition for any such work is a thorough review of the existing market, revealing for example the relevance of non-standard components and configurations.

A simplified heat pump model for use in solar plus heat pump system simulation studies
2012
By: Perers B., Anderssen E., Nordman R., Kovacs P.
ISBN: 2012.018

Direct coupling solar and heat pump at large scale: experimental feedback from an existing plant
2012
By: Fraga C., Mermoud F., Hollmuller P., Pampaloni E., Lachal B.
Document Number: 2012.010

Ein Jahr Feldmessung von fünf Solar-Kombianlagen mit Wärmepumpen
2012 - PDF 1.98MB
By: Alexander Thür, Martin Vukits, Walter Becke
Document Number: 2012.024
Heizungs- und Warmwasserbereitungssysteme basierend auf Kombinationen aus Solarthermie und Wärmepumpen werden aktuell am Markt mehr und mehr nachgefragt und inzwischen auch von vielen Systemanbietern angeboten. Die Integration der Wärmepumpe in ein Solarkombisystem ist aber um einiges komplexer als andere Zusatzheizenergiequellen, da auch die Energiequelle der Wärmepumpe (Verdampferkreis) mit dem gesamten System verknüpft sein kann. Neben den typischen Quellen Umgebungsluft oder Erdreich kann auch der Solarkollektor oder auch der Pufferspeicher als Energiequelle in unterschiedlichsten Schaltungen genutzt werden.

Experimental Investigations on the Optical and Thermal Characterization of a Parabolic Trough Collector.
2012
By: Rommel, M., Larcher, M., Frank, E., Bohren, A., Keller, M., Riedesser, F.:
Publisher: Proceedings EuroSun Conference, Rijeka, 2012.

Experiments for combined solar and heat pump systems
2012 - PDF 0.36MB
By: Peter Pärisch, Jonas Warmuth, Erik Bertram, Rainer Tepe
Document Number: 2012.019
The operation of ground coupled heat pumps in combination with solar collectors requires comprising knowledge of the component behavior under non-nominal conditions. Especially higher source and lower sink temperatures, varying flow rates, material characteristics and sophisticated control strategies have to be taken into account.
Experiments for combined solar and heat pump systems

Field test of a novel combined solar thermal and heat pump system with an ice store
2012
By: Loose A., Drück H.
Document Number: 2012.016

IEA Solar and Heat pump systems
2012
By: Hadorn J.-C.
Document Number: 2012.012

Impact of solar heat pump system concepts on seasonal performance - Simulation studies
2012 - PDF 0.4MB
By: Erik Bertram, Peter Pärisch, Rainer Tepe
Document Number: 2012.001
Solar and heat pump systems promise a significant efficiency improvement for heating systems. In this context three different system concepts are compared within TRNSYS simulations for solar heat pump systems with borehole heat exchangers and flat plate collectors. The concepts are examined with solar heat injection either to the hot side for domestic hot water preparation, to the cold side of the heat pump for thermal borehole support or in terms of a combination of both, hot and cold side injection. Connected to the hot side of the heat pump, the increase of the seasonal performance factor is 1.2. If connected to the cold side, the impact is typically below 0.2, but it significantly depends on the specific heat exchanger length and the collector area.

Investigation of combined solar thermal and heat pump systems - Field and laboratory tests
2012 - PDF 0.24MB
By: Loose A., Bonk S., Drück H.
Document Number: 2012.015
The technological combination of solar thermal systems with hear pumps continues to be a highly topical subject in the market of sustainable domestic hot water and space heating concepts.

Kompakte Solarheizung mit integrierter Systemüberwachung
2012 - PDF 0.24MB
By: Dr.-Ing. Ulrich Leibfried, Dipl.-Ing. Andreas Siegemund
Document Number: 2012.026
Ein großer Anteil der Endenergie wird für Heizwärme im Gebäudebestand verbraucht. Von einer zügigen Reduktion des Heizwärmeverbrauchs in diesem Sektor hängt maßgeblich das Erreichen der Klimaziele ab. Grundsätzlich haben Solartechniken zur Bereitstellung von Niedertemperaturwärme das Potential, kombiniert mit Gebäudesanierungsmaßnahmen einen Großteil der konventionell dafür aufgewandten Primärenergie zu ersetzen bzw. zu vermeiden. Als integrierte Systeme mit anderen EE-Techniken sind Einsparungen bis zu 100 % möglich. Dies ist nicht nur technisch, sondern auch wirtschaftlich mit heutigen Techniken möglich. Auf der anderen Seite erfordert die effiziente Integration von Solarthermie in die Hauswärmeversorgung und die gleichzeitige Reduktion des Verbrauchs eine hohe Fachkompetenz für jede individuelle Anlage. Dies ist ein Hauptbremsfaktor für die rasche Verbreitung von solar beheizten Häusern, bei denen der verbleibende Energiebedarf nur noch durch eine Unterstützung (fossil, elektrischer Strom aus dem Netz) gedeckt wird.
Kompakte Solarheizung mit integrierter Systemüberwachung

Measurement and modelling of a multifunctional solar plus heat pump systems from Nilan. Experiences from one year of test operation
2012 - PDF 0.44MB
By: Bengt Perers, Elsa Andersen, Simon Furbo, Ziqian Chen, Agisilaos Tsouvalas
Document Number: 2012.020
A multifunctional solar and heat pump unit from Nilan has been installed in the Performance Test Facility (PTF) at DTU Byg Denmark. It is part of the IEA Task 44 cooperation. Multifunctional means in this case: Hot water, Air heating, Ventilation, Air heat recovery, Air filtering and Floor heating. Nilan units, with additional air cooling and CO2 control, are also available. The unit has been in operation for more than one year. The aim has been to stress the system operation to different conditions in the lab, to learn more about the performance, but also to find possible improvements especially concerning advanced control. The operation into extreme states of high hot water demand and low air ventilation rates, has also been done to develop and validate a TRNSYS system model. The model was developed and validated for the first period of operation mainly winter and early spring conditions. Now the system has been in operation during all seasons and a full year model could be developed and validated. The model also includes new possibilities for solar collector loop and heat pump operation control.

Mobile solar assisted heat pump with direct expansion
2012 - PDF 0.7MB
By: Tomislav CUTIC, Josip PASANEC, Jakov BALETA, Tonko CURKO, Vladimir SOLDO
Document Number: 2012.005
This paper presents development of direct-expansion solar assisted heat pump system (DX-SAHP) along with the results of the trial testing. The main purpose of the developed unit with 300 l water tank is to heat up the water by 45 to 55°C. The unit is designed as a test rig enabling all necessary measurements to evaluate potential of solar irradiation for domestic water heating on various locations. A mobile and compact-in-form-and-size device has been developed representing a gradual step towards the commercial application. First set of measurements has been carried out explaining procedures in examination of the working parameters. The evaporation dynamics of the refrigerant in the collector/evaporator has been examined by means of quantitative infra-red thermography method. Computational fluid dynamics simulation has been carried out providing temperature distribution in the water tank. It was compared with the results obtained by temperature measurements by means of thermocouples that were placed in the water tank.

Modell eines unverglasten photovoltaisch-thermischen Kollektors basierend auf genormten Prüfverfahren
2012 - PDF 0.51MB
By: Martin Stegmann, Erik Bertram, Gunter Rockendorf, Stefan Janßen
Document Number: 2012.023
Existierende Modelle für photovoltaisch-thermische Kollektoren (PVT-Kollektoren) simulieren die Energieströme mit Hilfe von physikalischen Ansätzen. Daher benötigen sie zur Parametrierung konstruktive Details, was die Parametrierung aufwendig bis unmöglich macht. Zudem gelten die meisten dieser Modelle für verglaste PVTKollektoren. Aus diesem Grund wurde innerhalb des Projektes „Solare Gebäude-Wärmeversorgung mit unverglasten photovoltaisch-thermischen Kollektoren, Erdsonden und Wärmepumpen“1 ein neues Modell für unverglaste PVT-Kollektoren entwickelt, das zur Parametrierung ausschließlich Daten aus genormten Prüfverfahren benötigt. Dementsprechend lässt sich das Verhalten eines PVT-Kollektors mit für den Anwender leicht zugänglichen Daten ohne Kenntnis des inneren Aufbaus einschließlich der physikalischen Eigenschaften der Komponenten beschreiben. Das Modell wurde in einen TRNSYS-Type umgesetzt und während einer einjährigen Messung in einer Pilotanlage validiert.

Numerical analysis of heat pump models. Comparative study between equation-fit and refrigerant cycle based models
2012 - PDF 0.13MB
By: D.Carbonell, J.Cadafalch, P. Parisch, R. Consul
Document Number: 2012.004
An equation-fit (EF) and a refrigerant cycle (RC) based heat pump models have been implemented, validated, analyzed and compared to each other under steady state conditions for a brine to water heat pump. Models validations have been provided through comparisons against experimental data obtained at ISFH. The advantages and disadvantages of the both models have been identified. This work provides significant inputs regarding the selection of a specific model depending on the needs. Analysis of mass flow rates and calculations far from typical catalogue data (non-standard conditions) are provided. The main conclusions can be summarized as: i) the EF model is recommended when the boundary conditions for the estimation and prediction modes are the same and when non-standard conditions are considered; ii) the RC model is the chosen alternative when the mass flow rates are modified from the estimation to the prediction mode.

Performance of solar collectors under low temperature conditions: measurements and simulations results
2012 - PDF 0.31MB
By: Mircea Bunea, Sara Eicher, Catherine Hildbrand, Jacques Bony, Bengt Perers, Stéphane Citherlet1
Document Number: 2012.025
The performance of four solar thermal collectors (flat plate, evacuated tube, unglazed with rear insulation and unglazed without rear insulation) was experimentally measured and simulated for temperatures below ambient. The influence of several parameters (e.g. collector inlet temperature, air temperature, condensation) is investigated under different operating conditions (day and night). Under some conditions condensation might occur and heat gains could represent up to 55% of the total unglazed collector energy by night. Two TRNSYS collector models including condensation heat gains are also evaluated and results compared to experimental measurements. A mathematical model is also under development to include, in addition to the condensation phenomena, the frost, the rain and the long-wave radiation gains/losses on the rear of the solar collector. While the potential gain from rain was estimated to be around 2%, frost heat gains were measured to be up to 40% per day, under specific conditions. Overall, results have shown that unglazed collectors are more efficient than flat plate or evacuated tube collectors at low operation temperatures or for night conditions, making them more suitable for heat pump applications.
Performance of solar collectors under low temperature conditions: measurements and simulations results

Quantum chemical analysis of the structures of MgSO4 hydrates
2012
By: Iype, E., Ozen, C., Gaastra - Nedea, S.V., Rindt, C.C.M. & Zondag, H.A.

Review of component models for the simulation of combined solar and heat pump heating systems
2012
By: Haller M.Y., Betram E., Dott R., Afjei T., Ochs F., Hadorn J.-C.
Document Number: 2012.014

Sensitivity analysis of saturated steam production in parabolic trough collectors
2012
By: Loreto Valenzuela, David Hernández-Lobón, Eduardo Zarza - CIEMAT
Publisher: Energy Procedia 30, 765-774, (2012).

Solar and heat pump systems. An analysis of several combinations in Mediterranean areas
2012 - PDF 0.41MB
By: Moia Pol A., Moll V.M., Barcelo M.A., Nadal R.P.
Document Number: 2012.018
Recently the systems that combine solar thermal technology and heat pumps have been marketed to heat houses and produce domestic hot water. [1] This new combination of technologies is a welcome advancement, and need to be improved in the configuration. These systems will be cleaner as long as the electricity will improve the renewable energy fraction and they improve the efficiency. In Mediterranean areas, where there are less months of heating and higher temperatures, the solar thermal systems for heating have combined with water-water heat pump with a big storage tank can have better efficiency and less emissions than the geothermal heat pump system or a conventional heat pump.

Solar assisted heat pump for domestic hot water production
2012
By: Eicher S., Hildbrand C., Bony J., Bunea M., Hadorn J.-C., Citherlet S.
Document Number: 2012.008

Solar Thermal Plants for Industrial Process Heat in Tunisia: Economic Feasibility Analysis and Ideas for a New Policy
2012
By: Marco Calderoni, Marcello Aprile, Salvatore Moretta, Aristotelis Aidonis, Mario Motta
Publisher: Energy Procedia, Volume 30, 2012, Pages 1390–1400

System evaluation of combined solar & heat pump systems
2012
By: Dott R., Genkinger A., Afjei T.
Document Number: 2012.007

System-Jahresarbeitszahl grösser 4.0 mit Luft-Wasser Wärmepumpe kombiniert mit Solarwärme
2012
By: Haller M.Y., Frank E.
ISBN: 2012.013

Unglazed PVT collectors as additional heat source in heat pump systems with borehole heat exchanger
2012
By: Betram E., Glembin J., Rockendorf G.
Document Number: 2012.002

Uniform representation of system performance for solar hybrid systems
2012
By: Fedrizzi R., Malenkovic I., Melograno P., Haller M.Y., Schicktanz M., Herkel S., Ruschenburg J.
Document Number: 2012.009

Validation of the numerical model of a turnkey Solar Combi+ system
2012
By: D'Antoni M., Ferruzzi G., Bettoni D., Fedrizzi R.
Document Number: 2012.006

Wärmepumpensysteme mit unabgedeckten photovoltaisch- termischen Kollektoren
2012
By: Betram E., Stegmann M., Kundmüller K., Rosinski C.
Document Number: 2012.003

Analysis of Implementing Phase Change Materials in Open-Air Swimming Pools
January 2012
By: Zsembinszki G, Farid MM, Cabeza LF

Comparison of different collector technologies for temperatures above 150 °C
January 2012
By: Stephan Fischer, Patrick Frey
Publisher: Proceedings of the 'Internationale Konferenz für thermische Solarnutzung Gleisdorf 2012'

CPC-Vakuumröhren-Kollektoranlagen für Prozesswärme bis 160 °C
January 2012
By: Rolf Meißner
Publisher: Erneuerbare Energien Austria; EEA 4/2012

Hydraulische Einbindung von Speichern in solare Prozesswärmesysteme
January 2012
By: Mario Adam, Sebastian Schramm
Publisher: OTTI 2012 - 22. Symposium Thermische Solarenergie

Solar Update - January 2012
IEA SHC Newsletter: Volume 55
January 2012 - PDF 0.49MB
Editor: Pamela Murphy
In This Issue: - SHC Conference 2012 - Solar Cooling – What’s Next? - Solar Design Tools - New Work: Solar Cooling - Solar MarketPlace - New Work: Solar Process Heat - Saudi Arabia - Programme Information
Solar Update - January 2012

Use of Microencapsulated PCM in Buildings and the Effect of Adding Awnings
January 2012
By: Arce P, Castellón C, Castell A, Cabeza LF

Green Vertical Systems for Buildings as Passive Systems for Energy Savings
December 2011
By: Pérez G, Rincón L, Vila A, González JM, Cabeza LF


Smart Windows - Smart Collectors, Entwicklung und Charakterisierung von Überhitzungsschutzverglasungen für Gebäudeverglasungen und thermische Solarkollektoren
BHM 156 (2011) 11, S. 429 - 433
December 2011
By: Katharina Resch, Andreas Weber
Publisher: Springer Science+Business Media
--- Thermotropic glazings change their light transmittance from transparent to opaque upon reaching a certain threshold temperature reversibly. Such functional glazings can provide effective overheating protection for building façades or solar thermal collectors. The overall objective of the present study is to produce tailor-made thermotropic overheating protection glazings by systematic material pre-selection and formulation ...
Smart Windows - Smart Collectors, Entwicklung und Charakterisierung von Überhitzungsschutzverglasungen für Gebäudeverglasungen und thermische Solarkollektoren


Task 45 Highlights 2011
December 2011 - PDF 0.9MB
By: Jan Erik Nielsen
- Growing interest on “Smart District Heating” - Price winner: Towards 100 % solar fraction in Canada - Low solar heat production costs from large systems: 30 - 40 €/MWh
Task 45 Highlights 2011

Thermal Analysis of Including Phase Change Material in a Domestic Hot Water Cylinder
December 2011
By: de Gracia A, Oró E, Farid MM, Cabeza LF

Formulating a Building Climate Classification Method
November 2011 - PDF 0.52MB
By: Shaan Cory, Victoria University of Wellington, Wellington, New Zealand
When country champions participating in the International Energy Agency Task 40 project on Net Zero Energy Buildings were asked to classify their countries climate, six of the participating countries categorised the residential and non-residential buildings, placed in the same location, into different climate zones. This indicated that a climate zoning for buildings that is based purely on the external climate conditions is not sufficient. This paper proposes an adjustment of the traditional approach to climate classification for buildings by utilising thermal simulation to formulate a building climate classification. This produces a climate indicator that is founded on the locations external conditions and the reference buildings thermal performance.

Maximization of Heat Transfer in a Coil in Tank PCM Cold Storage System
November 2011
By: Castell A, Belusko M, Bruno F, Cabeza LF

Minimization of the Environmental Impact of Chrome Tanning: A New Process Reusing the Tanning Floats
November 2011
By: Morera JM, Bartolí E, Chico R, Solé C, Cabeza LF

Net Zero Energy Building: A Review of Current Definitions and Market Status in Belgium
November 2011 - PDF 0.11MB
By: Erwin Melecnik, Shady Attia, Stefan Van Loon, Irena Kondratenko
The recast of the European Performance of Buildings Directive (EPBD) requires the uptake of a definition of so called ‘nearly zero energy’ buildings (nZEBs). The Belgian Monarch is one of the first countries that set a definition for a ‘net zero energy house’ (NZEB) in 2009. However, this definition is not cast in stone. Every year the definition is revised for consistency with shortcomings and emerging issues. In fact, the Belgian definition raised many questions regarding (1) the net balance, (2) the application and calculation method (3) the indoor air quality and comfort, (4) energy use included in the balance, (5) the type of buildings, (6) the accepted renewable energy supply options, (7) the quality assurance and monitoring and (8) energy storage and the connection to the energy infrastructure. Therefore, the paper presents a review on the current Belgian definition and its market status in comparison with the international context. The aim of the paper is to review the current definition and proposes a more consistent definition.

Towards Net Zero Energy Buildings in Hot Climate, Part 2: Experimental Feedback
November 2011 - PDF 0.99MB
By: Aurélie Lenoir, Françoise Thellier, Phd PE, François Garde, Phd PE
The paper deals with the feedback of the measurements conducted in the first zero energy building “EnerPos” constructed in the French tropical Island of La Reunion. The building was designed to operate as long as possible by using passive techniques (cross natural ventilation, day-lighting). The purpose was to reach an annual energy ratio below 55kWh/m² (which is three times below the mean ratio of standard buildings in La Reunion) by avoiding energy consuming active systems such as air-conditioning and artificial lighting.

Towards Net Zero Energy Buildings in Hot Climates: Part 1, New Tools and Methods
November 2011 - PDF 0.87MB
By: François GARDE, PhD, PE, Mathieu David, PhD, PE, Aurélie Lenoir, Eric Ottenwelter, PE
The paper presents the results of a French National research project on Net zero energy design that just ended in December 2009. The project named « ENERPOS »has focused on the development of new methods and tools for the design of Net Zero Energy Buildings in hot climates. Three French university research laboratories and two HVAC practices have been involved in the project. The initial objectives of the ENERPOS project were: to develop new methods and tools for the design of net zero energy buildings in hot/tropical climates; to point out that the factor 3 is easy to meet. The energy index must be below 55 kWhe/m².year (net floor area); to gather the world of research and the professional sector for improving the use of new simulation tools; to do a transfer of knowledge from research to the professional fields once the proposed method validated. The methods and tools have been applied to the design of the first zero energy building of the French overseas departments located in La Reunion. The design and the construction of the building has perfectly matched with the realization of the ENERPOS project. The completion was in October 2008, just one year before the end of the ENERPOS project.

A3a-B3b: Monitoring Procedure for Solar Cooling Systems
A joint technical report of subtask A and B (D-A3a / D-B3b)
October 2011 - PDF 1.17MB
By: Assunta Napolitano, Wolfram Sparber, Alexander Thür, Pietro Finocchiaro, Bettina Nocke
Monitoring of installed solar assisted cooling systems represents a fundamental tool in order not only to optimize the monitored system itself, but as well to draw conclusions for a suited selection of design and control for future installations. This is especially true for a technology in an early stage of market penetration, as it is the case for Solar Heating and Cooling (SHC) systems. In fact to the date, only around 300 SHC are documented worldwide.
A3a-B3b: Monitoring Procedure for Solar Cooling Systems

Advances in Housing Retrofit
Processes, Concepts and Technologies
October 2011 - PDF 8.96MB
Editor: Sebastian Herkel and Florian Kagerer
With 60 documented retrofitted buildings, task 37 shows the different strategies and technologies available for advanced housing renovation in twelve participating countries. Detailed analysis shows that the step to Net Zero Energy Buildings (NZEB) is coming more to reality. This source book deals with processes, concepts, economy and technologies which are all relevant to achieve the approach of a significant reduction of the energy demand in combination with an efficient energy supply from renewable sources. This book represents an impressive source of information from collaborative work of more than 30 experts from 12 countries. The book gives a comprehensive insight in advances achieved within Task 37. It addresses professionals in the building sector as well as the scientific community. The book includes thematic chapters of Processes and design methodology, Building envelope, Ventilation, Energy supply systems, Solar Thermal in Renovation, Design Solutions and Performances of demonstration buildings.
Advances in Housing Retrofit


Energetic and Economic Aspects of Seasonal Heat Storage in Single and Multifamily Houses
October 2011 - PDF 0.21MB
By: Henner Kerskes, Harald Drück
Publisher: Institute for Thermodynamics and Thermal Engineering (ITW) Research and Testing Centre for Thermal Solar Systems (TZS)

ESCo GUIDE - Models for ESCo Services
October 2011 - PDF 2.08MB

IEA Task 45, Subtask C, deliverable 4 focuses on a relatively new approach, energy service companies (ESCos) emerging as a way to increase the uptake rate of large scale solar heat projects in larger buildings in the public and private sector. ESCos are companies that provide a full range of energy services with repayment in generated savings. They offer a complete package, from design, finance and installation to operation, including maintenance and fuel supply.

ESCo GUIDE - Models for ESCo Services

IEA SHC Task 48 Flyer
Quality Assurance and Support Measures for Solar Cooling
October 2011 - PDF 1.09MB
By: Task 48
A tremendous increase in the market for air-conditioning can be observed worldwide especially in developing countries. The results of the past IEA SHC Tasks and works on solar cooling (ex : Task 38 Solar Air-Conditioning and Refrigeration) on the one hand showed the great potential of this technology for building air-conditioning, particularly in sunny regions. On the other hand, it has been shown that further work is necessary in order to achieve economically competitive systems and which presents solid long term energy performance and reliability.
IEA SHC Task 48 Flyer

Manual for ESCo tool
October 2011 - PDF 0.08MB

The project "Expanding biomass and solar heating in public and private buildings via the energy services approach (Bio-Sol-ESCo)" is supported by the European Commission through the IEE program (contract no. IEE/07/264). The sole responsibility for the content of this report lies with the authors. It does not represent the opinion of the European Communities. The European Commission or the authors are not responsible for any use that may be made of the information contained therein.

Manual for ESCo tool

Net Zero Energy Building
Living and Working with an Equalised Energy Balance
October 2011
By: Karsten Voss, Eike Musall
Publisher: Detail.de
ISBN: ISBN 978-3-920034-80-5
Order - 49.00 EUR
Strategies and experiences from the perspective of planners and users: Net zero energy buildings, equilibrium buildings or carbon neutral cities – depending on location and the reasons for making the calculation, the numbers are run differently. The variety of terms in use indicates that a scientific method is still lacking – which is a problem not just in regard to international ommunication, but also with respect to planning processes as a response to energy challenges. The clarification and meaning of the most important terms in use is extremely important for their implementation.
Net Zero Energy Building

A3b: Monitoring Results
A technical report of subtask A (Pre-engineered systems for residential and small commercial applications)
September 2011 - PDF 16.64MB
By: Dagmar Jaehnig and Alexander Thuer
This report summarizes the monitoring activities on small-scale solar heating and cooling systems carried out within subtask A of IEA-SHC Task 38. All systems were monitored according to the monitoring procedure developed with Task 38. However, the level of detail varies from system to system. The monthly monitoring data has been filled into the Monitoring Excel Tool of Task 38.
A3b: Monitoring Results

Heat pump systems with borehole heat exchanger and unglazed PVT collector
September 2011 - PDF 0.89MB
By: Erik Bertram, Martin Stegmann, Gunter Rockendorf
Document Number: 2011.03
In the future energy supply both efficient heat pump systems for heat generation and photovoltaic (PV) electricity production will play an important role. Therefore, a heat pump system with a combined heat source consisting of a photovoltaic-thermal (PVT) collector and a borehole heat exchanger (BHE) is assumed to be a promising solution, because this particular combination provides a double benefit compared to conventional heat pump and PV-systems. First, the PV cells in the PVT collector are cooled, leading to lower cell temperatures and a higher PV efficiency. Second, the heat from the PVT collector raises the temperature level of the heat pump and the borehole heat exchanger. Consequently, the temperature increase of the heat source leads to a higher heat pump performance factor. Within a research project, a pilot system has been built up and experimentally evaluated. Simulation studies allow analyzing the system behavior and extrapolating the results.

On the Potential of Using Heat from Solar Thermal Collectors for Heat Pump Evaporators
September 2011 - PDF 0.4MB
By: Michel Y. Haller, Elimar Frank
Document Number: 2011.011
Solar thermal collectors can be used in combination with heat pumps to cover the heat demand for space heating and domestic hot water preparation. Different concepts exist for the combination of these two components into a system concept. Some of these concepts offer the ability to switch from using heat from the solar collectors directly to serve the demand to using heat from the solar collectors indirectly as a heat source for the evaporator of the heat pump. In the same system concept, the heat pump may be able to switch from using heat from the solar thermal collector to using an alternative low temperature heat source, such as ambient air. In this paper a general mathematical relationship is derived for determining whether using heat from solar collectors for the evaporator of the heat pump instead of using it directly is beneficial for the energetic performance of these systems. It is shown that there is a limit for the solar irradiation on the collector field above which using collector heat for the evaporator of the heat pump instead of using it directly is not advantageous. This irradiation limit depends on the characteristic performance curves of the solar collector and of the heat pump, as well as on the operating conditions, above all on the temperature levels of the heat sink and the different heat sources. Based on dynamic annual simulations, examples are shown for the maximum amount of heat that can be delivered from the collector to the heat pump evaporator at times where this mode of operation is of advantage for the performance of a solar and air source heat pump heating system. Both the mathematical relationship and the examples show that using solar collector heat for the evaporator of a heat pump is more beneficial for systems that operate with a large temperature difference between the non-solar heat source and the heat demand.

Development of a Thermo-Chemical Energy Storage for Solar Thermal Applications
August 2011 - PDF 0.77MB
By: H.Kerskes, B.Mette, F.Bertsch, S.Asenbeck, H.Drück
Publisher: Research and Testing Centre for Thermal Solar Systems (TZS)

Optimization of Net-Zero Energy Solar Communities: Effect of Uncertainty Due to Occupant Factors
August 2011 - PDF 0.38MB
By: Scott Bucking, Andreas Athienitis, Radu Zmeureanu
This paper applies an energy optimization methodology to evaluate the impact of occupant factors on the net-energy consumption or generation of a community of net-zero energy or near net-zero energy homes located in Montreal, Quebec. The building simulation software EnergyPlus was used for energy simulations and Canadian national statistics were used to model occupant behaviour. Results showed that diversifying building designs can decrease the impact of variability of occupant behaviour and reduce peak loads.


Overview on Solar Thermal Plus Heat Pump Systems and Review of Monitoring Results
August 2011 - PDF 0.44MB
By: Wolfram Sparber, Klaus Vajen, Sebastian Herkel, Jörn Ruschenburg, Alexander Thür, Roberto Fedrizzi, Matteo D’Antoni
Document Number: 2011.028
In recent years several companies started offering Solar thermal And Heat Pump Systems (SAHPS) on the European Market; already in 2009 an overview was given for example by Zörner W. et al (2009). For single family houses the systems are offered as pre defined package (kit) solutions. The systems deliver thermal energy for heating, domestic hot water and eventually as well cooling to the building usually without any further back up burner. The hydraulic schemes of the single systems, especially the degree of integration of the solar thermal and electrical driven heat pump unit vary significantly. The same is true for the used low temperature heat source for the heat pump where ground heat exchangers (horizontal and vertical), ambient air, specific solar collectors, phase change material storages (e.g. ice/water) and exhaust air are implemented.

Process and Reactor Design for Thermo-Chemical Energy Stores
August 2011 - PDF 0.77MB
By: Barbara Mette, Henner Kerskes, Harald Druck
Publisher: University of Stuttgart, Institute for Thermodynamics and Thermal Engineering (ITW)

Strategies for Reducing Peak Demand in Net-Zero Energy Solar Homes
August 2011 - PDF 0.62MB
By: José A. Candanedo and Andreas K. Athienitis
This paper investigates strategies to reduce peak loads in net-zero energy solar homes through the coordination of different design and operation strategies. The concept of net-zero energy homes, roughly defined as grid-tied houses that supply their energy needs with renewable energy sources over a period of interest, has gained in popularity in recent year. In spite of the clear advantages of this design approach, it is necessary to address the issue of peak loads and their impact on utility grids. Even if the net-zero energy goal is achieved during the period of assessment (e.g., one year), significant imbalances may be observed at smaller time scales. For instance, in northern latitudes, the generation of PV panels typically exceeds the energy use of the house during the summer months, while in winter the energy use of the house is larger than the generation of the PV system. Fluctuations of the ratio generation/use are also registered during the daily cycle. If a net zero energy house draws energy from the utility grid during peak periods, its impact on the grid will be similar to that of a conventional home, with the subsequent need for increased generation and transmission capacity.

C2C: Benchmarks for Comparison of System Simulation Tools – Solid Desiccant Simulation Comparison
A technical report of subtask C
July 2011
By: Paul Bourdoukan
In the last decade solar cooling technologies e.g. absorption, adsorption and desiccant evaporative cooling were subject to an increasing interest. In a solar desiccant cooling cycle, solar energy is used to regenerate a desiccant that dehumidifies moist air. The resulting dry air is cooled in a sensible heat regenerator and in an evaporative cooler and then is supplied to the building. By associating different elementary changes to moist air (dehumidification, sensible cooling and evaporative cooling); this technique uses water as a refrigerant and solar energy as a driving potential while electricity is only used in the auxiliaries, so the technique is environmentally-friendly.

Dynamic Thermal Performance of Alveolar Brick Construction System
July 2011
By: de Gracia A, Castell A, Medrano M, Cabeza LF

Integrierte Systemlösungen für Bestand und Neubau als Weg zum Erreichen der Klimaziele
German
July 2011 - PDF 7.73MB
By: Dr.-Ing. Ulrich Leibfried
Document Number: 2011.016
Der Solarwärme-Markt befindet sich im Umbruch. In den vergangenen Jahren bestand auf der einen Seite eine starke Abhängigkeit der Marktentwicklung vom Ölpreis und der Fördersituation, auf der anderen Seite entstand eine immer ausgeprägtere Konkurrenzsituation zu anderen Technologien der Erneuerbaren Energien, allen voran der Photovoltaik, aber auch Wärmepumpen oder Pellets. Dies ist eine Konkurrenz in der öffentlichen Wahrnehmung (heute: Solarenergie = Photovoltaik), aber auch der Wettbewerb um Installationskapazitäten, Dachflächen und Endkunden. In Zukunft geht es auch um die direkte ökonomische Konkurrenz für die Wärmeerzeugung, insbesondere durch die Kombination von PVAnlagen mit Luft-Wärmepumpen.

Solar Update - July 2011
IEA SHC Newsletter: Volume 54
July 2011 - PDF 1.9MB
Editor: Pamela Murphy
In This Issue: - Solar Thermal - SHC Roadmap - Calculate Solar Output - Assessing the Life Cycle of a Solar Heating Cooling System - Country Spotlight: Denmark - Solar and Heat Pumps - Working to Define NetZEBs - Solar Marketplace - Programme Information
Solar Update - July 2011

T.41.B.2: International Survey About Digital Tools Used by Architects for Solar Design
Subtask B: Methods and Tools for Solar Design
July 2011 - PDF 4.9MB
Editor: Miljana Horvat (Ryerson University, Canada), Marie-Claude Dubois (Université Laval, Canada), Mark Snow (University of New South Wales, Australia), Maria Wall (Lund University, Sweden)
The second stage of the project aimed at learning from users, i.e. architects, about their satisfaction with currently available tools and methods for solar design, as well as to identify obstacles that they are facing especially during the early design phase. An international survey was carried out in 14 participating countries during 2010. This deliverable is the full survey report, with a description of the survey and a detailed discussion of the results.
T.41.B.2: International Survey About Digital Tools Used by Architects for Solar Design

Validation of a Dynamic Model for Unglazed Collectors including Condensation. Application for Standardised Testing and Simulation in TRNSYS and IDA
July 2011 - PDF 1.72MB
By: Bengt Perers
Document Number: 2011.025
An improved unglazed collector model has been validated for use in TRNSYS and IDA and also for future extension of the EN12975 collector test standard. The basic model is the same as used in the EN12975 test standard in the QDT dynamic method. In this case with the addition of a condensation term that can handle the operation of unglazed collectors below the dew point of the air. This is very desirable for simulation of recharging of ground source energy systems and direct operation of unglazed collectors together with a heat pump.

A5: Installation, Operation and Maintenance Guidelines for Pre-Engineered Systems
A technical report of subtask A
June 2011 - PDF 0.37MB
Editor: Anita Preisler
The idea of this working group was to set up guidelines for installation, operation and maintenance based on experience of already existing pre-engineered small scale solar heating and cooling plants. Therefore, an end-user survey was invented by setting up a questionnaire including the relevant information for this purpose (see chapter 2.1). From the results of the interviews (see 2.2) it became clear that most of the analyzed solar heating and cooling plants can´t be categorized in “pre-engineered” systems. As a result it was decided in the working group that the information gained from the end-user survey should be used for a list of recommendations (see chapter 2.3) to bring the idea of pre-engineered systems forward.
A5: Installation, Operation and Maintenance Guidelines for Pre-Engineered Systems

Calibrating the Impact of a Photovoltaic Thermal Mechanical Ventilation Heat Recovery System on the Delivery of Net Zero-energy Housing in Scotland
June 2011 - PDF 0.15MB
By: Dr. Masa Noguchi, Dr. Yoshiki Higuchi, Prof. Mitsuhiro Udagawa, Prof. Jun-Tae Kim, Billy Kirkwood
This study was conducted with the aim to assess the potential performance of a photovoltaic thermal mechanical ventilation heat recovery (PV/T MVHR) system. The device is currently considered for the application to the Z-en house project undertaken by Scottish homebuilder, ROBERTRYAN Homes, in collaboration with ZEMCH Network academic partners. The house’s whole energy demand was calibrated based on the UK government’s standard assessment procedure for energy rating of dwellings, known as SAP, while the PV/T performance was estimated using an ‘EESLISM’ energy and environmental design simulation tool developed by Kogakuin University. This study concluded that PV generates heat, which makes the fresh air running under the PV roof 10-15°C warmer than the outside temperature even during the Scottish winter and this warm air extracted from roof integrated PV modules can be used to drastically reduce the domestic space-heating demand. Thus, the building integrated PV/T MVHR system was considered as one of the effective means to facilitate the net zero-energy operation of housing in cool and cold climates.


Energy Performance, Comfort and Lessons Learned From a Near Net-Zero Energy Solar House
June 2011 - PDF 1.63MB
By: Matt Doiron, P.Eng., William O’Brien, Andreas Athienitis, Ph.D., P.Eng.
This paper examines the performance of a Canadian near net-zero energy solar house known as ÉcoTerra located near Montreal. The total energy consumption and energy end-use breakdown are presented and several findings from the energy analysis are discussed such as the importance of occupant behavior, occupant comfort and the improvements that could lead to achieving full net-zero energy performance . It was demonstrated that large reductions in energy consumption can be achieved with little effect on comfort. Occupants affect the loads significantly and need to be educated and given specific feedback about their energy use patterns in order to help them adjust their behavior for energy efficiency. Although already far below the typical home in energy consumption (about 90%), this paper shows how ÉcoTerra could consume even less energy and how similar houses could be designed or upgraded to achieve net zero energy.

Environmental design and performance of the ENERPOS building, Reunion island, France
June 2011 - PDF 0.59MB
By: Maximilien FRANCO, George BAIRD, François GARDE, Aurélie LENOIR
Located in the French tropical Island of La Reunion in the Indian Ocean, the 681 m2 NFA ENERPOS Building was inaugurated in January 2009. The building is located on the Saint Pierre Campus of the University of Reunion Island and was designed from the outset to be a net zero energy project with mixed-mode air conditioning systems in some areas. This paper reports the results of a recent user survey of the staff and students who use the building, and relates the users' perceptions to some of the environmental control systems installed. Indications are that the users have been able to achieve thermally comfortable conditions for much of the year without recourse to the air conditioning systems. However, there is still the need for more readily available information on how to get the best from the windows and the ceiling fan systems for the ever-changing cohorts of students, and staff who may only use the classrooms intermittently. For the more permanent staff group, preliminary indications are of improved health and productivity by comparison with their experience of other buildings.

Field Test for Performance Monitoring of Combined Solar Thermal and Heat Pump Systems
June 2011 - PDF 1.72MB
By: Anja Loose, Harald Drück, Nadine Hanke and Frank Thole
Document Number: 2011.018
The technological combination of solar thermal systems with heat pumps continues to be a highly topical subject in the context of sustainable heating concepts, especially for single family houses. In the past years more and more different types of such combined systems have been developed and introduced to the market for both domestic hot water and space heating. The main background for this development is the expected increase of efficiency for both, the solar heating system and the heat pump, and further synergetic effects in comparison to separate conventional heating systems due to the mutual synergetic interaction of the components and high system integration. This can lead to high system performances, thus to a decrease of electric power consumption and emission of greenhouse gases like CO2, respectively [Loose, 2010].

Montreal PhD Summer Workshop on Net-Zero Energy Solar Buildings: Theory, Modelling, and Design
June 20-25, 2011
June 2011 - PDF 1.31MB
By: Yichao Chen
This the actual program for the Montreal PhD Summer Workshop on Net-Zero Energy Solar Buildings: Theory, Modelling, and Design. The program includes welcome, workshop schedule, participant list and speaker bios.
Montreal PhD Summer Workshop on Net-Zero Energy Solar Buildings: Theory, Modelling, and Design

Solar and Heat Pump Systems: Status of IEA SHC Task 44 & HPP Annex 38
June 2011 - PDF 2.24MB
By: Jean-Christophe Hadorn
Document Number: 2011.009
Over the past few years, systems that combine solar thermal technology and heat pumps have been marketed to heat houses and produce domestic hot water. This new combination of technologies is a welcome advancement, but standards and norms are still required for its long term successful commercialization.

Test System for the Investigation of the Synergy Potential of Solar Collectors and Borehole Heat Exchangers in Heat Pump Systems
June 2011 - PDF 0.83MB
By: Peter Pärisch, Maik Kirchner, Wolfgang Wetzel, Sheila Voß, Rainer Tepe
Document Number: 2011.024
The wide variety of solar assisted heat pump systems makes it difficult to assess the energetic behavior and to find optimized solutions. In order to come to a deeper understanding, scientists from different subjects are cooperating with the aim to analyze the synergy effects of solar heat and heat pumps with borehole heat exchangers (BHE).

Users' Behavior and Energy Performances of Net Zero Energy Buildings
June 2011 - PDF 1.18MB
By: Aurélie Lenoir, Shaan Cory, Michael Donn and François Garde
This paper proposes to study the role and the user in the operation of the building and its impact on energy performance of buildings. Some comparisons of the energy consumption and production of the buildings were calculated during the design stage are made against the measured data of the consumption and production of the buildings when they are being utilized. It indicated that the differences between the design calculations and the measurements can be up to 50%. The method used in this study is to restart the process of calculation for the energy balance that was adopted during the design phase and to establish the right hypothesis on the schedules, utilization of appliances, and comfort level of the building that lead to a good evaluation of the energy consumed in the actual buildings operation. This feedback on the tools used by the design offices will allow making improvements in these tools.

Behaviour of Green Facades in Mediterranean Continental Climate
April 2011
By: Pérez G, Rincón L, Vila A, González JM, Cabeza LF

Design and Performance of Energy-Efficient Solar Residential House In Andorra
April 2011
By: Llovera J, Potau X, Medrano M, Cabeza LF

Development of a Test Standard for PCM and TCM Characterization
Part 1: Characterization of Phase Change Materials
April 2011 - PDF 3.01MB
By: Stefan Gschwander, Ana Lazaro, Luisa F. Cabeza, Eva Günther, Magali Fois, Justin Chui
As the knowledge of the behavior of heat storage materials is very essential to design an application it is important to characterize these materials. The important characteristics of heat storage materials are their heat capacity, the thermal conductivity, the density and viscosity all in dependency on temperature. All these parameters are necessary to size a thermal storage or to develop heat exchanger to charge and discharge such storages. Simulations are also very often used to analyze applications or components of it and their interaction with the storage material. Such simulations will not be valid if the used material data is not describing its behavior in a correct way, so also for this purpose good and reliable results from the characterization are needed.
Development of a Test Standard for PCM and TCM Characterization

From Low-Energy to Net Zero-Energy Buildigns: Status and Perspectives
April 2011 - PDF 0.93MB
By: Karsten Voss, Eike Musall, and Markus Lichtmeß
“Net Zero-Energy Building” has become a popular catchphrase to describe the synergy between energy-efficient building and renewable energy utilisation to achieve a balanced energy budget over an annual cycle. Taking into account the energy exchange with a grid overcomes the limitations of energy-autonomous buildings with the need for seasonal energy storage on-site. Although the expression, “Net Zero-Energy Building,” appears in many energy policy documents, a harmonised definition or a standardised balancing method is still lacking. This paper reports on the background and the various effects influencing the energy balance approach. After discussing the national energy code framework in Germany, a harmonised terminology and balancing procedure is proposed. The procedure takes not only the energy balance but also energy efficiency and load matching into account.
From Low-Energy to Net Zero-Energy Buildigns: Status and Perspectives

Kunststoffe in solarthermischen Kollektoren - Anforderungsdefinition, Konzeptentwicklung und Machbarkeitsbewertung
Abschlussbericht im Forschungsvorhaben Solarthermie2000plus; THi Ingolstadt, 30.04.2011
April 2011
By: Christoph Reiter, Christoph Trinkl, Wilfried Zörner
--- Die Hersteller von Solarwärmeanlagen bemühen sich stetig um die Senkung der Herstellkosten, vor allem des Solarkollektors, des weithin sichtbaren „Herzstücks“ jeder Solarwärmeanlage. Mas- siv steigende Weltmarktpreise für die hauptsächlich eingesetzten Werkstoffe Aluminium und Kup- fer laufen den Bemühungen nach weiteren Kostensenkungen in der Kollektorfertigung aber leider entgegen. Der Einsatz von alternativen Werkstoffen, wie etwa Kunststoffen, für Solarkollektoren wird daher als vielversprechend angesehen ...

Materials Used as PCM in Thermal Energy Storage In Buildings: A Review
April 2011
By: Cabeza LF, Castell A, Barreneche C, de Gracia A, Fernández AI

Modeling techniques of TCM/PCM-materials on micro-, meso- and macro scales
April 2011 - PDF 1.43MB
By: Paul Gantenbein & Camilo Rindt
In the Task 4224, a large group of thermal energy storage experts collaborated with the aim to further develop materials for compact thermal energy storage and systems for the integration of compact thermal energy storage in heating or cooling systems. The activities were performed from 2009 until the end of 2012 and were divided in working groups, according to the structure depicted here. The groups worked on a number of deliverables, that are condensed into reports.
Modeling techniques of TCM/PCM-materials on micro-, meso- and macro scales

Combining Heat Pumps With Solar Energy For Domestic Hot Water Production
February 2011 - PDF 0.11MB
By: Ralf Dott, Andreas Genkinger, Fabia Moret, Thomas Afjei
Document Number: 2011.008
The knowledge about the reduction of heat demand in dwellings has reached a sophisticated level, especially regarding the building envelope. The next step are net zero energy buildings, where the total amount of yearly energy demand is covered by building integrated generation of energy from renewable sources. The most promising technologies are solar heat panels, photovoltaics and heat pumps. But it is not yet obvious which combination is best.

Five Satellite Products Deriving Beam and Global Irradiance Validation on Data from 23 Ground Stations
February 2011 - PDF 2.22MB
By: Pierre Ineichen, University of Geneva
Models converting satellite images into the different radition components become increasingly performing and give often better estimation of solar irradiance availability that ground measurements if the station is not situated in the near vicinity of the application. Five different satellite products deriving both global and beam irradiance are validated against data from 23 ground sites. The main conclusions are: - the global irradiance is retrieved with a negligible bias and an average standard deviation around 16% for best algorithm. For the beam irradiance, the bias is around several percents, and the standard deviation around 35%, - the main deviation comes from the knowledge of the aerosol optical depth, - the high latitude sites give not poorer results than the other sites.
Five Satellite Products Deriving Beam and Global Irradiance Validation on Data from 23 Ground Stations

A PV/T and heat pump based trigeneration system model for residential application
2011 - PDF 0.54MB
By: Joyce A.,Coehlo L., Martins J., Tavares N., Pereira R., Magalhaes P.
Document Number: 2011.013
A solar trigeneration system, based on photovoltaic-thermal (PV/T) collectors, photovoltaic (PV) modules and a heat pump unit for heating and cooling, is modelled to forecast the thermal and electric yields of the system. The aim of the trigeneration system is to provide enough electricity, domestic hot water (DHW), heating and cooling power to meet the typical demand of an urban single family dwelling with limited roof area and allow the household to achieve a positive net energy status. The PV/T collectors and PV modules provide the electricity while the former also powers the DHW component of the trigeneration system. The heating and cooling components rely on a vapour compression cycle heat pump unit powered by electricity. In Fong et al. (2010), solar-powered electric compression refrigeration was found to have the most energy saving potential in subtropical climates. Thus, a heat pump based cooling system is a cost effective solution for residential applications in Lisbon, Portugal. Thus, according to the dwelling's location, construction details and energy demand patterns, the model computes the system's net results by comparing the dwelling demand with the trigeneration system supply. The paper presents a breakdown of the proposed trigeneration system model and describes each component briefly. Preliminary results produced by the model are presented and analysed in order to identify possible ways of improving the overall system performance.

Analysis on the Operating Characteristics of Solar Water Heater in Combination with Air Source Heat Pump Water Heater
2011 - PDF 0.15MB
By: Jiang Ai-guo, Wang Xiao-zhong
Document Number: 2011.002
Solar water heater cannot supply hot water in cloudy and raining days alone. It in combination with air source heat pump water heater (ASHPWH) is a good choice. The performance of the two kinds of water heater is affected by the water temperature. It is important that the ASHPWH operate at a right temperature of the water. A solar water heater with 4m2 flat-plate collector assisted by a 1.5kW ASHPWH is studied in this paper. The results show that both the collector efficiency of the solar water heater and the COP of the ASHPWH system decreases as the water temperature increases. The highest and lowest collector efficiency of the solar water heater are 54.4% and 45.6% respectively. The COP of the ASHPWH system ranges from 6.48 to 2.61 as the water temperature increases. Operating sequences of these two kinds of water heater affect solar energy utilization ratio and the power input of the ASHPWH system.

Current work on performance evaluation of solar thermal and heat pump hybrid systems within IEA SHC Task 44 / HPP Annex 38 and IEE QAiST Project
2011
By: Malenkovic I.
Document Number: 2011.020

Development of performance test methods for combined solar thermal and heat pump systems
2011
By: Loose A., Mette B., Bonk S., Drück H.
Document Number: 2011.019

Domestic solar/heat pump heating systems with low and high efficiency collectors in Mediterranean areas
2011 - PDF 0.2MB
By: Andreu Moià Pol, Miquel Alomar Barceló, Ramon Pujol Nadal, Víctor Martínez Moll,
Document Number: 2011.022
Recently systems that combine solar thermal technology and heat pumps have been marketed to heat houses and produce domestic hot water. This new combination of technologies is a welcome advancement, and need to be improved in the configuration. These systems will be cleaner as long as the electricity will improve the renewable energy fraction and they improve its efficiency. In Mediterranean areas, where there are less months of heating, the solar thermal systems for heating have a several months with overheating; this fact is an obstacle for the designers and the users. The combination of solar-thermal collectors and heat pumps provides interesting possibilities for innovative and energy efficient heating systems with a high fraction of solar energy. Despite is high cost these systems are gaining more and more importance due to the rising cost of the limited fossil resources. Several configurations of solar systems have been studied. Some of them use cheap collectors that make the investment more attractive.

Einfluss der Neigung auf den äusseren konvektiven Wärmeübergang unabgedeckter Absorber
2011
By: Philippen D., Haller M.Y., Frank E.
Document Number: 2011.026

Energetic, economical and geographical evaluation of different solar thermally driven heat pump systems for heating and cooling around Europe
2011 - PDF 0.72MB
Document Number: 2011.027
The present work shows an approximation method for solar designers to evaluate the feasibility of solar thermal plants in Europe depending on the type of solar collector used, the coordinates where the system is going to be installed and the types of summer and winter demands to be covered classified by the design temperatures needed for the processes. This method evaluates the maximum amount of energy able to be captured from the sun to satisfy the needs of a residential building in terms of Domestic Hot Water (DHW), heating and cooling demands. The final result of the work is a matrix where it is evaluated the combination among: · Two different technologies of collectors: Flat Plate and evacuated tube collectors · Two different ways of covering heating demands. Thermal collectors combined with thermal back up and thermal collectors combined with Thermally Driven Heat Pumps(TDHP). · Energetic and economical results plotted in maps will permit easy comparisons among the configurations.

Entwicklung von Prüfverfahren für Anlagen mit Kombination aus Wärmepumpen und Solarthermie
2011
By: Haller M.Y.
Document Number: 2011.12

Monitoring and simulation of a passive house with innovative solar and heat pump system
2011 - PDF 0.22MB
By: F. Ochs, S. Peper, J. Schnieders, R. Pfluger, M. Bianchi Janetti, W. Feist
Document Number: 2011.023
The very low energy demand of passive houses, which has been proven by measurement, is in the range of the target of the Nearly-Zero-Energy directive. Hence, the foundation of a development is already laid today which will be introduced in Europe in 9 years (the recast Energy Performance of Buildings Directive, EPBD, Directive 2010/31/EU). Due to the very high level of thermal insulation and the resulting very low heating demand and heating load, passive houses show a well balanced load duration curve. The domestic hot water demand can be covered with a high fraction by solar energy. However, solar heating of passive houses is under most circumstances poorly effective as the heating demand is confined to few months in main winter.

Nullenergie Gebäude
2011
By: Karsten Voss and Eike Musall
Vol.1 Net Zero Energy source book in German-language

Optimierung der Einbindung eines 28 m3 – Wasserspeichers in die Beheizung und die WW-Versorgung mit WP und Solartermik
2011
By: Kurmann P., Ursenbacher T.
Document Number: 2011.015

Parametric analysis of a novel Solar Combi+ configuration for commercialization
2011
By: D'Antoni M. Bettoni D. Fedrizzi R. Sparber W.
Document Number: 2011.006

Performance testing of solar thermal systems combined with heat pumps
2011
By: Mette B., Drück H., Bachmann S., Müller-Steinhagen H.
Document Number: 2011.021

Progettazione e analisi numerica di un quadro di controllo standardizzato per applicazione Solar Combi+ di piccola taglia
2011
By: Bettoni D., D'Antoni M., Fedrizzi R.
Document Number: 2011.004

Simulation study on the performance of solar and geothermal hybrid R22 heat pump
2011 - PDF 0.48MB
By: Byun Kang, Jae-Kyeong OH, Cha-Sik Park, and HongHyun Cho
Document Number: 2011.014
A simulation study on the performance of the solar and geothermal hybrid heat pump system by using R22 was carried out with a variation of operating conditions. The system was consisted of solar system (concentric evacuated tube solar collector, heat storage tank) and geothermal heat pump system (double pipe heat exchanger, electric expansion valve and compressor). As a result, the heating capacity is linearly decreased from 13.2 kW to 11 kW as the heat pump operating temperature increases from 40oC to 48oC. Besides, the heating COP decreases by 13.6% from 4.4 to 3.8 when the ground temperature raises 13oC to 17oC. The heating capacity is increased by 4.7% from 11.5 kW to 12.2 kW and the heating COP rises by 19% from 4.7 to 5.6.

Steigert die Nutzung von Solarkollektoren als Wärmequelle für Wärmepumpen die System-Arbeitzahl?
2011
By: Haller M.Y., Frank E.
Document Number: 2011.010

THERMAL PERFORMANCE OF A COMPACT SOLAR ASSISTED HEAT PUMP
2011 - PDF 0.25MB
By: Samuel Luna Abreu, Sérgio Pereira da Rocha and Joaquim Manoel Gonçalves
Document Number: 2011.001
Heat Pumps to supply hot-water for domestic consumption are widely used especially in countries where electric energy is also employed for this purpose. Brazil is a country where most of the domestic hot-water requirements are supplied by electric energy, but basically it is done with electric showers. This solution, although cheap for the user in terms of initial investment, has a strong impact on the generation, transmission and distribution – GTD costs. Electric showers have an average power of more than 5 kW, and are a strong contribution to the residential electric energy end use (around 24% in Brazil (Procel/Eletrobras, 2007)). Also, they are partially responsible by the “peak hour” of the power consumption in the residential sector that occurs from 18:00 to 21:00 hours in Brazil. The consumption growth observed in the last years leads to a lack of reliability of the system, and energy efficiency measures are necessary to avoid risks and to postpone investments in GTD. Solar hot-water systems have been used as an effective way to mitigate the problems caused by the intensive use of electric showers, however, this solution faces some problems when used in low-income housing units: absence of hot-water piping, inadequate structure to install collectors and thermal storage, increase of specific thermal energy costs for small systems, and use of an electric shower as the backup system.

A Transient Model For Radiant Heating And Cooling Terminal Heat Exchangers Applied To Radiant Floors And Ceiling Panels
January 2011 - PDF 0.08MB
By: Dani Carbonell, Jordi Cadafalch and Ricard Consul

Radiant heating and cooling terminal heat exchangers have become very popular in the last decades because of the thermal comfort they provide and the energy savings potential respect to conventional systems.

A Transient Model For Radiant Heating And Cooling Terminal Heat Exchangers Applied To Radiant Floors And Ceiling Panels

Barriers to Solar Process Heat Applications
January 2011
By: Christian Faber, Anette Anthrakidis, Marco Lanz, Mario Adam, Sebastian Schramm
Publisher: ISES Solar World Congress 2011

Drucklose, entleerende solarthermische Systeme für Kunststoffkollektoren
ee-erneuerbare energie 2011-01
January 2011
By: Robert Hausner, Gernot M. Wallner
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- In Österreich sind traditionsgemäß vorwiegend geschlossene, druckbehaftete thermische Solarsysteme im Einsatz, wobei die Komponenten des Solarkreises überwiegend in konventionellen Materialien ausgeführt sind. Ein vermehrter Einsatz von Polymerwerkstoffen bei Kollektoren und Systemen bedingt weitgehend drucklose Systeme nach dem Drain-Backprinzip. Zielsetzung dieses IEA SHC Task39-Projektes war es, drucklose Systeme mit dem Fokus auf die Entwicklung von Vollkunststoffsystemen, in einem Vergleich mit Standardsystemen, näher zu betrachten ...
Drucklose, entleerende solarthermische Systeme für Kunststoffkollektoren

Heating and Cooling With Heat Pumps In Swiss Residential Buildings
January 2011 - PDF 0.38MB
By: Ralf Dott, Carsten Wemhöner,Thomas Afjei
Document Number: 2011.007
The energy demand for heating decreases in highly-insulated dwellings. Comfort cooling becomes more important due to higher thermal loads and rising summer thermal comfort demands. Heat pumps can provide space heat and domestic hot water but also may provide cooling. Heat sources of heat pumps often can be used for passive cooling. The aim of the project is to support energy efficient solutions for heating and cooling of residential buildings. First step should always be reducing the heat loads by e.g. shading and night-time ventilation.

Kombination Solarthermie / Wärmepumpe inkl. Abwasser-Wärmerückgewinnung (AWR)
German
January 2011 - PDF 0.13MB
By: W. Lerch, A. Heinz, C. Fink, J. Breidler, W. Wagner
Document Number: 2011.017
In Niedrigenergiehäusern ist der Anteil des Wärmebedarfs für das Warmwasser am Gesamtwärmebedarf relativ hoch und kann bei Passivhäusern sogar größer sein als der Heizwärmebedarf. Zusätzlich sind für das Erreichen des Warmwasserkomforts höhere Temperaturen erforderlich als dies für den Vorlauf z. B. bei einer Fußbodenheizung nötig ist. Dadurch steigt die Relevanz des Energiebedarfs für Warmwasser mit zunehmendem Dämmstandard der Gebäude. Aus diesen Gründen wird auch die Nutzung der im Abwasser vorhandenen Wärme über eine Abwasser-Wärmerückgewinnungsanlage mit sinkendem Heizwärmebedarf interessant.

Polymere Materialien für Solarthermische Systeme
ee-erneuerbare energie 2011-01
January 2011
By: Michael Köhl, Michaela Meir
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- Der wachsende Markt für solarthermische Anlagen ermöglicht den Einsatz von Polymermaterialien, die durch kostengünstige Massenproduktion ein großes Kosten- Einspar-Potential aufweisen. Sie sind allerdings nur einsetzbar, wenn ihre Gebrauchsdauer vergleichbar mit denjenigen konventionellen Produkten ist.
Polymere Materialien für Solarthermische Systeme

Solare-Prozesswärme-Standards
January 2011
By: Mario Adam, Martina Dreher, Sebastian Schramm, Anette Anthrakidis, Christian Faber, Marco Lanz
Publisher: World Sustainable Energy Days 2011

C5: Heat Rejection
Technical Report of Subtask C, Work Package 5
December 2010 - PDF 1.21MB
By: Harald Moser, Erich Podesser, Daniel Mugnier, Peter Schnider, Tomas Núñez and Annett Kühn
Editor: Lars Reinholdt
The choice of heat rejection solution is often critical to the electrical power consumption of the thermally driven chiller. The possible lowering of the electrical consumption compared to traditional cooling solutions is in many cases the driving force towards utilizing the solar energy for cooling. Therefore the total electrical consumption is crucial. Investigation of realized systems shows that up to 50-60 % of the total electrical consumption is used in the heat rejection system, depending on the type and design of the system.
C5: Heat Rejection

D3: Life Cycle Assessment of Solar Cooling Systems
A technical report of subtask D
December 2010 - PDF 1.64MB
By: Marco Beccali, Maurizio Cellura, Fulvio Ardente, Sonia Longo, Bettina Nocke, Pietro Finocchiaro, Annelore Kleijer, Catherine Hildbrand, Jacques Bony, Stèphane Citherlet
Editor: Marco Beccali
Renewable energy (RE) systems can certainly allow reducing the use of fossil fuels and the related environmental impacts for building air-conditioning. It is more and more clear that good design of the system and appropriateness of the technology are a key issues on the way to maximise the benefits. Therefore, for systems dealing with solar thermal systems, it has been experienced that wrong choices among RE technologies to meet specific applications could also lead to negative effects in terms of Primary Energy (PE) saving.
D3: Life Cycle Assessment of Solar Cooling Systems

Zero Energy Building: A Review of Definitions and Calculation Methodologies
December 2010 - PDF 0.18MB
By: A.J. Marszala, P.Heiselberg, J.S.Bourrelle, E.Musall, K.Voss, I.Sartori, A.Napolitano
The concept of Zero Energy Building (ZEB) has gained wide international attention during last few years and is now seen as the future target for the design of buildings. However, before being fully implemented in the national building codes and international standards, the ZEB concept requires clear and consis- tent definition and a commonly agreed energy calculation methodology. The most important issues that should be given special attention before developing anewZEB definition are: (1) the metric of the balance, (2) the balancing period, (3) the type of energy use included in the balance, (4) the type of energy balance, (5) the accepted renewable energy supply options, (6) the connection to the energy infrastructure and (7) the requirements for the energy efficiency, the indoor climate and in case of gird connected ZEB for the building–grid interaction. This paper focuses on the review of the most of the existing ZEB definitions and the various approaches towards possible ZEB calculation methodologies. It presents and discusses possible answers to the abovementioned issues in order to facilitate the development of a consistent ZEB definition and a robust energy calculation methodology.

Defining nearly zero-energy housing in Belgium and the Netherlands
Subtask A: Definitions and Implications
November 2010 - PDF 0.33MB
Europe expects the housing sector to evolve towards ‘nearly zero-energy’ dwellings. Meanwhile, general terms and research, marketing and legal definitions considering such dwellings have already been introduced. Appraisal of existing definitions is now needed for further policy development. This paper examines what nearly zero-energy terms can be expected to be adopted in Belgium and the Netherlands. The research method uses an interview method based on innovation diffusion theory. The analysis traces the regional adoption trajectory of relevant definitions and examines the opportunities and barriers for the inclusion of existing definitions in regional energy policy. The analysis shows that—whilst international prominence of the terms ‘net zero energy’ and ‘net zero carbon’, in addition to ‘low energy’ and ‘passive house’, is observed—in Belgium and the Netherlands ‘passive house’ and ‘energy neutral’ are preferred. The research findings indicate that the adoption of already existing definitions for nearly zero-energy houses will depend on the region and can prove a very complex process with several conflicting issues. Terms should be clearly defined and used at all political and marketing levels. It is recommended to enhance the relative advantage, demonstrability, visibility and compatibility of favoured definitions by policy initiatives.

C1: State of the Art - Survey on New Solar Cooling Developments
A Technical Report of Subtask C
October 2010 - PDF 2.03MB
Editor: Robert Ghirlando
This report is the result of the work undertaken by one of the working groups set up as part of Task 38 of the Solar Heating and Cooling Programme of the International Energy Agency. The remit of Task 38 was to study Solar Air-conditioning and Refrigeration. The work was split into four sub-tasks and these were further sub-divided into smaller sub-tasks. One such sub-task CI, forming part of the sub-task C on Modelling and Fundamental Analysis, was set up to carry out a survey on new solar cooling developments, a State-of-the-Art report. This report documents the results of that work.
C1: State of the Art - Survey on New Solar Cooling Developments


Economic Viability of a Molten Carbonate Fuel Cell Working with Biogas
October 2010
By: Castell A, Margalef P, Medrano M, Cabeza LF, Samuelsen S

Effect of Microencapsulated Phase Change Material in Sandwich Panels
October 2010
By: Castellón C, Medrano M, Roca J, Cabeza LF, Navarro ME, Fernández AI, Lázaro A, Zalba B

Selection of Materials with Potential in Sensible Thermal Energy Storage
October 2010
By: Fernández AI, Martínez M, Segarra M, Martorell I, Cabeza LF

Solar and Heat Pump Systems
IEA SHC Task 44 & HPP
October 2010 - PDF 0.06MB
By: Jean-Chistophe Hardon
Document Number: 2010.004
Over the past few years, systems that combine solar thermal technology and heat pumps have been marketed to heat houses and produce domestic hot water. This new combination of technologies is a welcome advancement, but standards and norms are still required for its long term successful commercialization.

Source froide solaire pour pompe à chaleur avec un COP annuel de 5 généralisable dans le neuf et la rénovation
Swiss
October 2010 - PDF 2.97MB
By: Floriane Mermoud, Pierre Hollmuller, Bernard Lachal, Jad Khoury
Le projet Solarcity, basé à Satigny (GE), est un nouveau complexe immobilier de 9550 m², comprenant 78 logements répartis dans 4 bâtiments divisés en 10 immeubles. L’enveloppe énergétique a été conçue pour respecter le standard Minergie, et le système de chauffage est basé sur une pompe à chaleur par immeuble utilisant comment source froide 1160 m² de capteurs solaires non couverts.

Experimental and Numerical Investigations on Thermo-Chemical Heat Storage
September 2010 - PDF 0.31MB
By: Henner Kerskes, Barbara Mette, Sebastian Asenbeck, Harald Drück and Hans Müller-Steinhagen

Life Cycle Assessment of the Inclusion of Phase Change Materials (PCM) in Experimental Buildings
September 2010
By: De Gracia A, Rincón L, Castell A, Jiménez M, Boer D, Medrano M, Cabeza LF

Solar Seasonal Store
September 2010
By: Philip Griffiths

T.41.B.1: State-of-the-Art of Digital Tools Used by Architects for Solar Design
Subtask B - Methods and Tools for Solar Design
September 2010 - PDF 1.56MB
Editor: Marie-Claude Dubois (Université Laval) and Miljana Horvat (Ryerson University)
The first stage of work in Subtask B was to review and analyze the current software landscape available for architects, with a focus on early design phase (EDP) decisions of building projects, and to identify missing software tools and/or missing functionalities required for encouraging and enhancing solar design of buildings and the integration of solar systems and technologies. This report includes 56 software packages which were classified in three categories: CAAD (computer-aided architectural design) tools, visualization tools and simulation tools.
T.41.B.1: State-of-the-Art of Digital Tools Used by Architects for Solar Design

Task 36 Poster at Eurosun 2010
Presented at Euroson 2010, Graz, Austria
September 2010 - PDF 0.29MB
By: David Renne
Task 36 is also Task 5 in SolarPACES and a collaboraHve task with PVPS. Task 36 ends on 30 June 2011, but then a new Task will be implemented titled “Solar Resource Assessment and Forecasting”.
Task 36 Poster at Eurosun 2010

Trends in Global Radiation Between 1950 and 2100
September 2010 - PDF 0.34MB
By: Jan Remund and Stefan C. Müller
This analysis is based on long time series of global radiation with a duration of at least 40 years and the forecasts of global radiation till 2100, based on results of IPCC [1]. For the mean and most of the individual 25 examined sites the dimming for the period 1950 – 85 and the brightening [2, 3] for the period 1985 – 2009 is statistically significant. The negative trend during the dimming period is clearly stronger (approx. factor 2) than the positive trend during the brightening phase. The individual regions and groups of measurement sites show a great variety of different trends for the analyzed sub periods. The variation depending on the duration of measurement is also quite different from site to site. Most sites have a standard deviation of 5 – 7% for a 12 month mean which goes down to 2-4% at 10 years and 2% at 20 years. The biggest decline happens in the first years.
Trends in Global Radiation Between 1950 and 2100


COP5 : Source froide solaire pour pompe à chaleur avec un COP annuel de 5 généralisable dans le neuf et la rénovation
July 2010 - PDF 2.97MB
By: Floriane Mermoud, Pierre Hollmuller, Bernard Lachal, Jad Khoury
Document Number: 2010.008
Le projet Solarcity, basé à Satigny (GE), est un nouveau complexe immobilier de 9550 m², comprenant 78 logements répartis dans 4 bâtiments divisés en 10 immeubles. L’enveloppe énergétique a été conçue pour respecter le standard Minergie, et le système de chauffage est basé sur une pompe à chaleur par immeuble utilisant comment source froide 1160 m² de capteurs solaires non couverts.

Task 36 Paper - Management and Exploitation of Solar Resource Knowledge - 2010
July 2010 - PDF 0.47MB
By: C. Hoyer-Klick, H.G. Beyer, D. Dumortier, M. Schroedter-Homscheidt, L. Wald, M. Martinoli, C. Schillings, B. Gschwind5, L. Menard, E. Gaboardi, L. Ramirez-Santigosa, J. Polo, T. Cebecauer,T. Huld, M. Suri, M. de Blas, E. Lorenz, C. Kurz, J. Remund, P. Ineichen, A. Tsvetkov, J. Hofierka
Knowledge of the solar energy resource is essential for the planning and operation of solar energy systems. In past years there has been substantial European and national funding to develop information systems on solar radiation data, leading to the situations that several data bases exist in parallel, developed by different approaches, various spatial and temporal coverages and resolutions including those exploiting satellite data. By comparing these products the users may end up with different results for the same requested sites. The MESoR project has defined a number of benchmarking measures and rules and applied them in several benchmarking exercises. This paper will show key results. To ease access to the data a new broker portal has been developed. The paper will show how it can be used to retrieve data or to make data available within the portal.
Task 36 Paper - Management and Exploitation of Solar Resource Knowledge - 2010

Task 36 Poster at Eurosun 2010
July 2010 - PDF 0.19MB
By: C. Hoyer-Klick, H.G. Beyer, D. Dumortier, M. Schroedter-Homscheidt, L. Wald, M. Martinoli, C. Schilings, B. Gschwind, L. Menard, E. Gaboardi, L. Ramirez-Santigosa, J. Polo, T. Cebecauer,T. Huld, M. Suri, M. de Blas, E. Lorenz, R. Pfatischer, J. Remund, P. Ineichen, A. Tsvetkov, J. Hofierka
Knowledge of the solar energy resource is essential for the planning and operation of solar energy systems. In past years there has been substantial European and national funding to develop information systems on solar radiation data, leading to the situations that several data bases exist in parallel, developed by different approaches, various spatial and temporal coverages and resolutions including those exploiting satellite data. By comparing these products the users may end up with different results for the same requested sites. The MESoR project has defined a number of benchmarking measures and rules and applied them in several benchmarking exercises. This paper will show key results. To ease access to the data a new broker portal has been developed. The paper will show how it can be used to retrieve data or to make data available within the portal.
Task 36 Poster at Eurosun 2010

C3: Exergy Analysis of Solar Cooling Systems
A Technical Report of Subtask C3
June 2010 - PDF 1.78MB
Editor: LUIGI MARLETTA
Within the Task 38, the Subtask C was devoted to the Thermodynamic Analysis of solar cooling systems. Out of the many contributions offered by the participants, those ones collected in this Report are the most representative of the research activity carried out by the whole Group in the field of the exergy analysis and its applications to solar cooling. By going through the paper, the Reader can recognize that for detecting the drawbacks of thermodynamic nature of energy engineering systems, the exergy approach is a more useful and powerful tool than energy analysis. Indeed, while the energy approach is based solely on the First Law, exergy analysis is founded on the combination of both the First and Second Law of Thermodynamics, thus offering a wider and more rational basis for investigation.
C3: Exergy Analysis of Solar Cooling Systems

Compatibility of Plastic with Phase Change Materials (PCM)
June 2010
By: Castellón C, Martorell I, Cabeza LF, Fernández AI, Manich AM
Document Number: 10.1002/er.1723

Degradation model for an extruded polymeric solar thermal absorber
Solar Energy Materials and Solar Cells (94) 6, pp. 1031-1037
June 2010
By: Olivares, A., Rekstad, J., Meir, M., Kahlen, S. and Wallner, G.M.
--- A mechanical test is used to characterize the ageing process of a polymeric solar absorber as a consequence of exposure to high temperature. Specimens from the polymeric absorber sheet were exposed to different temperature and time conditions. Specimens were then tested using mechanical indentation to evaluate the damage level produced. Based on these measurements, this work proposes a model to predict degradation of the polymeric solar absorber during their service life. Model predictions are compared with results from a polymeric absorber exposed to outdoor conditions during two years.
Degradation model for an extruded polymeric solar thermal absorber

1Lessons from Exemplary Housing Renovations
Task 37 Advanced Housing Renovation with Solar and Conservation / Subtask B
May 2010 - PDF 6.18MB
By: Robert Hastings
Editor: Editor of the Brochures: Robert Hastings
60 exemplary housing renovations achieving dramatic energy savings have been documented in brochures as part of a project of the International Energy Agency*. This summary presents lessons learned from a collective look at these brochures from ten countries: AT, BE, CA, CH, DE, DK, I, NL, NO and SE.
1Lessons from Exemplary Housing Renovations

Aging behavior and lifetime modeling for polycarbonate
Solar Energy, (84) 5, pp. 755-762
May 2010
By: Kahlen, S., Wallner, G.M. and Lang, R.W.
--- In this paper, polycarbonate (PC) as a material candidate for solar absorber applications is investigated as to the aging behavior at different temperatures in air and water. The aging conditioning was performed in air in the temperature range from 120 to 140 °C and in water between 70 and 95 °C. Tensile tests were performed on unaged and aged PC film specimens at ambient temperature using strain-to-break values as a performance indicator for the degree of aging. For PC the effect of aging was found to strongly depend on the ageing conditions ...
Aging behavior and lifetime modeling for polycarbonate

Aging behavior of polymeric solar absorber materials – Part 2: Commodity plastics
Solar Energy (8) 9, pp. 1577-1586
May 2010
By: Kahlen, S., Wallner, G.M. and Lang, R.W.
--- In this series of two papers, various polymeric materials are investigated as to their potential applicability as absorber materials for solar thermal collectors. Part 2 treats the aging behavior of semi-crystalline so-called “commodity” plastics (two types of crosslinked polyethylene (PE-X) and two types of polypropylene (PP)). The focus of the investigation is to study the aging behavior of these materials under maximum operating conditions (80 °C in water up to 16,000 h) and stagnation conditions (140 °C in air up to 500 h) typical for northern climate. The materials supplied or produced as polymer films were first characterized in the unaged state and then for different states of aging by differential scanning calorimetry (DSC), by size exclusion chromatography (SEC) and by mechanical tensile tests. DSC was applied primarily to obtain information on [...]
Aging behavior of polymeric solar absorber materials – Part 2: Commodity plastics

Coil-coated spectrally selective coatings on copper or aluminium with pigments modified by aminosilanes
WIPO Patent Application WO 2010/133693
May 2010
By: Koželj M, Orel B, Jerman I, Steinbücher M, Vodlan M, Peros D.
--- The invention relates to TSSS and TISS coatings applied by coil-coating onto substrates of copper or aluminum. Inorganic pigments functionalized by aminosilane are used for making paints, which after the coil-coating onto the substrate form the coatings. For the functionalization the pigment is dispersed in a solution of an aminosilane in a solvent or a mixture of a solvent and a binder without an addition of a non-aminosilane dispersing agent with or without subsequent grinding and use of 0.05-30 % of aminosilane on pigment. An aromatic, aliphatic, cycloaliphatic, ketone, ester, ether or alcohol compound or a mixture thereof can be used as the solvent. A silicone-polyester, polyurethane or fluoropolymer can be used as the binder.

Economic Viability of Using Biogas from Tannery Wastes in Molten Carbonate Fuel Cells
May 2010
By: Castell A, Medrano M, Cabeza LF, Morera JM, Bartolí E

Experimental Study on the Performance of Insulation Materials in Mediterranean Construction
May 2010
By: Cabeza LF, Castell A, Medrano M, Martorell I, Pérez G, Fernández I


Solar and Heat Pump Systems
May 2010 - PDF 0.1MB

The new combined SHC Task and HPP Annex called “Solar and heat pump systems” has started ! It will extend from 2010 to 21013. It is a join effort of the SHC and the HPP bodies and will be lead by one operationg agent (JC Hadorn of Switzerland). For SHC it is Task 44 and for HPP the annex number will be given soon.

Solar and Heat Pump Systems

Aging behavior of polymeric solar absorber materials – Part 1: Engineering plastics
Solar Energy (8) 9, pp. 1567-1576
April 2010
By: Kahlen, S., Wallner, G.M. and Lang, R.W.
--- In this series of two papers, various polymeric materials are investigated as to their potential applicability as absorber materials for solar thermal collectors. The focus of the investigation is to study the aging behavior of these materials under maximum operating conditions (80 °C in water up to 16,000 h) and stagnation conditions (140 °C in air up to 500 h) typical for northern climate. The materials supplied or produced as polymer films were first characterized in the unaged state and then for different states of aging by differential scanning calorimetry (DSC), by size exclusion chromatography (SEC) and by mechanical tensile tests. Physical aging phenomena were studied by DSC, SEC analysis provided information on chemical degradation of the materials. In addition, physical and chemical aging were both analyzed via the small and large strain mechanical behavior. Part 1 of this paper series deals with the aging behavior of engineering plastics, including two amorphous polymers (a polyphenylene ether polystyrene blend (PPE + PS) and polycarbonate (PC)) and two semi-crystalline polymers (two types of polyamide 12 (PA12)).
Aging behavior of polymeric solar absorber materials – Part 1: Engineering plastics

B5: Commissioning
A technical report of subtask B5
April 2010 - PDF 0.23MB
Editor: Uwe Franzke
The Commissioning Process (Cx Process) makes sure that new or reconstructed buildings will be of the same specifications as have been agreed upon in the Contract Documents during the planning stage and in the Owner’s Project Requirements. Ideally, the criteria to be met are established and documented in the pre-planning stage in the form of the Basis of Design. They are then verified during the planning, construction, operating and utilization stages by way of extensive plausibility checks, test scenarios and performance documentation. According to that, the Cx Process is described as an “umbrella” process that bundles all issues centrally in one place during the planning stage and offers a platform for all parties involved.
B5: Commissioning

Experimental Study of Using PCM in Brick Constructive Solutions for Passive Cooling
April 2010
By: Castell A, Medrano M, Martorell I, Pérez G, Cabeza LF

From Demonstration Projects to Volume Markets
Market Development for Advanced Housing Renovation
April 2010 - PDF 5.35MB
By: Are Rødsjø, Edward Prendergast, Erwin Mlecnik, Trond Haavik, Paul Parker
How do we get from demonstration projects to a volume market for very low energy demand in advanced housing renovation? The contributors to this report have been working with this issue for many years. Some worked in both IEA SHC Task 28 Sustainable Housing (2000-2005) and in SHC Task 37 Advanced Housing Renovation with Solar and Conservation. This work resulted in the handbook Business Opportunities in Sustainable Housing (from Task 28) and in this booklet. Building stock analyses from Task 37 show that many countries have a huge theoretical potential for reducing the energy consumed in the existing building stock. The question is: How do we speed up the transition from demonstration projects to volume market? This report looks both at a traditional market development perspective and interventions by public actors. By doing this, the report aims to provide a better understanding of what drives advanced housing renovation, and provides a reference document designed to inform and recommend directions for policy makers and central decision makers.
From Demonstration Projects to Volume Markets

Aging behavior of polymeric solar absorber materials: Aging on the component level
Solar Energy (84) 3, pp. 459-465
March 2010
By: Kahlen, S., Wallner, G.M., Lang, R.W., Meir, M. and Rekstad, J.
--- Within this study, the aging behavior of a PPE + PS absorber material was investigated on the absorber component level. To indicate aging, characteristic mechanical values were determined by indentation tests of specimens taken from components and exposed to laboratory aging (140 °C in air, 80 °C in water) and service near outdoor aging conditions (stagnation in northern climate). In addition to the mechanical tests, the unaged and aged specimens were also characterized thermo-analytically via differential scanning calorimetry (DSC) ...
Aging behavior of polymeric solar absorber materials: Aging on the component level

Applying A Design Methodology for a Net Zero Energy House to Evaluate Design Processes and Tools
Eurosun 2010 Paper
March 2010 - PDF 0.05MB
By: W. O’Brien, et. al.
EcoTerra is a house near Montreal that combines passive solar features (large windows and integrated thermal mass) and active solar features (a BIPV/T roof and thermal storage system) to achieve near net-zero energy (NZE) [1]. This paper presents and applies a methodology for redesigning the house to achieve net-zero energy. The objectives are: 1) to demonstrate the use of tools of varying degrees of model resolution and 2) address any weaknesses and new useful features in existing tools.

BOLIG+ - an Energy Neutral Multifamily Building
Eurosun 2010 Paper
March 2010 - PDF 0.12MB
By: K. Wittchen et al.
BOLIG+ is a Danish concept for energy neutral houses based on five dogmas: 1) energy neutral incl. household energy, 2) intelligent and user-friendly, 3) flexible in daily use and over time, 4) good and healthy indoor climate and 5) high architectural quality and adaption to local context.

Comfort and Energy Performance Recommendations for Net Zero Energy Buildings
Eurosun 2010 Paper
March 2010 - PDF 0.09MB
By: I. Sartori et. al
Conceptually, a Net Zero Energy Building (Net ZEB) is a building with greatly reduced energy needs that are balanced by an equivalent generation of electricity, or other energy carriers, from renewable sources. So far no common agreement exists on a clear and sound definition of Net ZEB, even though the subject is receiving significant attention in many countries. A major advantage of the Net ZEB approach is claimed to be the absence of energy performance indicators, hence avoiding the need to set internationally agreed limits.

Criteria for Definition of Net Zero Energy Buildings
Eurosun 2010 Paper
March 2010 - PDF 0.03MB
By: Igor Sartori, Assunta Napolitano, Anna J. Marszal, Shanti Pless, Paul Torcellini and Karsten Voss
The idea of a Net Zero Energy Building (NZEB) is understood conceptually, as it is understood that the way a NZEB is defined affects significantly the way it is designed in order to achieve the goal. However, little agreement exists on a common definition that is based on scientific analysis. The term is used commercially without a clear understanding and countries are enacting policies and national targets based on the concept without a clear definition in place.

Design Optimisation Methodologies for a Near Net Zero Energy Demonstration Home
Eurosun 2010 Paper
March 2010 - PDF 0.21MB
By: S. Bucking et. al.
This paper applies an energy optimization methodology to identify improvements to an existing near net-zero energy house located south of Montreal, Canada. As many of the design performance parameters are strongly coupled, a hybrid evolutionary algorithm was used to ensure full solution space exploration, and harmonized parameter variation. This paper presents a set of ‘lessons learned’ to be applied to the design of future net-zero energy homes.

Design, Optimization, and Modeling Issues of Net-Zero Energy Solar Buildings
Eurosun 2010 Paper
March 2010 - PDF 0.21MB
By: R. Klein et. al.
The design of net-zero energy solar buildings (NZESBs) presents a challenge because there is no established design strategy to systematically reach this goal and many of the available tools have limited applicability for such advanced buildings. This paper reviews current design practice and tools for designing NZESBs through a literature review and a survey. It also summarizes the results of some redesign and optimization case studies of existing NZESBs that Subtask B of the IEA SHC Task 40/ECBCS Annex 52 is performing. The outcome of this study identifies effective strategies for the use of design and optimization tools in establishing near optimal NZESB designs.

Impact of the Zero Energy Mass Custom Home Mission to Japan on Industry Education Toward Commercialisation
Renewable Energy 2010 Paper
March 2010 - PDF 0.03MB
By: M. Noguchi et. al.
Homebuilders’ business operations often develop into routine. Small- or medium-sized homebuilders (and housing manufacturers) which are usually dominant to the industry today seem lacking awareness of societal pressure for the delivery of zero-energy sustainable housing in response to the imminent global warming issues.

Load Matching and Grid Interaction of Net Zero Energy Buildings
Eurosun 2010 Paper
March 2010 - PDF 0.11MB
By: K. Voss et. al.
Net zero energy use. The goal sounds simple and is presented excessively in variations all over the world. Major advantage of the Net Zero Energy Building (Net ZEB) concept is – on the first look – the absence of energy performance indicators such as kWh/m² with the need to set agreed energy limits and reference areas. This simplicity is a major background for the high political and public acceptance of the wording. In general a conventional building might be called Net ZEB as long as the annual energy needs or the associated carbon emissions are balanced by credits from excess energy feed into the grid.

Net Zero Energy Buildings in France, From Design Studies to Energy Monitoring - A State of the Art Review
Eurosun 2010 Paper
March 2010 - PDF 0.14MB
By: A. Lenoir et. al.
In 2020, the French energy policy plans that every new building will be positive energy. It is then essential to develop new methods for the design of such buildings. In addition, energy monitoring should be studied on existing positive or near zero energy buildings to ensure that they really respect this characteristic but also to estimate the impact of certain improvements made on the building design to the energy consumption.

Net Zero Energy Buildings: Calculation Methods and input Variables - An international View
Eurosun 2010 Paper
March 2010 - PDF 0.02MB
By: J. Bourrelle et .al.
The International Energy Agency (IEA), through the Solar Heating and Cooling Programme (SHC) Task 40 and the Energy Conservation in Buildings and Community Systems Programme (ECBCS) Annex 52 [1], works towards developing a common understanding and setting up the basis for an international definition framework for Net Zero Energy Buildings (NZEBs). The understanding for such buildings and how the NZEB status should be calculated differs in each of the participating country. Within the task activities, the participants surveyed and compared the variables used for calculation and each country’s national calculation methodologies.

Net Zero Energy Solar Buildings: An Overview and Analysis on Worldwide Building Projects
Eurosun 2010 Paper
March 2010 - PDF 0.38MB
By: E. Musall et. al.
Given the global challenges related to climate change and resource shortages, much more is required than sustainability or increases in energy efficiency in buildings. The zero energy building is no more a vision what is shown by many built examples. Although these buildings are named by different terms and are poorly understood, several countries have adopted this vision as a long-term goal of their building energy policies.

Solar 2002: A Belgian Pilot Project for Zero Energy Buildings
Eurosun 2010 Paper
March 2010 - PDF 0.37MB
This paper describes the “Solar 2002” building in Berlaar (Belgium) that was constructed by the Flemish non-profit organization Mondo vzw. The aim of this retrofit of an existing single family dwelling was the creation of an example project, demonstrating the potential of solar energy for the energy needs of buildings in a temperate, rather cloudy climate. This has led to a “Net-Zero Energy” building, that finally supplies more energy to the grid, then it consumes on an annual basis. This paper focuses on the energy-aspect for the building in use. Technical details of the building and the employed renewable energy technologies are given.

The Road Towards “Zero Energy” in Buildings: Lessons Learned from The Solar XXI Building in Portugal
Eurosun 2010 Paper
March 2010 - PDF 0.06MB
By: L. Aelenei et. al.
On April 23, 2009, Industry, Transport, Research and Energy (ITRE) Committee of the European Parliament voted favorable for the amendment of the Energy Performance of Buildings Directive (EPBD) so that all new buildings to become Net-Zero Energy Buildings (NZEB) by 31 December 2018[1]. With regard of existing buildings, the Member States were called to set minimum percentages of buildings that should be zero energy by 2015.

Characterization of physical and chemical aging of polymeric solar materials by mechanical testing
Polymer Testing, vol. 29, pp. 72-81
February 2010
By: Kahlen, S., Wallner, G.M. and Lang, R.W.
--- The potential of mechanical tensile testing to characterize aspects of physical and chemical aging of polymeric solar materials as films was investigated. For this purpose, two types of polymer films, one being a multi-phase amorphous material (blend of polyphenylene ether and polystyrene (PPE + PS)) the other being a crosslinked semi-crystalline material (polyethylene (PEX-1)), were exposed to water at 80 °C for up to 16,000 h prior to being tested mechanically at room temperature. The properties deduced from mechanical tests to indicate aging were the modulus of the films, characteristic for the small-strain behavior, and the values for strain-to-break, characteristic for the post-yield behavior and ultimate failure at large strains ...
Characterization of physical and chemical aging of polymeric solar materials by mechanical testing

The effect of polyhedral oligomeric silsesquioxane dispersant and low surface energy additives on spectrally selective paint coatings with self-cleaning properties.
Solar Energy Materials and Solar Cells (94) 2, pp. 232-245
February 2010
By: JERMAN, Ivan, KOŽELJ, Matjaž, OREL, Boris
--- Thickness-Insensitive Spectrally Selective (TISS) paint coatings were made of fluoropolymer resin binder (Lumiflon (LF), Asahi Glass Co., Ltd., Japan) and their water- and oil-repellent properties were obtained by the addition of Polyhedral Oligomeric Silsesquioxane (POSS) characterized by amino (AP), isooctyl (IO) and perfluoro (PF) groups attached on the silsesquioxane cube. Paint dispersions were made by modifying of black spinel pigment with trisilanol isobutyl POSS dispersant and with a single-capped silane isobutyltrimethoxysilane (IBTMS). Infrared and 29Si NMR spectra measurements were used for the identification of the structural characteristic of the corresponding POSS compounds ...
The effect of polyhedral oligomeric silsesquioxane dispersant and low surface energy additives on spectrally selective paint coatings with self-cleaning properties.

The Potential of Solar Thermal Technologies in a Sustainable Energy Future
Results from 32 Years of International R&D Cooperation
February 2010 - PDF 3.94MB
By: Gerhard Faninger
By collaborating with others, the IEA SHC Programme is working to increase awareness of solar thermal energy‘s potential to contribute significantly to the future supply of energy worldwide. This report supports the awareness to create a Future Sustainable Energy System, based on R&D results from more than 30 years of international co-operation in the IEA Solar Heating Programme.
The Potential of Solar Thermal Technologies in a Sustainable Energy Future

Solarthermie und Wärmepumpe Erfahrungen aus 3 Heizperioden Entwicklung einer solaren Systemarbeitszahl
2010 - PDF 0.15MB
By: Dipl.-Ing. (FH) Frank Thole, Dipl.-Ing. (FH) Nadine Hanke
Document Number: 2010.007
Solarthermieanlagen und Wärmepumpen sind mittlerweile als regenerative Energieerzeuger in der Politik, in den Förderprogrammen und Markt aktzeptiert und angekommen. Auch die Kombination findet immer mehr Anhänger, wobei die unterschiedlichsten Konzepte angeboten werden. Insbesondere die hydraulische und regelungstechnische Kombination auf der kalten Quellenseite der Wärmepumpe lassen Effizienzsprünge erwarten. Seit 3 Jahren wird von der Fa. Schüco International KG ein umfangreicher Feldtest einer Solarthermie – Wärmepumpenkombination getestet. Nach Konzeptstudien und umfangreichen Simulationen mit Parametervariationen kristallisierte sich ein Erfolgsversprechendes System heraus. Aufbauend auf eine heizungsunterstützende Solarthermieanlage mit Kombispeicher wurde die Erdsonde einer Sole-Wasserwärmepumpe wie ein zweiter Speicher an die Kollektoranlagen angeschlossen. Auf der Wärmesenkenseite wurde die Kombination zwischen Solarkombispeicher und Wärmepumpe nach einer bivalent-regenerativen Betriebsweise gesteuert. Bei Vorliegen von ausreichend Solarwärme wird die Wärmepumpe gesperrt und die Solarwärme vorrangig in das Heizsystem geleitet. Damit werden die Laufzeiten der Wärmepumpe gering gehalten und gleichzeitig stehen die niedrigen Rücklauftemperaturen jederzeit sowohl dem Solarspeicher als auch der Wärmepumpe zur Verfügung. Für eine Absicherung dieses Konzeptes über eine Simulation hinaus sicherzustellen wurde ein umfangreicher Feldtest durchgeführt. Nach mittlerweile 3 Heizperioden kann nun hiermit dokumentiert werden, dass die hohen Erwartungen in die Vorteile dieser Kombination voll erfüllt wurden.

Systematische Gliederung der Systemkombination von solarthermischen Anlagen und Wärmepumpen
2010 - PDF 0.08MB
By: Michel Y. Haller, Elimar Frank, Christoph Trinkl, Wilfried Zorner

Towards Net Zero Energy
ECBCS Annex 52 Factsheet
2010 - PDF 3.49MB
The objectives of the project ‘Towards Net Zero Energy Solar Buildings’ are to study current net zero, near net zero and very low energy buildings and to develop a common understanding of a harmonised international definitions framework, tools, innovative solutions and industry guidelines. To achieve these objectives the project will document and propose demonstrations of practical net zero energy buildings (NZEBs) with convincing architectural quality.

Condensation Heat Gains on Unglazed Solar Collectors in Heat Pump Systems
January 2010 - PDF 0.28MB
By: E. Bertram, J. Glembin, J. Scheuren, G. Rockendorf
Document Number: 2010.001
The performance of ground coupled heat pump systems with borehole heat exchangers can be significantly improved by unglazed solar collectors. In this combination, collector operation temperatures below the ambient air level and hence additional condensation heat gains occur. For an investigated and monitored system in Limburg, Germany, the condensation yield was determined to 3.7% or 19 kWh/(a m²). Thereby, condensation shows a significant dependency on the season. During the summer months, only 0.8% of the total collector yield is induced by condensation, while in winter it increases to 13%. The implementation of an established condensation model to the collector model according to EN 12975 is demonstrated. As main result the investigated the heat pump system performance is only marginally improved due to the condensation heat gains.

Geeignete Polymere für Innovationen in der Solarthermie
2. Solarthermie-Technologiekonferenz, Berlin, Germany
January 2010
By: Völkel, Mark (BASF SE)
Presentation is available as PDF-file and online video. Image: © Creventis Services 2010
Geeignete Polymere für Innovationen in der Solarthermie

Konzeptionierung, Aufbau und wissenschaftliche Begleitung einer Pilotanlage
January 2010
By: Anette Anthrakidis, Christian Faber, Marco Lanz, Mario Adam, Sebastian Schramm
Publisher: OTTI 2010 - 20. Symposium Thermische Solarenergie

Pufferspeicher in Modulbauweise mit bis zu 50 m³ Speichervolumen
2. Solarthermie-Technologiekonferenz, Berlin, Germany
January 2010
By: Wilhelms, C. and Vajen, K.
Presentation is available as PDF-file and online video. Image: © Creventis Services 2010
Pufferspeicher in Modulbauweise mit bis zu 50 m³ Speichervolumen

State of the Art on High Temperature Thermal Energy Storage for Power Generation
Part 1 - Concepts, Materials and Modellization
January 2010
By: Gil A, Medrano M, Martorell I, Lázaro A, Dolado P, Zalba B, Cabeza LF

State of the Art on High-Temperature Thermal Energy Storage for Power Generation
Part 2 - Case Studies
January 2010
By: Medrano M, Gil A, Martorell I, Potau X, Cabeza LF

Systematic Classification of Combined Solar Thermal and Heat Pump Systems
January 2010 - PDF 0.48MB
By: Elimar Frank, Michel Haller, Sebastian Herkel and Jorn Ruschenburg
Document Number: 2010.003
In this paper several approaches are discussed for the analysis and comparison of combined solar thermal and heat pump systems. The discussion is based on a detailed literature review and investigations on market available systems. Based on this, an approach to describe and systematically classify combined solar thermal and heat pump systems is presented.

Unglazed Photovoltaic Thermal Collectors in Heat Pump Systems
January 2010 - PDF 0.34MB
By: E. Bertram, M. Stegmann, J. Scheuren, C. Rosinski, K. Kundmüller
Document Number: 2010.002
Unglazed Photovoltaic Thermal (PVT) collectors provide very high efficiency for heat and electricity generation at low temperatures. Therefore they are particularly suitable to support the heat source of heat pump systems, where low temperature heat is required. In this combination the PVT collector improves efficiency in two ways- of the heat pump by additional low temperature heat and of the photovoltaic module by lower cell temperatures. An increase of 4% of the annual and up to 9% for the daily photovoltaic electricity production and a high collector yield of 450 kWh/(m² a) was measured at a pilot system between April 2009 and April 2010. As the improvement of the PV and heat pump efficiency depends strongly on the thermal PVT collector performance, efficiency measurements of five different unglazed PVT collectors have been carried out. They showed significant differences, e.g. the conversion factor 0 without electricity production varies from 0.33 to 0.73. Further, a simulation model for unglazed PVT -collectors is presented. It is based on thermal performance parameters of EN 12975 and PV performance data at standard test conditions and it further includes thermal collector capacity and condensation effects.

Untersuchung der Witterungsbeständigkeit von Polymermaterialien mit Nanofillern
2. Solarthermie-Technologiekonferenz, Berlin, Germany
January 2010
By: Weiß, Karl-Anders
Presentation is available as PDF-file and online video. Image: © Creventis Services 2010
Untersuchung der Witterungsbeständigkeit von Polymermaterialien mit Nanofillern

C5: Hygienic Aspect of Small Wet Cooling Towers
A technical report of subtask C
December 2009 - PDF 1.2MB
By: Harald Moser and Erich Podesser
This chapter shall give a very short description of thermally driven heat pumps especially with respect to the heat rejection sub-system and temperature level. Furthermore different technologies for rejecting the heat to the air are briefly discussed and compared to each other for different climatic conditions.
C5: Hygienic Aspect of Small Wet Cooling Towers

Goal: Zero Energy Building
Exemplary Experience Based on the Solar Estate Solarsiedlung Freiburg am Schlierberg, Germany
December 2009 - PDF 0.32MB
By: Mira Heinze and Prof. Karsten Voss
Zero energy consumption. The goal sounds simple and is presented excessively in variations all over the world. Energy and environmental politics demand zero consumption as a long-term goal, marketing has discovered the concept and first buildings and settlements aiming at balanced energy or emission budgets have been constructed.

Morphology of phase-separated thermotropic layers based on UV cured acrylate resins Polymers for Advanced Technologies
Polymers for Advanced Technologies Vol. 20, Issue 12, 1163–1167, Dec. 2009
December 2009
By: Katharina Resch, Gernot Wallner
--- In this paper, relationships between the scattering domain parameters (size and shape) and the light-shielding properties of thermotropic systems with fixed domains (TSFD) are established. Specific focus is given to the effect of additive type on the formation of scattering domain size. Various functional layers are prepared by a variation of thermotropic additives. Scattering domains are investigated applying high resolution Atomic Force Microscopy (AFM) in a phase imaging mode. Thermotropic layers formulated with additive types exhibiting a short chain length display roughly spherical scattering particles with dimensions between 0.5 and 3?µm and a moderate reduction in hemispheric solar transmittance along with a significant increase in diffuse solar transmittance above the switching threshold ...
Morphology of phase-separated thermotropic layers based on UV cured acrylate resins Polymers for Advanced Technologies

A Review of PV Solar Thermal and Thermal Collector Models in TRNSYS
November 2009 - PDF 0.96MB
By: Mike Collins, University of Waterloo, Canada
Document Number: DB1-A
This report assesses availability of PV and Solar Thermal system models. it is intended as a reference for those developing new models.
A Review of PV Solar Thermal and Thermal Collector Models in TRNSYS

A1: Market Available Components for Systems for Solar Heating and Cooling with a Cooling Capacity < 20 kW
A Technical Report of Subtask A
November 2009 - PDF 3.52MB
Editor: Dagmar Jaehnig
Systems for solar heating and cooling with a cooling capacity below 20 kW should be as much pre-engineered as possible. That means that the entire system layout and the size of all components is pre-defined by the manufacturer or seller of the system. To install such a system there is no detailed planning process necessary. It can be bought “off the shelf” designed for a given heating and cooling load and can be installed by an HVAC installer. Unfortunately, only few companies offer this kind of pre-engineered system up to now.
A1: Market Available Components for Systems for Solar Heating and Cooling with a Cooling Capacity < 20 kW

A2: Collection of Selected Systems Schemes “Generic Systems”
A technical report of subtask A
November 2009 - PDF 0.59MB
By: Michael Becker, Martin Helm and Christian Schweigler
For wide-spread application of solar cooling, compact systems shall be installed by professionals from the heating and plumbing sector without requiring a detailed planning procedure on a case-by-case basis. Thus along with the required equipment – i.e. thermally driven chiller, solar thermal system, and heat rejection device - well-proven system configurations have to be available for selecting an appropriate system concept with regard to the given specific requirements.
A2: Collection of Selected Systems Schemes “Generic Systems”

B1: State of the Art on Existing Solar Heating and Cooling Systems
A Technical Report of Subtask B
November 2009 - PDF 0.38MB
By: W. Sparber, A. Napolitano, G. Eckert and A. Preisler
Within the subtask B of the “Task 38 - Solar Air Conditioning and Refrigeration”, an overview has been carried out on thermally driven chillers and solar thermal technologies used in realized systems. The aim of this overview is to collect information on existing solar heating and cooling systems in order to derive a first identification of proven design solutions in terms of selection of technologies and dimensioning in relationship with location, final use and size of the building. The analysis of existing design solutions can help planners in the first steps of the decision making by addressing them towards the identification of optimal design solutions for solar heating and cooling applications.
B1: State of the Art on Existing Solar Heating and Cooling Systems

C2A: Description of Simulation Tools Used in Solar Cooling
New Developments in Simulation Tools and Models and Their Validation
November 2009 - PDF 2.55MB
By: Paul Bourdoukan
Numerical simulation offers the possibility to study virtually physical systems and to test rapidly the proposed solutions. Simulation is then the most adapted method to understand the behaviour of a system in order to optimize it. The enhancement and the development of a technology are essentially based on the capacity to simulate accurately its behaviour in order to optimize it. This reality applies to solar cooling technologies. In this report simulation tools used in the solar cooling domains are described. Then the recent development in the components and system models and validation are presented. In part 1 of the report the simulation tools applicable in the domain of solar cooling are presented and the main advantages of each tool are highlighted.
C2A: Description of Simulation Tools Used in Solar Cooling

C2B: Benchmarks for Comparison of System Simulation Tools – Absorption Chiller Simulation Comparison
A Technical Report of Subtask C
November 2009 - PDF 0.27MB
By: Constanze Bongs
System simulation for planning support. Objective: to identify an appropriate system size with respect to fulfill target values in primary energy savings, solar thermal system exploitation, economics, etc.
C2B: Benchmarks for Comparison of System Simulation Tools – Absorption Chiller Simulation Comparison

Description of Simulation Tools Used in Solar Cooling
A Technical Report of Subtask C
November 2009 - PDF 2.55MB
By: Paul Bourdoukan
Numerical simulation offers the possibility to study virtually physical systems and to test rapidly the proposed solutions. Simulation is then the most adapted method to understand the behaviour of a system in order to optimize it. The enhancement and the development of a technology are essentially based on the capacity to simulate accurately its behaviour in order to optimize it. This reality applies to solar cooling technologies.
Description of Simulation Tools Used in Solar Cooling

Instructions for Installing and Using the Downloadable Model Package in TRNSYS
November 2009 - PDF 0.96MB
By: Mike Collins, University of Waterloo, Canada and Veronique Delisle, CANMET Energy Technology Centre
Document Number: DB3-1
This document describes the new models and the modifications made to existing models, and provides instructions for installing the models contained in the downloadable package.The TRNSYS package is required to use these models. A simplified stand-alone package can be downloaded under Task 35 publications.
Instructions for Installing and Using the Downloadable Model Package in TRNSYS
TRNSYS Models
November 2009 - Posted: 4/30/2012
Document Number: DB3-2

Recommended Standard for the Characterization and Monitoring of PV/Thermal Systems
November 2009 - PDF 0.92MB
By: Mike Collins, University of Waterloo, Canada and Herbert Zondag, ECN, Netherlands
Document Number: DB-2
This report covers the proposed practice to characterize and monitor PV/Thermal systems, and identifies and addresses the gaps that currently exist in characterization and monitoring activities. It details schemes for flat-plate style thermal collectors, but not PV/Thermal systems based on concentrating collectors.
Recommended Standard for the Characterization and Monitoring of PV/Thermal Systems

Corrosion protection of Sunselect, a spectrally selective solar absorber coating by (3-mercaptopropyl) trimethoxysilane.
Solar Energy Materials and Solar Cells (93) 10, pp. 1733-1742.
October 2009
By: KOŽELJ, Matjaž, ŠURCA VUK, Angela, JERMAN, Ivan, OREL, Boris.
--- The formation of a protective layer from (3-mercaptopropyl)trimethoxysilane (MPTMS) on commercial Sunselect, cermet-based spectrally selective coating (Alanod, DE), was studied by non-electrochemical (infrared reflection–absorption—IR RA, X-ray photoelectron spectroscopy—XPS), electrochemical (cyclic voltammetry (CV) in the presence of a redox probe (Cd+2), and potentiodynamic (PD)) techniques. By simple immersion and subsequent dip coating of the Sunselect substrate in the MPTMS sol, the hydrolyzed MPTMS precursor was adsorbed on the substrate, forming a protective layer imparting corrosion stability to Sunselect in a salt spray chamber for at least 20 days, outperforming any other sol–gel coating used so far for the corrosion protection of Sunselect ...
Corrosion protection of Sunselect, a spectrally selective solar absorber coating by (3-mercaptopropyl) trimethoxysilane.

Kombination Solarthermi und Warmepumpe - Losungsan-satze, Chancen and Grezen
in German
October 2009 - PDF 0.72MB
By: Hans-Martin Henning & Marek Miara
Document Number: 2009.003

Kunststoffe unter der Sonne
ee-erneuerbare energie 2010-04
October 2009
By: Meir, M., Brunold, S., Fischer, S., Kahlen, S., Koehl, M, Ochs, F., Peter, M., Resch, K., Wallner, G., Weiss, K.-A. and Wilhelms, C.
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- Die allseits propagierten CO2-Einsparungsziele sind ohne eine gewaltige Steigerung der Verwendung der Solarthermie nicht zu schaffen. Dazu werden zuverlässige, leistungsfähige und kostengünstige Anlagenkomponenten in enormer Stückzahl gebraucht. Da Massenproduktion eine Domäne der Kunststofftechnik ist, ergeben sich speziell in diesem Bereich neue Möglichkeiten für das Kollektor- und Speicherdesign. Damit beschäftigt sich seit drei Jahren die Task 39 ...
Kunststoffe unter der Sonne

Soil Regeneration by Unglazed Solar Collectors in Heat Pump Systems
October 2009 - PDF 0.86MB
By: E. Bertam, J Glembin, J. Scheuren, G. Zienterra
Document Number: 2009.001
Heat pump systems with borehole heat exchanger and unglazed solar thermal collector have been analysed in two pilot systems and assisting TRNSYS-Simulations. Measurements carreid out and simulations demonstrate that the borehole heat exchange is annually regenerated by the solar collector. This results in a a different behaviour compared to systems without a solar collector. As one effect of the changed system behaviour, the results of one investigated system, e.g. a simulation reference system, become transferable to other buildings by normalization to the total heat demand. Furthermore the influence of significant parameter on the annual performance factor and a correction function to characterize the heat sink side of the heat pump is presented.

Solar + Heat Pumps
A New Task on Systems Using Solar Thermal Energy in Combination with Heat Pumps will Begin in 2010
October 2009 - PDF 0.07MB
By: Jean-Chistrophe Hadorn

Over the past few years, systems that combine solar thermal technology and heat pumps have been marketed to heat houses and produce domestic hot water. This new combination of technologies is a welcome advancement, but standards and norms are still required for its long term successful commercialization. At this time, most of the manufacturers are developping systems without a clear framework of what could be the best combinations of the two worlds and customers are lacking comparative approaches. The result is that systems reaching today the market are far from being optimized and sometimes simple enough to guarantee a life time problem free and efficient operation both technically and economically.

Solar + Heat Pumps

Heat Transfer Efficient Thermal Energy Storage for Steam Generation
September 2009 - PDF 0.98MB
By: Michael Epstein
Publisher: Weizmann Institute of Science

Phase separated thermotropic layers based on UV cured acrylate resins – Effect of material formulation on overheating protection properties and application in a solar collector
Solar Energy (83) 9, pp. 1689-1697
September 2009
By: Resch, K., Wallner, G.M. and Hausner, R.
--- This paper focuses on the effect of material composition on the overheating protection properties of thermotropic systems with fixed domains for solar thermal collectors. Numerous functional layers were prepared by a variation of base resin (polyester-, epoxy- or urethane–acrylate) and of thermotropic additives (non-polar and polar waxes) as well as by additive concentration (5 and 7 wt%). A detailed investigation of optical properties, switching temperature and switching process was performed applying UV/Vis/NIR spectroscopy. Thermal transitions of both the thermotropic layers and the additives used were determined by Differential Scanning Calorimetry (DSC). The capability of the produced thermotropic layers to reduce stagnation temperatures in an all-polymeric flat plate collector was evaluated by theoretical modeling. The thermotropic layers showed a hemispheric solar transmittance between 76% and 87% in clear state. Above the switching threshold this transmittance changed by 1–16% to values between 62% and 85% ...
Phase separated thermotropic layers based on UV cured acrylate resins – Effect of material formulation on overheating protection properties and application in a solar collector

Task Annex Approved
July 2009 - PDF 0.11MB

Empirical Validation of Building Simulation Software: Modelling of Double Facades
June 2009 - PDF 7.94MB
By: O. Kalyanova and P. Heiselberg
Publisher: Aalborg University, Department of Civil Engineering
Document Number: 1901-726X

This report is an outcome of the empirical validation of building simulation software tools conducted within the Subtask E: Modelling of a Double Skin Façade of International Energy Agency (IEA), Annex 34, Task 43 by the Experts Group composed of experts from the Solar Heating and Cooling (SHC) Programme. The main objective of the Subtask E is for buildings with Double Skin Façade (DSF), to perform empirical validation and, in this way, to assess suitability and awareness of building energy analysis tools for predicting energy use, heat transfer, ventilation flow rates, solar protection effect and cavity air temperatures of double-skin façade.

Empirical Validation of Building Simulation Software: Modelling of Double Facades

Performance Analysis of a Solar Heating System Coupled to a Heat Pump for Building Renovation Purposes
June 2009 - PDF 0.16MB
Document Number: 2009.002
The aim of this study is to analyse the energy and economic performances of different types of facilities coupling a ground/water heat pump with an air-heater equipped with solar thermal collectors.

Task Workplan Approved
June 2009 - PDF 0.04MB

20 Jahre Freibewitterung von Kollektorabdeckungsmaterialien-x
19th Symposium Thermische Solarenergie, Staffelstein, Germany, May 6-8, 2009
May 2009
By: Ruesch, F., Brunold, S.

Adhesion and thermal stability of thickness insensitive spectrally selective (TISS) polyurethane-based paint coatings on copper substrates
Solar Energy Materials and Solar Cells (93) 5, pp. 630-640
May 2009
By: Kunic, R., Kozelj, M., Orel, B., Šurca Vuk, A., Vilcnik, A., Slemenik Perse, L., Merlini, D., Brunold, S.
--- Thickness insensitive spectrally selective (TISS) paint coatings based on a polyurethane polymeric binder deposited on copper substrates were investigated to obtain information about their service lifetime. The degradation of TISS paint coatings was performed according to the methodology worked out within Task 10 of the IEA's Solar heating and the cooling programme. The activation energy (Ea) for the degradation process was derived from vibrational band changes of the polyurethane binder recorded in the infrared hemispherical reflectance spectra of TISS paint coatings exposed to different thermal loads. The results of the vibrational band analysis were correlated with cross-cut tests, showing that the coatings started to lose integrity at 190 °C but protected the copper substrate against oxidation perfectly even at 200 °C (15 days). An accelerated test procedure confirmed that TISS coatings could be safely used in solar collectors for at least 45 years.
Adhesion and thermal stability of thickness insensitive spectrally selective (TISS) polyurethane-based paint coatings on copper substrates

Optimization of systems with the combination of ground-source heat pump and solar collectors in dwellings
April 2009 - PDF 0.45MB
By: Elisabeth Kjellsson, Goran Hellstromb, Bengt Perers
The use of ground-source heat pumps for heating and domestic hot water in dwellings is common in Sweden. The combination with solar collectors has been introduced to reduce the electricity demand in the system.

Annex Final Revised: Towards Net Zero Energy Solar Buildings
February 2009 - PDF 0.1MB
By: Karsten Voss and Mark Riley
Energy use in buildings worldwide accounts for over 40% of primary energy use and 24% of greenhouse gas emissions1. Energy use and emissions include both direct, on-site use of fossil fuels as well as indirect use from electricity2, district heating/cooling systems and embodied energy in construction materials.
Annex Final Revised:  Towards Net Zero Energy Solar Buildings

Characterization of MgSO4 Hydrate for Thermochemical Seasonal Heat Storage
2009
By: V.M. van Essen H.A. Zondag J. Cot Gores L.P.J. Bleijendaal M. Bakker R. Schuitema W.G.J. van Helden Z. He C.C.M. Rindt
Publisher: Journal of Solar Energy Engineering, Vol. 131(2009)
Document Number: p. 041014-1/7
Water vapor sorption in salt hydrates is one of the most promising means for compact, low loss, and long-term storage of solar heat in the built environment. One of the most interesting salt hydrates for compact seasonal heat storage is magnesium sulfate heptahydrate (MgSO4·7H2O). This paper describes the characterization of MgSO4·7H2O to examine its suitability for application in a seasonal heat storage system for the built environment. Both charging (dehydration) and discharging (hydration) behaviors of the material were studied using thermogravimetric differential scanning calorimetry, X-ray diffraction, particle distribution measurements, and scanning electron microscope. The experimental results show that MgSO4·7H2O can be dehydrated at temperatures below 150°C, which can be reached by a medium temperature (vacuum tube) collector. Additionally, the material was able to store 2.2 GJ/m3, almost nine times more energy than can be stored in water as sensible heat. On the other hand, the experimental results indicate that the release of the stored heat is more difficult. The amount of water taken up and the energy released by the material turned out to be strongly dependent on the water vapor pressure, temperature, and the total system pressure. The results of this study indicate that the application of MgSO4·7H2O at atmospheric pressure is problematic for a heat storage system where heat is released above 40°C using a water vapor pressure of 1.3 kPa. However, first experiments performed in a closed system at low pressure indicate that a small amount of heat can be released at 50°C and a water vapor pressure of 1.3 kPa. If a heat storage system has to operate at atmospheric pressure, then the application of MgSO4·7H2O for seasonal heat storage is possible for space heating operating at 25°C and a water vapor pressure of 2.1 kPa.

Direct Normal Irradiance for CSP Based on Satellite Images of Meteosat Second Generation
2009
We present a method to derive the direct normal irradiance (DNI) from MSG data. For this, we apply the Heliosat method and a new model for the direct fraction of the irradiance. The clear sky irradiance is mainly determined by the aerosol optical depth (AOD) and water vapour content, which are taken from suitable climatologies. The accuracy of satellite derived DNI data has been analyzed for Spanish sites, more sites will be evaluated within the project SESK (Standardisierung der Ertragsprognose Solarthermischer Kraftwerke – standardization of yield prognosis for solar thermal power plants). As for concentrating solar power (CSP) the frequency distribution of DNI is of special importance, special attention is given to correct modeling of this feature.

Solarleistungsvorhersage zur Netzintegration von Solarstrom
German
2009 - PDF 0.12MB
By: Elke Lorenz, Johannes Hurka, Detlev Heinemann, Hans Georg Beyer, Martin Schneider
Der steigende Anteil von Strom aus Photovoltaikanlagen lässt Solarleistungsvorhersagen für eine wirtschaftlich und technisch effiziente Einbindung der fluktuierenden Einspeisung immer wichtiger werden.
Solarleistungsvorhersage zur Netzintegration von Solarstrom

Task 38 Industry Newsletter - First Edition 2009 (English)
2009 - PDF 1.88MB
For translations in Danish, French, German and Spanish go to: www.iea-shc-task38.org/index2.html.
Task 38 Industry Newsletter - First Edition 2009 (English)

Analysis of different comparison parameters applied to solar radiation data from satellite and German radiometric stations
January 2009
By: Bella Espinara, Lourdes Ramíreza, Anja Drewsb, Hans Georg Beyerc, Luis F. Zarzalejoa, Jesús Poloa, , and Luis Martín
In this paper new comparison parameters are defined for assessing statistical similarity between two data sets. The new parameters are based on the commonly used Kolmogorov–Smirnov test. They allow quantifying differences between the cumulative distribution functions of each data series. These parameters are applied to global horizontal daily irradiation values from pyranometric measurements and satellite data. The test data from 38 stations distributed throughout Germany cover the time from 1995 until 2003. The results affirm that the new parameters contribute valuable information to the comparison of data sets complementing those that are found with the mean bias and root mean squared differences.

Thermotropic layers for flat-plate collectors - A review of various concepts for overheating protection with polymeric materials
Solar Energy Materials and Solar Cells (93) 1, pp. 119-128
January 2009
By: Resch, K. and Wallner, G.M.
--- Within this paper a comprehensive review of the developments of thermotropic hydrogels, thermotropic polymer blends and thermotropic systems with fixed domains for overheating protection purposes is given. In addition, performance properties for thermotropic layers to prevent overheating in solar collectors are defined. The different thermotropic material classes are discussed as to their ability to meet these requirements. The review shows that thermotropic layers developed so far need to be adapted as to switching temperature and long-term stability for applicability in solar thermal collectors.
Thermotropic layers for flat-plate collectors - A review of various concepts for overheating protection with polymeric materials

Solar Energy and Architecture Annex Plan
December 2008 - PDF 0.06MB
By: Maria Wall, Jens Windeleff, Anne G. Lien
Solar energy can be utilized in buildings in several ways. Often we differentiate between two main ways to utilize solar energy. Either by letting the solar radiation transmit through windows to passively contribute to space heating and offer daylight that can reduce the electricity need for lighting. Or by using active solar systems on the building envelope to produce solar heat and electricity that can be used to reduce the building’s need for non-renewable energy supply.
Solar Energy and Architecture Annex Plan

Spectroscopic investigations of phase-separated thermotropic layers based on UV cured acrylate resins
Macromolecular Symposia (2008)
December 2008
By: K. Resch, G.M. Wallner, R.W. Lang
Document Number: 265, 49-60
--- In this paper spectroscopic techniques were adapted and applied to characterize the optical and morphological properties of thermotropic resins. Thermotropic films were prepared by variation of resin base and thermotropic additives. By UV/Vis/NIR spectroscopy the solar optical properties, the switching temperature, the switching process and the residual transmittance in the opaque state were determined. To control the sample temperature from ambient to 100?°C a conventional UV/Vis/NIR spectrophotometer equipped with an Ulbricht-sphere was adapted by a heating stage. Additive content, distribution and scattering domain size were characterized by Differential Scanning Calorimetry, Attenuated Total Reflectance spectroscopy and microscopic techniques ...

Niederst- und Niedertemperaturkollektoren für die Deutsche Solarthermie-Technologie Plattform
November 2008 - PDF 4.89MB
By: Müller H., Trinkl C., Zörner W.
Document Number: 2008.003

235 - Unglazed Solar Collectors in Heat Pump Systems: Measurement, Simulation and Dimensioning
October 2008 - PDF 0.22MB
By: E. Bertram, J. Glembin, J. Scheuren, G. Rockendorf, G. Zienterra
Document Number: 2008.001
Two heat pump-systems with borehole and unglazed solar thermal collector are measured and simulated in TRNSYS as part of a research project. Compared to systems without collector the collector yield increases the average temperature level of the heat pump system on the evaporator side. A collector model is developed and evaluated considering the longwave radiation exchange and the condensation heat gains. The annual collector yield is measured as 545 kWh/m²a, of which 4% are determined as heat gains through condensation. Further simulations in TRNSYS show the interdependency of collector area, borehole length and heat pump system performance. The additional heat source component collector reduces the required borehole length and simultaneously improves the heat pump system performance in comparison to a solely borehole supported heat pump. In addition the system sensitivity for the heat source parameters is reduced significantly, thus resulting in a more certain system planning and operation.

IEA BESTEST - In-Depth Diagnostic Cases for Ground Coupled Heat Transfer Related to Slab-on-Grade Construction
September 2008 - PDF 2.91MB
By: J. Neymark & R. Judkoff
Document Number: NREL/TP-550-43388

This report documents a set of idealized in-depth diagnostic test cases for use in validating groundcoupled floor slab heat transfer models. These test cases represent an extension to IEA BESTEST,1 which originally focused on testing and validation of building thermal fabric models, but addressed only cursorily the modeling of heat transfer between the building and the ground.

IEA BESTEST - In-Depth Diagnostic Cases for Ground Coupled Heat Transfer Related to Slab-on-Grade Construction

International Energy Agency Building Energy Simulation Test and Diagnostic Method (IEA BESTEST)
Multi-Zone Non-Airflow In-Depth Diagnostic Cases: MZ320-MZ360
September 2008 - PDF 3.24MB
By: J. Neymark and R. Judkoff
Document Number: NREL/TP-550-43827
International Energy Agency Building Energy Simulation Test and Diagnostic Method (IEA BESTEST)

Combining Solar Irradiance Measurements and Various Satellite-Derived Products to a Site-Specific Best Estimate
July 2008
By: Hoyer-Klick, C., Lorenz, E., Hammer, A. Beyer, H.G
Combining Solar Irradiance Measurements and Various Satellite-Derived Products to a Site-Specific Best Estimate', Proceedings of the 14th biennial SolarPACES Symposium, Las Vegas, NE (USA), 04.03.-07.03.2008

Outcome of PVT Market Survey Interviews
July 2008 - PDF 0.33MB
Editor: Joakim Byström, Priono AB
Document Number: DA1-2
Summary of 65 interviews conducted in Canada, Denmark, Germany, Italy, Spain and Sweden.
Outcome of PVT Market Survey Interviews

Report on the TRYNSYS/TRNSED Simulation Tool
July 2008 - PDF 0.92MB
By: Bengt Perers, Technical University of Denmark and Björn Karlsson, Lund University, Sweden
Document Number: DB3-2
Report on the TRYNSYS/TRNSED Simulation Tool
PV/Thermal System Simulation Tool
January 2008 - Posted: 4/30/2012
Document Number: DB3-2

Task 36 Paper - Management and Exploitation of Solar Resource Knowledge - 2008
July 2008 - PDF 0.72MB
By: C. Hoyer-Klick, H.G. Beyer, D. Dumortier, M. Schroedter-Homscheidt, L. Wald, M. Martinoli, C. Schilings, B. Gschwind, L. Menard, E. Gaboardi, L. Ramirez-Santigosa, J. Polo, T. Cebecauer,T. Huld, M. Suri, M. de Blas, E. Lorenz, R. Pfatischer, J. Remund, P. Ineichen, A. Tsvetkov, J. Hofierka
Knowledge of the solar energy resource is essential for the planning and operation of solar energy systems. In past years there has been substantial European and national funding to develop information systems on solar radiation data, leading to the situations that several data bases exist in parallel, developed by different approaches, various spatial and temporal coverages and resolutions including those exploiting satellite data. The user of these products may end up with different results for the same requested sites. To better guide the users, a benchmarking exercise is under preparation. A set of reference data has been collected and benchmarking measures and rules have been defined. The results of the benchmarking and the feedback from stakeholders will be integrated into a guide of best practices in the application of solar resource knowledge. Access to data has been quite fragmented. Each service has its own way of access to the data and delivery format. A new broker portal based on the experience of the project Soda aims to unify and ease the access to distributed data sources and applications providing solar resource information.
Task 36 Paper - Management and Exploitation of Solar Resource Knowledge - 2008

Task 36 Poster at Eurosun 2008
July 2008 - PDF 1.25MB
By: C. Hoyer-Klick, H.G. Beyer, D. Dumortier, M. Schroedter-Homscheidt, L. Wald, M. Martinoli, C. Schilings, B. Gschwind, L. Menard, E. Gaboardi, L. Ramirez-Santigosa, J. Polo, T. Cebecauer,T. Huld, M. Suri, M. de Blas, E. Lorenz, R. Pfatischer, J. Remund, P. Ineichen, A. Tsvetkov, J. Hofierka

Knowledge of the solar energy resource is essential for the planning and operation of solar energy systems. In past years there has been substantial European and national funding to develop information systems on solar radiation data, leading to the situations that several data bases exist in parallel, developed by different approaches, various spatial and temporal coverages and resolutions including those exploiting satellite data. By comparing these products the users may end up with different results for the same requested sites. The MESoR project has defined a number of benchmarking measures and rules and applied them in several benchmarking exercises. This paper will show key results. To ease access to the data a new broker portal has been developed. The paper will show how it can be used to retrieve data or to make data available within the portal.

Task 36 Poster at Eurosun 2008

Industrial Process Indicators and Heat Integration in Industries
June 2008 - PDF 0.85MB
By: Christoph Brunner, Bettina Slawitsch Kanellina Giannakopoulou, Hans Schnitzer
Publisher: JOANNEUM RESEARCH

The goal of this report, developed in the framework of the Task 33 / IV – Solar Heat for Industrial Processes (SHIP) of the International Energy Agency, is to give an overview of the tools which have been developed within this IEA Task 33 / IV.

Industrial Process Indicators and Heat Integration in Industries

Mechanical Equipment & Control Strategies for a Chilled Water and a Hot Water System
June 2008 - PDF 19.8MB
By: Clemens Felsmann

The goal of this Task/Annex is to undertake pre-normative research to develop a comprehensive and integrated suite of building energy analysis tool tests involving analytical, comparative, and empirical methods. These methods will provide for quality assurance of software, and some of the methods will be enacted by codes and standards bodies to certify software used for showing compliance to building energy standards.

Mechanical Equipment & Control Strategies for a Chilled Water and a Hot Water System

Property and performance requirements for thermotropic layers to prevent overheating in an all polymeric flat-plate collector
Solar Energy Materials and Solar Cells (92), pp. 614-620
June 2008
By: Resch, K., Wallner, G.M. and Hausner, R.
--- Within this study the potential of thermotropic layers to prevent overheating of an all-polymeric solar collector is evaluated by theoretical modeling. The investigations show that collector stagnation temperatures can be reduced to temperatures between 80 and 90 °C by using thermotropic layers either in the glazing or on the absorber. For overheating protection to a maximum temperature of 80–90 °C a residual solar transmittance of the thermotropic layer below 0.25 in the opaque state (>0.85 in clear state) is effectual. The required switching temperature is dependent on the collector configuration.
Property and performance requirements for thermotropic layers to prevent overheating in an all polymeric flat-plate collector

Final Task Management Report
May 2008 - PDF 0.12MB
By: Ron Judkoff

Testing and Validation of Building Energy Simulation Tools

Final Task Management Report

A test procedure for extruded polymeric solar thermal absorbers
Solar Energy Materials and Solar Cells, 92 (2008) 445-452
April 2008
By: A. Olivares, J. Rekstad, M. Meir, S. Kahlen, G. Wallner
Publisher: Elsevier Ltd.
--- An indentation test is proposed to study the degradation of extruded polymeric solar absorbers. The thermal degradation caused by accelerated aging is investigated. The results are compared with the thermal and mechanical impacts during the operation of the solar collector.
A test procedure for extruded polymeric solar thermal absorbers

Final Report of Subtask C “Phase Change Materials”
Report C7 of Subtask C
March 2008 - PDF 0.26MB
Editor: Wolfgang Streicher
This report is the final report of a Subtask of the Task 32 “Advanced Storage Concepts for solar and low energy buildings” of the Solar Heating and Cooling Programme of the International Energy Agency. 29 pages

Laboratory Prototypes of PCM Storage Units - Improvements since Report C3
Report C4 of Subtask C
March 2008 - PDF 1.14MB
Editor: Wolfgang Streicher
In Report C4 additional analysis compared to Report C3 of the systems of Lleida University, Spain and University of Applied Sciences Western Switzerland in Yverdon-les-Bains/Switzerland (HEIG-VD) are presented. 36 pages

Simulation and Optimization Report - Maxlean Concept
March 2008 - PDF 2.25MB
By: Robert Haberl, Peter Vogelsanger, Thomas Letz
This report is part of Subtask D of the Task 32 of the Solar Heating and Cooling Programme of the International Energy Agency dealing with solutions of storage based on water. Water tank storage is still the state-of-the-art way to store solar energy between 20 and 100C. There is however some potential for further improvements of storage in water tanks and of combisystems with water tank storage. 71 pages

Simulation Models of PCM Storage Units
Report C5 of Subtask C
March 2008 - PDF 1.7MB
Editor: Wolfgang Streicher
In the course of IEA SHC Task 32 the following simulation models were developed: - Two tank heat storage models with PCM containers of different shapes (plates, cylinders, spheres) with variable size and number (Type 840 and Type 860). Different PCMs can be chosen and the models include the subcooling and the hysteresis behavior of the PCM. - In the Type 860 of Bony (HEIVG) the internal heat transfer by convection in the liquid PCM is accounted for. - The tank model of Heinz and Puschnig (IWT, Type 840) can also be filled completely with PCM slurry that can be used as heat carrier - One model (Type 841) OF Heinz (IWT) with an immersed heat exchanger into a PCM container - One tank model (Type 185 of Schultz, DTU) for seasonal heat storage with PCM in subcooled state 83 pages

Simulation of HVAC Components with the Help of an Equation Solver
March 2008 - PDF 10.36MB
By: Vincent Lemort, Andres Rodríguez and Jean Lebrun
This report presents models of different HVAC mechanical equipment components. These models have been developed with the help of EES (Engineering Equation Solver). This modeling tool allows an equation-based approach: each component is modeled by a set of equations which describe the main physical processes/peculiarities inherent to the component.
Simulation of HVAC Components with the Help of an Equation Solver

System Simulation Report - System: PCM-Water Store
Report C6.4 of Subtask C
March 2008 - PDF 3.17MB
By: Cristian Solé and Luisa F. Cabeza
It is well known that the use of Phase Change Materials (PCM) in Domestic Hot Water Tanks (DHWT) reports some advantages for the system. One advantage is the capability of the PCM to reheat the amount of cold water surrounding the PCM after a partial or total unload of the tank without external heat input. Another one is that the temperature of the water surrounding the PCM is kept constant a longer period of time or decreases slower than the water with no interaction with the changed PCM. 40 pages

System Simulation Report of PCM Storage Units
Report C6 of Subtask C
March 2008 - PDF 0.2MB
Editor: Wolfgang Streicher
Due to the developed simulation modules for PCM stores of various kinds and the TRNSYS system simulations developed in IEA SHC Task 26 and Task 32 it was possible to carry out detailed systems analysis for the behaviour of PCM stores in different applications compared to water stores. The main application focused at in Task 32 was a solar combisystem, defined in Subtask A, Report A2. This system was used unchanged by HEIG-VD and the University of Lleida Spain and slightly altered ba the UDTI, Denmark. At Graz University of Technology the applications was a conventional heating system, were the PCM heat storage was used to reduce the boiler cycling rate. 16 pages

Final Report of Subtask B “Chemical and Sorption Storage”
Report B7 of Subtask B
February 2008 - PDF 0.21MB
Editor: Chris Bales
This report is the final report of a Subtask of the Task 32 “Advanced Storage Concepts for solar and low energy buildings” of the Solar Heating and Cooling Programme of the International Energy Agency. 23 pages

Simulation Report - System: Closed-Cycle Sorption Storage "MODESTORE"
Report B6.2 of Subtask B
February 2008 - PDF 0.65MB
By: Dagmar Jaehnig
The system simulated in this study is based on the pilot plant system tested within the project MODESTORE (EU-Project Contract No: NNE5/2001/979 and an Austrian national project within the program ‘Haus der Zukunft’). However, the result of these projects was that the used material combination (silica gel and water) is not suitable for heat storage at the desired temperature levels for space heating. Therefore, this study was carried out using the material characteristics of a different sorption material (FAM-Z01 by Mitsubishi) which is available on the market but has not been used for storage applications because of its high costs. The purpose of this study is to show the possibilities of closed-cycle sorption heat storage with reasonable material properties knowing that for a market introduction of such a system more material research is necessary in order to identify a material with good properties but at reasonable costs. 34 pages

Simulation Report - System: ECN TCM Model
Report B6.1 of Subtask B
February 2008 - PDF 0.27MB
By: H.A. Zondag
The ECN Thermo-Chemical Materials (TCM) heat storage system is an absorption process that is based on the hydration of a solid TCM salt. At this moment, the development of this system is still in a very early stage. The research in this stage focuses on materials characterization (now mainly on the hydration of MgSO4 powder). The outlook for the future is to develop a seasonal storage system for solar heat with the solid absorption material that will be selected. 22 pages

Simulation Report - System: Monosorp
Report B6.3 of Subtask B
February 2008 - PDF 0.25MB
By: Henner Kerskes, ITW
The reference combi system has been extended by an open cycle adsorption store in conjunction with a ventilation heat recovery system. Because of the high desorption temperatures required (120...180°C) the use of a highly efficient vacuum tube collector is essential for the overall efficiency of the solar heating system. 16 pages

Simulations of Systems with Chemical and Sorption Stores
Report B6 of Subtask B
February 2008 - PDF 0.18MB
Editor: Chris Bales
Three systems with sorption or chemical storage have been simulated with the same boundary conditions as other stores using water or phase change materials. The buildings, including heat distribution system, hot water load, climate were all the same, as were the models used for the collector circuit. This report gives a brief background to these simulations and the target functions used, while the description of the simulation models and results for these three systems are described in three sub-reports, essentially three separate reports. 15 pages

Store Models for Chemical and Sorption Storage Units
Report B5 of Subtask B
February 2008 - PDF 0.65MB
Editor: Chris Bales
Storage models have been developed for four of the storage concepts that have been studied within Subtask B of IEA-SHC Task 32. For each model, the basic function of the store is described in addition to the model itself. The main assumptions and limitations of each model are stated. Finally details are supplied about the validation of the model. 30 pages

Evaluation of a new model to calculate direct normal irradiance based on satellite images of Meteosat Second Generation
2008
By: A. Kemper, E. Lorenz, A. Hammer and D. Heinemann
We present a method to derive the direct normal irradiance DNI from MSG data. For this we apply the Heliosat method to extract cloudiness from the satellite images. Clouds are causing high fluctuations in the DNI. A new model for the direct fraction of the irradiance is introduced to calculate DNI. The clear sky irradiance is mainly determined by the aerosol optical depth (AOD) and water vapour content, which are taken from suitable climatologies. The accuracy of satellite derived DNI data is analyzed here for Spanish sites.

Potential for Solar Heat in Industrial Processes
2008 - PDF 1.93MB
Editor: Claudia Vannoni, Riccardo Battisti and Serena Drigo

The goal of this report, developed in the framework of the IEA Solar Heating and Cooling Programme Task 33 and IEA SolarPACES Programme Task IV – Solar Heat for Industrial Processes (SHIP), is to highlight the potential use of solar thermal (ST) plants to provide heat for industrial applications. In order to fulfil this aim, several national potential studies were surveyed and compared with a focus on the key results and the methodologies applied.

Potential for Solar Heat in Industrial Processes

Process Heat Collectors
State of the Art within Task 33/IV
2008 - PDF 0.84MB
Editor: Werner Weiss and Matthias Rommel

The use of solar energy in commercial and industrial companies is insignificant compared to solar’s other applications. However, the potential is great and the impact on energy use could be significant as the industrial sector is the largest consumer of energy compared to the transportation, household and service sectors in OECD countries. This report gives an overview and some background information on medium temperature collectors.

Process Heat Collectors

Sol-Pac. Analyse des performances du couplage d’une pompe à chaleur avec une installation solaire thermique pour la renovation
2008
By: Citherlet S., Bony J., Nguyen B.
Document Number: 2008.002

Systemoptimierung der Kombination von Solarkollektoren mit Wärmepumpenanlgen
2008
By: Witzig A., Marti J., Brüllmann T., Huber A.
Document Number: 2008.004

Weiterentwicklung von Verfahren zur Solarleistungsvorhersage - Prognose von Verbundleistungen und deren Vertrauensbereiche
German
2008 - PDF 0.46MB
By: Elke Lorenz, Johannes Hurka, Detlev Heinemann, Hans Georg Beyer, Martin Schneider
Die zeitliche und räumliche Variabilität der Einstrahlung und die daraus resultierenden Fluktuationen der nutzbaren Energie stellen für die Einbindung von Solarenergie in das bestehende Energieversorgungsnetz eine besondere Herausforderung dar. Bei steigender PV-Netzdurchdringung ist zu erwarten, dass - analog zur Entwicklung auf dem Gebiet der Windenergieeinspeisung – eine verlässliche Solarleistungsprognose für das Netz- und Erzeugungsmanagement unabdingbar sein wird.
Weiterentwicklung von Verfahren zur Solarleistungsvorhersage - Prognose von Verbundleistungen und deren Vertrauensbereiche

Weiterentwicklung von Verfahren zur Solarleistungsvorhersage: Prognose von Verbundleistungen und deren Vertrauensbereiche - Poster
German
2008 - PDF 3.14MB
By: E. Lorenz, J. Hurka, D. Heinemann, H.G. Beyer, M. Schneider
Eine verlässliche Solarleistungsprognose wird mit steigender PV-Netzdurchdringung für das Netz- und Erzeugungsmanagement immer wichtiger. Wir stellen einen verbesserten Ansatz zur Strahlungsvorhersage vor und gehen dabei insbesondere auf die Vorhersagequalität von Verbundleistungen und die Bestimmung von Vetrauensintervallen ein.
Weiterentwicklung von Verfahren zur Solarleistungsvorhersage: Prognose von Verbundleistungen und deren Vertrauensbereiche - Poster

Laboratory Tests of Chemical Reactions and Prototype Sorption Storage Units
Report B4 of Subtask B
January 2008 - PDF 1.4MB
Editor: Chris Bales
The work reported here shows that significant advances have been made in terms of chemical and sorption storage. New concepts have been developed, not only to the laboratory prototype stage but even to successful field trials. 55 pages

System Simulation Report - System: PCM with Supercooling
Report C6.2 of Subtask C
January 2008 - PDF 0.21MB
By: Jørgen M. Schultz
The system is designed for 100% coverage by solar of both domestic hot water (DHW) and space heating in a low energy single family house according to the passive house standard. This is achieved by means of a seasonal phase change material (PCM) storage combined with a small DHW tank. The PCM storage is subdivided into several sub-volumes. The system benefits from the supercooling as the PCM when melted can cool down, e.g. due to heat loss, to surrounding temperature in its liquid phase preserving the energy related to the heat of fusion. 17 pages

Method and Comparison of Advanced Storage Concepts
Report A4 of Subtask A
December 2007 - PDF 0.3MB
By: Jean-Christophe Hadorn, Thomas Letz, Michel Haller
This report presents the criteria that Task 32 has used to evaluate and compare several storage concepts part of a solar combisystem and a comparison of storage solutions in a system. Criteria have been selected based on relevance and simplicity. When values can not be assessed for storage techniques to new to be fully developed, we used more qualitative data. 29 pages

Performances of Solar Combisystems with Advanced Storage Concepts
Report A3 of Subtask A
December 2007 - PDF 0.59MB
Editor: Thomas Letz
In the present report, simulation results for nine different systems are presented: five for systems using water storages, one for a system using a storage with Phase Change Material (PCM), and three for systems using chemical or sorption storages. Curves have been drawn for two indicators: the thermal end the extended Fractional energy savings. These characteristic curves allow seeing at one glance how a system performs. They are similar to the characteristic curves of solar collectors, which allow visualising the performances of different concepts. 46 pages

Review of Ideas to Improve Water Tank Storage
Report D1 of Subtask D
December 2007 - PDF 0.09MB
Editor: Jean-Christophe Hadorn
This report presents ideas for improving water tank storage that Task 32 has addressed or proposed for future work. 12 pages

System Simulation Report - System : HEIG-VD-W and HEIG-VD-PCM
Report C6.1 of Subtask C
December 2007 - PDF 1.22MB
By: Stéphane Citherlet and Jacques Bony
This system was design for a single family house to provide energy for the space heating and the domestic hot water (DHW). The water storage tank can contain phase change material (PCM – yellow part see figure here under), but not in the upper part of the tank to get enough power to provide the DHW. The global ratio of PCM is about 50% in volume. The solar collector loop of this installation is a drain back system. The storage tank, space heating and solar loop use water as heat transfer fluid. DHW preparation is done with an external flat plate heat exchanger. The space heating demand is fulfilled by solar energy with an auxiliary gas boiler.

System Simulation Report - System: PCM storage to reduce cycling rates for boilers
Report C6.3 of Subtask C
December 2007 - PDF 1.6MB
By: Andreas Heinz
At the Institute of Thermal Engineering, Graz University of Technology, the possibility to reduce the start-stop cycles of boilers by coupling the boiler with a storage tank was investigated within a national project (Heinz et al. 2006). A more detailed description of this work, including an analysis of the annual emissions caused by the start-stop operation can be found in (Heinz, 2007). 12 pages

The Extended FSC Procedure for Larger Storage Sizes
Report A1 of Subtask A
December 2007 - PDF 0.43MB
Editor: Thomas Letz
In task 26 "Solar Combisystems", a new characterization method had been proposed, allowing to summarize the behaviour of a whole combisystem with a simple parabolic equation giving the thermal or extended fractional energy savings according to a new parameter called Fraction Solar Consumption (FSC). 19 pages

Experiments with Vertical Plates for Temperature Stratification in a Heat Storage Tank
Report D2 of Subtask D
October 2007 - PDF 0.37MB
By: Peter Vogelsanger, Heinze Marty and Michael Cinelli
Experiments were carried out to test an inexpensive set-up to enhance temperature stratification in water heat stores or water heater stores. The set-up essentially consists of an arrangement of two vertical parallel plates open to the storage volume on all or most sides with the inlet flow entering the gap between the plates through a flange on one of them. Any difference in temperature or density between the entering flow and the fluid in the store will allow it to propagate vertically between the plates in reaction to the differing buoyancy of the respective fluids. 18 pages

Overview in World Wide Installed Solar Cooling Systems
October 2007 - PDF 0.17MB
By: Sparber, W., Napolitano, A. and Melograno, P.
2nd International Conference Solar Air Conditioning, Tarragona - Spain, October 2007
Overview in World Wide Installed Solar Cooling Systems

Market, Modeling, Testing and Demonstration in the Framework of IEA SHC Task 35 on PV/Thermal Solar Systems
September 2007 - PDF 0.57MB
By: J. Hansen, H. Sorensen, J. Bystrom, M. Collins & B. Karlsson
Document Number: DE2-5
Paper from the 22nd European Photovoltaic Solar Energy Conference and Exhibition, September 3-7, 2007 in Milan, Italy
Market, Modeling, Testing and Demonstration in the Framework of IEA SHC Task 35 on PV/Thermal Solar Systems

Empirical Validations of Shading/Daylighting/Load Interactions in Building Energy Simulation Tools
August 2007 - PDF 3.48MB
By: Peter Loutzenhiser, Heinrich Manz and Gregory Maxwell

These studies are some of the most detailed empirical validations of solar gain models implemented in building energy simulation programs. The purpose of this project was to create data sets for use when evaluating the accuracies of models for glazing units and windows with and without shading devices. Program outputs were compared with experiments performed at an outdoor test cell in Switzerland and a facility in the United States. The authors’ intention is that the data are widely used by program developers and modelers for future validation efforts.

Empirical Validations of Shading/Daylighting/Load Interactions in Building Energy Simulation Tools
ERS Daylighting Experiments - Posted: 9/12/2008
Modelers' Reports - Posted: 9/12/2008

Laboratory Prototypes of Thermo-Chemical and Sorption Storage Units
Report B3 of Subtask B
June 2007 - PDF 0.98MB
Editor: Chris Bales
This technical report provides detailed results on four different prototype storage units tested in SHC Task 32, Advanced Storage Concepts for Solar and Low Energy Buildings. The key figures for the prototypes are presented together with projected sizes and heat storage densities for hypothetical stores with 70 and 1000 kWh storage for single family homes. In the final section of the report, the prototypes are compared in terms of energy density and material cost. 34 pages

Measurement Report - Test of PVT Module SolarWall PVT
June 2007 - PDF 1.06MB
By: Ivan Katic, Danish Technological Institute
Measurement Report - Test of PVT Module SolarWall PVT

Towards an improved architectural quality of building integrated solar thermal systems (BIST)
Solar Energy 81 (2007) 1104–1116
June 2007
By: M.C. Munari Probst, C. Roecker
--- Architectural integration is a major issue in the development and spreading of solar thermal technologies. Yet the architectural quality of most existing building integrated solar thermal systems (BIST) is quite poor, which often discourages potential new users. In this paper, the results of a large web survey on architectural quality, addressed to more than 170 European architects and other building professionals are presented and commented ...
Towards an improved architectural quality of building integrated solar thermal systems (BIST)

Advanced Housing Renovation with Solar and Conservation
Task 37 Flyer
May 2007 - PDF 0.45MB
By: Robert Hastings and Daniela Enz
Task 37 is a research and demonstration project of the International Energy Agency, Solar Heating & Cooling Programme (IEA SHC). Duration: 2006 - 2009
Advanced Housing Renovation with Solar and Conservation

Laboratory Prototypes of PCM Storage Units
Report C3 of Subtask C
May 2007 - PDF 1.15MB
Editor: Wolfgang Streicher
This report is part of Subtask C of the Task 32 of the Solar Heating and Cooling Programme of the International Energy Agency dealing with solutions of storage based on phase change materials or “PCMs”. The density of storage compared to water is theoretically 1.2 to 5 depending on the temperature range of comparison. Small temperature differences will favor PCM solutions, where as larger temperature ranges, 30 to 60 K and more will probably favor sensible storage in water. 42 pages

Performance, Durability and Sustainability of Advanced Windows and Solar Components for Building Envelopes
Task 27 Final Report
May 2007
By: Michael Köhl
For the purposes of this Task, solar facade components were defined as clear, translucent and solar control media for building windows and facades, dynamic glazings and solar collectors and their integration into functional facade elements. The Task identified some important components which can make a significant contribution to promoting the further development, uptake and integration of energy efficient products in the envelope of solar buildings. The work addressed specific fundamental problems and knowledge dissemination issues necessary to provide improved knowledge of solar, visual and thermal performance and to increase confidence in the selection and use of new products through increased understanding of performance, durability, reliability and environmental quality.

The Reference Heating System, the Template Solar System of Task 32
Report A2 of Subtask A
May 2007 - PDF 0.54MB
By: Richard Heimrath and Michel Haller
This work defines reference conditions and a reference simulation environment for the simulation of solar combisystems for domestic hot water (DHW) preparation and space heating (SH) for various European climates and a range of building loads. These will be used for simulation studies within the IEA-SHC Task 32 by all participants who intend to compare their new products or ideas with the current state of the art or with other products and system approaches. 55 pages. To access the data set, email secretariat@iea-shc.org to obtain the needed password.

The Environmental Brief: Pathways for Green Design
March 2007
By: Richard Hyde
Publisher: Spon Press
ISBN: 0415290449
Order - $113.75 USD
This book explains how the use of an environment brief can drive building design to produce high environmental performance. The book is divided into three parts: theoretical issues of environmental briefing; the briefing method and process; and a series of international case studies.

Analysis of System Reports of Task 26 for Sensitivity of Parameters
February 2007 - PDF 1.44MB
By: Wolfgang Streicher and Richard Heimrath

This report summarizes the simulation results of nine solar combisystems. The systems were analyzed indepth using the same reference conditions and the same simulation tool. System optimization was achieved using sensitivity analysis with three target functions based on fractional energy savings.

Analysis of System Reports of Task 26 for Sensitivity of Parameters

Design Guidelines - Solar Space Heating of Factory Buildings
With Underfloor Heating Systems
2007 - PDF 3.05MB
By: Dagmar Jaehnig and Werner Weiss

This booklet presents a method to design solar thermal systems for space heating of factory buildings using underfloor heating systems. The method uses nomograms that were expanded upon using simulations of typical system configurations. There are nomograms for two different system configurations that can be used to determine reasonable values for the collector and storage tank size for a factory building with a known heat demand.

Design Guidelines - Solar Space Heating of Factory Buildings

Qualified Forecast of Ensemble Power Production by Spatially Dispersed Grid-connected PV Systems
2007 - PDF 0.34MB
By: Elke Lorenz, Johannes Hurka, Giota Karampela, Detlev Heinemann, Hans Georg Beyer, Martin Schneider°
The contribution of power production by Photovoltaic (PV) systems to the electricity supply is constantly increasing. An efficient use of the fluctuating solar power production will highly benefit from forecast information on the expected power production. This forecast information is necessary for the management of the electricity grids and for energy trading.
Qualified Forecast of Ensemble Power Production by Spatially Dispersed Grid-connected PV Systems

Solarleistungsvorhersage f ¨ur die Netzintegration von verteilten Photovoltaikanlagen
German
2007 - PDF 0.25MB
Die zeitliche und r¨aumliche Variabilit¨at der Einstrahlung und die daraus resultierenden Fluktuationen der nutzbaren Energie stellen f¨ur die Einbindung von Solarenergie in das bestehende Energieversorgungsnetz eine besondere Herausforderung dar. Eine Vorhersage der erwarteten Leistung erm¨oglicht eine an die schwankende Energieproduktion angepasste Steuerung von Systemen mit einem hohen Anteil an Solarenergie und kann so zu einer effizienten und wirtschaftlichen Nutzung von Solarenergie beitragen.
Solarleistungsvorhersage f ¨ur die Netzintegration von verteilten Photovoltaikanlagen

The Time for Solar is Now
IEA-SHC Brochure
2007 - PDF 0.37MB
This document is a full color brochure about the IEA Solar Heating and Cooling Programme
The Time for Solar is Now

Validierung und Optimierung eines Solarstromprognosesystems unter Berücksichtigung von Ensemble-Effekten
German
2007 - PDF 0.58MB
By: Stefan Bofinger, Hans Georg Beyer, Elke Lorenz, Hashini Wikramarathne
Photovoltaik liefert im Sommer schon einen nennenswerten, und beständig wachsenden Beitrag zur Stromversorgung. Um diese Einspeisung möglichst effizient zur Netzregelung einsetzten zu können, ist ein Solarstromprognosesystem in Entwicklung.
Validierung und Optimierung eines Solarstromprognosesystems unter Berücksichtigung von Ensemble-Effekten


Measurement Report - Test of PV/T Module "PVtwin"
December 2006 - PDF 1.18MB
By: Ivan Katic, Danish Technological Institute
Document Number: DC4-1

Report covers measurements taken at the Danish Technological Institute's outdoor test facility in Taastrup, Denmark in the period June-September 2006. The results are valid for the tested prototype exclusively.

Measurement Report - Test of PV/T Module "PVtwin"

PV/T Collectors: Technologies Combine to Increase Output
December 2006 - PDF 0.13MB
Document Number: DE2-4
Article published in the IEA SHC Solar Update Newsletter, December 2006.
PV/T Collectors: Technologies Combine to Increase Output

Polymere Materialien für Solarthermische Systeme
ee-erneuerbare energie 2006-04
October 2006
By: Köhl, M.
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- Der wachsende Markt für solarthermische Anlagen ermöglicht den Einsatz von Polymermaterialien, die durch kostengünstige Massenproduktion ein großes Kosten-Einspar-Potential aufweisen. Sie sind allerdings nur einsetzbar, wenn ihre Gebrauchsdauer vergleichbar mit derjenigen konventioneller Produkte ist. Zu diesem komplexen Themenbereich wurde die Task 39 des Solar Heating and Cooling Programme der Internationalen Energieagentur konzipiert.
Polymere Materialien für Solarthermische Systeme

IEA SHC Task 35 PV/Thermal Solar Systems
August 2006 - PDF 0.15MB
By: J. Hansen & H. Sorensen
Document Number: DE2-3
Paper on Task 35 and PV/Thermal Solar Systems from the World Renewable Energy Congress on August 19-25, 2006 in Firenze, Italy.
IEA SHC Task 35 PV/Thermal Solar Systems

Commercially Available PV/T Products
July 2006 - PDF 1.16MB
By: H. A. Zondag
Document Number: DA2-1
This document is an overview of commercially available PV/T products.
Commercially Available PV/T Products

Energy and Buildings - Special Issue on Daylighting Buildings
July 2006
Editor: Alan Meier and Branislav Todorovic
Energy and Buildings is an international journal publishing articles with explicit links to energy use in buildings. The aim is to present new research results, and new proven practice aimed at reducing energy needs of a building and improving indoor environment quality. It is published with the editorial support of the International Council for Research and Innovation in Building and Construction (CIB) Topics covered include: • Energy demands and consumption in existing and future buildings • Thermal comfort and indoor air quality • Natural and mechanical ventilation • Air distribution in air conditioned buildings • Application of solar and other renewable energy sources in buildings • Energy balances in major building complexes (industrial, public and other buildings) • HVAC and refrigeration systems in residential, public and industrial buildings • Heat recovery systems in buildings • Buildings and district heating • Energy conservation in built environment • Energy efficient buildings • Building physics • Sustainable buildings and energy demands • Evaluation and control of indoor thermal and lighting systems • Intelligent buildings • Links between architectural design, mechanical and lighting systems • New materials in buildings and their impact on energy demands • External and internal design conditions for energy efficient buildings Papers with results based on simulations are welcome but those with clear links to laboratory or field measurements are preferred. These links may include calibration, benchmarking, or comparisons of results.

Ecostock Conference 2006
June 2006 - PDF 0.59MB
By: Jean-Christophe Hadorn
Paper presenting the work of IEA SHC Task 32. 9 pages

Daylight Control Systems Calibration & Commissioning Guide
May 2006 - PDF 0.24MB
By: Martin Butcher
If a lighting control system is not calibrated and commissioned correctly, it is unlikely that the design intent – occupant satisfaction and significant energy savings – will be achieved. Failure to commission control systems has been noted as one of the single greatest reasons for the failure of daylighting systems to save energy. Furthermore Lighting controls in a number of applications are not properly commissioned and many operational problems are there from start-up. The range of control systems in the marketplace and diverse range of projects means that specific advice needs to be sought from the system provider when preparing a procedure for calibration and commissioning each project. It is not intended that reliance can therefore be placed on this guide alone when formulating such a procedure.

Experimental Validation of Daylighting Simulation Methods for Complex Fenestration Systems
May 2006 - PDF 0.19MB
By: Fawaz Maamari, Marilyne Andersen, Jan de Boer, William L. Carroll, Dominique Dumortier, Phillip Greenup
The objective of this paper is to assess the capability of existing lighting simulation methods to predict the performance of complex fenestration systems, which are becoming a commonly used component in buildings construction domain. A specific experimental protocol was conducted to collect reliable reference data based on illuminance measurements inside a black box with (and without) one complex glazing sample facing a measured external luminance distribution. Two types of simulation methods were tested and compared: The first is based on modeling the glazing sample in a ray-tracing simulation program and the second is based on use of the samples' BTDF data. The BTDF data sets were combined with the external luminance distribution to predict the flux distribution inside the room and the resulting illuminance values at the reference points. The comparison between the experimental reference data and the simulation results showed that the influence of the CFS could be predicted with good accuracy.

Goniophotometry and Assessment of Bidirectional Photometric Properties of Complex Fenestration Systems
March 2006 - PDF 0.69MB
By: Marilyne Anderson and Jan de Boer
This paper seeks to provide an overview of the currently available assessment tools for Bidirectional Transmission or Re°ection Distribution Functions (BTDFs, BRDFs) of complex fenestration systems (CFS). In the ¯rst part of the paper, the existing experimental devices (goniophotometers) developed speci¯cally for CFS measurement are described. All but two are based on a scanning process to investigate the emerging light flux distribution, the alternative approach being based on digital imaging techniques. A critical analysis of their advantages and shortcomings is proposed to provide both researchers interested in replicating them and more generally potential users of BTDF or BRDF data with a lucid idea of the available options.

Kunststoffe Neue Möglichkeiten in der Solarthermie
ee-erneuerbare energie 2006-02
March 2006
By: Gernot M. Wallner und Reinhold W. Lang
Publisher: AEE - Arbeitsgemeinschaft ERNEUERBARE ENERGIE - Dachverband
--- Wie Entwicklungen in anderen Industriesektoren (z. B. Elektro- und Elektronik-, Automobil-, Bau- und Verpackungsindustrie) eindrucksvoll belegen, ist auch in der Solarindustrie ein hohes Potenzial für innovative Weiterentwicklungen von Komponenten und Systemen durch den verstärkten Einsatz von Kunststoffen zu erwarten.
Kunststoffe Neue Möglichkeiten in der Solarthermie

PV/Thermische Solaranlagen
Stand der Entwicklungen in der IEA Task 35
February 2006 - PDF 0.21MB
By: Von Jan Hansen and Henrik Sorensen
Document Number: DE2-2
Article (in German) on Task 35 and PV/Thermal Solar Systems published in the Austrian Journal "erneuerbare energie".
PV/Thermische Solaranlagen

Assessment of Daylight Quality in Simple Rooms
Impact of Three Window Configuratoins on Daylight Conditions, Phase 2
2006 - PDF 4MB
By: Kjeld Johnsen, Marie-Claude Dubois and Karl Grau
Publisher: Statens Byggeforskningsinstitut, SBi
ISBN: 87-563-1270-9
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The present report documents the results of a study on daylight conditions in simple rooms of residential buildings. The overall objective of the study was to develop a basis for a method for the assessment of daylight quality in a room with simple geometry and window configurations.

Double Skin Facades: A Literature Survey
2006 - PDF 2.61MB
By: Harris Poirazis

This report describes the concept of Double Skin Façades (DSF) based on different sources of literature and includes an extensive description of modeling approaches and methods for DSF including airflow and thermal simulations. The concept of DSF is complicated and its use and function affect different parameters of the building so the literature studied came from many different fields.

Double Skin Facades: A Literature Survey

Ingeniørforeningens Energiplan 2030
2006 - PDF 4.74MB
By: Henrik Lund; Brian Vad Mathiesen
ISBN: 87-87254-63-8

Det har været en stor udfordring at samle trådene og stå for de sammenfattende analyser af Ingeniørforeningen i Danmark, IDAs energiplan for 2030. Det var ikke lykkedes uden stor hjælp fra medarbejderne i IDA, de aktive i de fagtekniske selskaber inden for temagrupperne samt nøglepersoner fra store dele af den danske energisektor. Derfor vil vi gerne rette en personlig tak til alle disse personer, herunder ikke mindst styregruppen for projektet.

Ingeniørforeningens Energiplan 2030

Solar Energy Activities in IEA Countries 2005
2006 - PDF 1.11MB

Learn what your country and others are doing in the area of solar from the status of government policies, funding levels, R&D, technology advances, and commercial development. This latest edition begins with an overview of national activities and key trends followed by individual country reports with detailed information on national solar activities.

Solar Energy Activities in IEA Countries 2005

ISES Conference 2005
August 2005 - PDF 0.47MB
Editor: Chris Bales
Poster Presenting IEA SHC Task 32

Glazing Materials for Solar and Architectural Applications
June 2005 - PDF 2.15MB
Editor: C.M. Lampert, Lawrence Berkeley Laboratory, U.S.A.
Document Number: LBL 34436

This report summarizes five collaborative research projects on glazings. The projects include materials characterization, optical and thermal measurements, and durability testing of several types of new glazings.

Glazing Materials for Solar and Architectural Applications

Thermal Energy Storage for Solar and Low Energy Buildings - State of the Art
June 2005 - PDF 8.26MB
Editor: Jean-Christophe Hadorn
ISBN: 84-8409-877-X

The print edition is out of order since 2015.
A free digital version is available on this page since Sept. 7th, 2020. If you happen to like the book, please consider a donation as stated on page 2 of the digital version !

TABLE OF CONTENTS

- IEA Solar Heating and Cooling Programme
- What is IEA SHC Task 32 “Advanced Storage Concepts for Solar and Low Energy Buildings” ? Acknowledgements Glossary
- Task 32 participants and authors

1 Scope of this document : Heat and cold storage for solar and low energy buildings by Jean-Christophe Hadorn

2 The need for storage of heat and cold in low energy buildings by Jean-Christophe Hadorn

PART I STORAGE IN THE BUILDING STRUCTURE

3 Thermal storage in building structures: thermally activated building systems (tabs) by Beat Lehmann, Robert Weber, Jean-Christophe Hadorn

4 Storage in the building : Direct Solar Floor by Thomas Letz

PART II STORAGE IN WATER

5 Combistores by Wolfgang Streicher, Chris Bales

6 Combisystem performance investigation by Michel Haller, Peter Vogelsanger

7 Insulation materials for advanced water storages by Jørgen M. Schultz

PART III PHASE CHANGE MATERIAL STORAGE

8 A brief history of PCMs for heat storage by Stephane Citherlet

9 Ice storage by Motoi Yamaha

10 Storage techniques with Phase Change Materials by Luisa F. Cabeza

11 Microencapsulated PCM Slurries by Andreas Heinz, Wolfgang Streicher PART IV

SORPTION AND CHEMICAL STORAGE

12 Sorption and thermo-chemical storage by Chris Bales, Paul Gantenbein, Andreas Hauer, Dagmar Jaehnig, Henner Kerskes, Hans-Martin Henning, Tomas Nuñez, Klaas Visscher, Eberhard Laevemann, Matthias Peltzer

13 Storage of solar energy in chemical reactions by Jacob Van Berkel

14 Conclusions by Jean-Christophe Hadorn

Thermal Energy Storage for Solar and Low Energy Buildings - State of the Art

Chemical and Sorption Storage - Selection of Concepts
Report B1 of Subtask B
May 2005 - PDF 0.4MB
Editor: Chris Bales
This report is part of Subtask B of the Task 32 of the Solar Heating and Cooling Programme of the International Energy Agency dealing with solutions of storage based on adsoprtion or absorption processes and on thermochemical reactions. The density of storage for these techniques compared to that of water is theoretically 2 to 10 depending on the temperature range of comparison. 23 pages

Legionella in Combisystems Tanks
May 2005 - PDF 0.13MB
Editor: Dr. Luisa F. Cabeza
16 pages

Thermal Properties of Materials for Thermo-chemical Storage of Solar Heat
Report B2 of Subtask B
May 2005 - PDF 0.35MB
Editor: Chris Bales
This report is part of Subtask B of the Task 32 of the Solar Heating and Cooling Programme of the International Energy Agency dealing with solutions of storage based on adsoprtion or absorption processes and on thermochemical reactions. Adsorption promising techniques based on silicagel or zeolite materials, long time forgotten for solar energy, have been investigated in Task 32. Chemical reactions adapted to storage of solar heat for the purpose of heating a building have also been looked at.

Application of the CIE Test Cases to Assess the Accuracy of Lighting Computer Programs
April 2005 - PDF 0.24MB
Editor: Fawaz Maamari
To answer to an increasing need in the lighting simulation domain, the CIE technical committee 3.33 defined recently a set of test cases to be used for assessing the accuracy of lighting computer programs. These test cases have the advantage of avoiding or reducing the uncertainties in the validation reference data by using simple analytical scenarios or by applying reliable experimental protocols. This paper presents an application example of these test cases to two existing lighting computer programs. 32 different testing scenarios were used covering different aspects of the lighting simulation domain: direct artificial lighting, direct daylighting and diffuse reflections and inter-reflections.

Daylight and Electric Lighting Control Systems Design Guide
April 2005 - PDF 0.25MB
By: Nicolas Morel
The goal of an automatic control system for daylighting and electric lighting devices is double: 1. Optimize the user’s comfort inside the room; 2. Minimize the energy used for allowing a good inside comfort. The control system must provide, even before tuning or adaptation, a good comfort to the users. This comfort is not limited to visual comfort, but also includes thermal and air quality comforts.

Modelling Indoor Illumination by Complex Fenestration Systems Based on Bidirectional Photometric Data
April 2005 - PDF 1.01MB
By: Jan de Boer
Significant efforts to assess the Bidirectional Transmittance distribution Functions (BTDFs) of complex fenestration systems (CFS) have been undertaken in recent years. This paper presents a methodology for including these bidirectional photometric raw data sets into the daylighting simulation and design process. The method is based on computing the luminous instensity distribution on internal façade elements from BTDF data (measured or calculated) and the outside luminance distribution on the façade elements. Special designed filters, which are necessary to pre-process the raw data, are derived. Since the BTDF raw data sets are big in volume, data compression techniques are introduced and applied. In order to account for dynamic – i.e. time variant systems – façade systems, like automated blinds, control models are being provided. The method is exemplarily incorporated into a complex fenestration system database and lighting simulation engines. The procedure is being validated. Limitations of the method are being discussed.

Inventory of Phase Change Materials (PCM)
Report C2 of Subtask C
February 2005 - PDF 0.56MB
Editor: Wolfgang Streicher
This report is part of Subtask C of the Task 32 of the Solar Heating and Cooling Programme of the International Energy Agency dealing with solutions of storage based on phase change materials or “PCMs”. The topic of PCM is not completely new for solar energy storage but the way Task 32 has handled it is new. From material to system and simulation, the process was application oriented: a solar combisystem has a target. Can PCM storage do better than water tanks? 32 pages

Storage Based on Phase Change Materials (PCM) - Selection of Concepts
Report C1 of Subtask C
February 2005 - PDF 0.13MB
Editor: Wolfgang Streicher
This report is part of Subtask C of the Task 32 of the Solar Heating and Cooling Programme of the International Energy Agency dealing with solutions of storage based on phase change materials or “PCMs”. The topic of PCM is not completely new for solar energy storage but the way Task 32 has handled it is new. From material to system and simulation, the process was application oriented: a solar combisystem has a target. Can PCM storage do better than water tanks? 13 pages

Sustainable Housing in Warm Climates - Learning from Innovative Projects
February 2005
Editor: S. Robert Hastings and Maria Wall
Publisher: James & James (Science Publishers) Ltd., London
Order - $64.00 USD



Economizer Control Tests for the Empirical Validation of Building Energy Analysis Tools
June 2004 - PDF 1.97MB
By: Gregory M. Maxwell, Peter G. Loutzenhiser, and Curtis J. Klaassen

Key Findings from Online Survey on the use of Daylight Simulation Programs
March 2004 - PDF 0.29MB
By: Christoph F. Reinhart and Annegret Fitz
Document Number: NRCC-46897
The research described in this paper was motivated by the authors’ observation that despite the availability of simplified and detailed daylight simulation methods, none of these tools has yet penetrated the building design market to any great degree. The objective of this study therefore was to identify weaknesses of existing daylighting design software packages, better understand design practitioners’ needs, and accordingly provide guidance to software developers

Lightswitch 2002
A Model for Manual and Automated Control of Electric Lighting and Blinds
2004 - PDF 0.52MB
By: Christoph F. Reinhart
A simulation algorithm is proposed that predicts the lighting energy performance of manually and automatically controlled electric lighting and blind systems in private and two-person offices. Algorithm inputs are annual profiles of user occupancy and work plane illuminances. These two inputs are combined with probabilistic switching patterns, which have been derived from field data, in order to predict the status of the electric lighting and blinds throughout the year. The model features four different user types to mimic variation in control behavior between different occupants.

Performance and Durability Assessment of Optical Materials for Solar Thermal Systems
January 2004
By: Köhl, M.; Carlsson, B.; Jorgensen, G.; Czanderna A.W.
ISBN: 0-08-044401-6
Order - $170.00 USD
This book outlines the essential concepts used to assess durability and the performance of solar collector systems. Numerous practical modeling examples, testing and performance measurements are provided giving researchers a functional guide on service lifetime predictions. The chapters of the book address materials performance and system performance, environmental stress conditions, durability assessment and service lifetime prediction, methods for reducing environmental stress in solar collectors, and case studies on polymeric glazings.
Performance and Durability Assessment of Optical Materials for Solar Thermal Systems

Final Management Report (Nov. 2003)
November 2003 - PDF 0.71MB

Solar Heating Systems for Houses – A Design Handbook for Solar Combisystems
November 2003
Editor: Werner Weiss
ISBN: 1-902916-46-8
Order - $75.00 USD
The book summarises all results of Task 26. In 13 chapters, it focuses on heat demand of buildings, different system designs and built examples, building-related aspects like space requirements of the systems and architectural integration of collector arrays, performance as well as durability and reliability of solar combisystems, and last but not least, dimensioning and testing of solar combisystems. This book can be ordered from: James and James (Science Publishers) Ltd. 8-12 Camden High Street London NW1 0JH, UK
Solar Heating Systems for Houses – A Design Handbook for Solar Combisystems

RADTEST – Radiant Heating and Cooling Test Cases
July 2003 - PDF 2.18MB
By: Matthias Achermann and Gerhard Zweifel

Furnace HVAC BESTEST Report
May 2003 - PDF 1.96MB
By: Julia Purdy and Ian Beausoleil-Morrison


Quality charter...suppliers
May 2003 - PDF 0.12MB

Daylighting – HVAC Interaction for the Empirical Validation of Building Energy Analysis Tools
April 2003 - PDF 1.37MB
By: Gregory M. Maxwell, Peter G. Loutzenhiser, and Curtis J. Klaassen

European Solar Thermal Industry Federation; Sun in Action II – A Solar Thermal Strategy fort Europe
April 2003
Publisher: http://www.estif.org/11.0.html

Integrated Design Process
April 2003 - PDF 4.04MB
Integrated Design Process - a Guideline for sustainable and solar-optimized building design This guide elaborately discusses theory and practice of the Integrated Design Process. For different purposes (on screen reading or printing) there are different versions available: printing a paper version and contains no links or interactive features. Internal version contains interactive features but only provides internal links. For additional information please contact solidar@t-online.de.

Report on Solar Combisystems Modelled in Task 26
System Description, Modelling, Sensitivity, Optimisation
April 2003 - PDF 0.25MB
By: W. Streicher, C. Bales, J. Bony, D. Chèze, K. Ellehauge, R. Heimrath, D. Jaehnig, P. Papillon, M. Peter, T. Pittet, L.J. Shah
Editor: Wolfgang Streicher
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Report on Solar Combisystems Modelled in Task 26

Structure of the Reference Buildings of Task 26
April 2003 - PDF 0.24MB
By: Wolfgang Streicher, Richard Heimrath
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Structure of the Reference Buildings of Task 26




Changes on the Market Place since Task Beginning
February 2003 - PDF 0.5MB
By: Jean-Marc Suter
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Changes on the Market Place since Task Beginning

Industry Newsletter #3
January 2003

Quality Form Task 24
January 2003 - PDF 0.06MB

A Solar Collector Model for TRNSYS Simulation and System Testing
December 2002 - PDF 0.13MB
By: Bengt Perers and Chris Bales
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A Solar Collector Model for TRNSYS Simulation and System Testing


European Test Facilities for Solar Combisystems and Heat Stores
December 2002 - PDF 0.41MB
By: H. Drück, P. Kovács, R. Morlot, H. Visser, P. Vogelsanger
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European Test Facilities for Solar Combisystems and Heat Stores

IEA SCH programme: Solar Thermal Collector Market in IEA Member Countries
December 2002

Library of References on Solar Combisystems
December 2002 - PDF 0.12MB
By: Peter Kovács
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Library of References on Solar Combisystems

Solar Energy Activities in IEA Countries 2002
December 2002
Editor: Pamela Murphy, Executive Secretary, IEA SHC
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The eighth edition of this SHC document reports on the latest status of solar building technologies, funding levels, research, technology advances and commercial developments in 14 IEA countries.


Solar Thermal Collector Market In IEA Member Countries 1999-2000
December 2002 - PDF 0.91MB
By: Werner Weiss and Gerhard Faninger
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This report analyzes solar thermal collector data compiled by the SHC Programme.

Solar Thermal Collector Market In IEA Member Countries 1999-2000

Solupphandling (project 9)
December 2002 - PDF 1.46MB


Validation and Background Information on the FSC Procedure

Validation of the CTSS Test Procedure by In-Situ Measurements
December 2002 - PDF 0.21MB
By: Henner Kerskes
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Validation of the CTSS Test Procedure by In-Situ Measurements

Hot Water Performance of Solar Combistores
November 2002 - PDF 0.3MB
By: Harold Drück, Stephan Bachmann
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Description of a test method and the experience gained with the application of the method on three different types of combistores

Hot Water Performance of Solar Combistores

Performance Testing of Solar Combisystems
Comparison of the CTSS with the ACDC Procedure
November 2002 - PDF 0.19MB
By: Harald Drück, Stephan Bachmann
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Performance Testing of Solar Combisystems

Stagnation Behaviour of Solar Thermal Systems
November 2002 - PDF 0.31MB
By: R. Hausner, C. Fink
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Stagnation Behaviour of Solar Thermal Systems

The Concise Cycle Test Method
A Twelve Day System Test
November 2002 - PDF 0.15MB
By: Peter Vogelsanger
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The Concise Cycle Test Method

Combitest - Initial Development of the AC/DC Test Method



Ongoing Research Relevant for Solar Assisted Air Conditioning Systems
October 2002 - PDF 0.12MB
Final Report for Task 25



Slide Show - IEATask24 - Portugal
June 2002 - PDF 2.68MB
By: Hans Westling

Blueprint for a Kick-off Workshop
May 2002 - PDF 0.13MB
This document is a basis for the organization of a design team workshop at the very beginning of the integrated design process. The main objective of the workshop is to create common understanding at the beginning of the design process with regard to three important notions:knowledge about the integrated design process, a clear perception of the design task, a co-operative and open attitude towards the other members of the design team.


Oslo Norway - April 8, 2002
April 2002 - PDF 4.92MB



Copenhagen, Denmark (March 2002)
March 2002 - PDF 0.05MB

The Power of Solar: Integrating Solar Energy Into Today's Buildings
2002 - PDF 0.13MB
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Formed in 1974 as an autonomous body within the Organization for Economic Cooperation and Development (OECD), the International Energy Agency (IEA) carries out a program of energy cooperation, including joint research and development of new and improved energy technologies.





Industry Newsletter #2
September 2001


Empirical Validation of Iowa Energy Resource Station Building Energy Analysis Simulation Models
June 2001 - PDF 1.69MB
Editor: Juan Travesi, Greg Maxwell, Curt Klaassen, Michael Holtz

Swiss Manual for Solar Energy Campaigns
June 2001 - PDF 0.23MB
By: Swiss Manual for Solar Energy Campaigns

Evaluation report 1998-2001
May 2001 - PDF 0.1MB






Model Document for Tender
February 2001 - PDF 0.19MB

Survey of Solar Assisted Cooling
2001
By: I. Pilatowsky and W. Rivera, UNAM, Temixco, Mexico
This report is a printout of the Task’s Subtask A database. The database is of finished and ongoing solar assisted cooling projects in 12 countries.

Solar Air Systems - A Design Handbook
December 2000
Editor: R. Hastings
Publisher: Earthscan
ISBN: 1-873936-86-9
Order - 70.00 GBP
This handbook guides architects and engineers through the process of designing and selecting one of the six active solar systems presented and optimizing that system. Tips also are given on construction and how to avoid problems.

Espoo, Finland - October 9, 2000
October 2000 - PDF 2.47MB



"IEA SHC Task 24 - Grosseinkauf von thermischen Solaranlagen
September 2000 - PDF 0.92MB
By: Westling, Hans
Paper (in German) for the Gleisdorf Solar 2000 Symposium, Gleisdorf, Austria

Industry Newsletter #1
September 2000
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Daylight in Buildings
Source Book on daylighting systems and components
July 2000
Document Number: LBNL-47493

This source book gives a comprehensive overview of innovative daylighting systems, the performance parameters by which they are judged, and an evaluation of their energy savings potential and user acceptance. The book has been written to overcome a lack of evidence of the advantages of daylighting in buildings and a lack of knowledge regarding the performance of innovative daylighting systems in buildings in various climatic zones around the world. The information presented here is intended to be used in the earliest stages of the building design process.

Daylight in Buildings


Borlänge, Sweden - April 3, 2000
April 2000 - PDF 0.67MB





Empirical Validation of EDF, ETNA & GENEC Test-Cell Models
February 2000 - PDF 0.74MB
Editor: S. Moinard and G. Guyon, Electricité De France
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This report documents empirical validation testing for thermal models related to the architectural fabric of the buildings. In this study predictions from several building energy simulation programs were compared to measured results for three separate experiments.


Models for Building Indoor Climate and Energy Simulation
December 1999 - PDF 1.55MB
By: Axel Bring, Per Sahlin, and Mika Vuolle

POE Procedures and results
December 1999 - PDF 0.58MB
By: Staffan Hygge and Hans Allan Löfberg

Solar Renovation Concepts and Systems
November 1999 - PDF 18.8MB
Editor: Andreas Haller, Ernst Schweizer AG, Metallbau
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This report discusses strategies for cost reduction of solar renovation concepts and systems and documents 13 development projects. It contains designs for specific renovation projects, including general concept studies based on housing projects, product developments and research projects. Most of the projects are related to glazed balconies, solar wall heating with transparent insulation, solar thermal collectors, and preheating ventilation air.



Stuttgart, Germany - October 4, 1999
October 1999 - PDF 0.37MB

Customer satisfaction: A focus for research & practice
September 1999 - PDF 0.13MB
By: Hans Westling Promandat AB
Report for the CIB 99 Joint Triennial Symposium, Stockholm, Sweden

Customer satisfaction: A focus for research & practice
September 1999 - PDF 0.13MB
Report for the CIB 99 Joint Triennial Symposium, Cape Town, South Africa, 6-10 September 1999, Hans Westling Promandat AB, Stockholm, Sweden

Low Cost, High Performance Solar Air-Heating Systems Using Perforated Absorbers
September 1999 - PDF 8.11MB
Editor: Alfred P. Brunger
This report provides descriptions of and performance data for seven demonstration projects in Europe, North America and the Pacific Rim. It also describes two software tools, UTCFLOW and SIMIAIRT, which engineers can use to aid in the design of such systems. The intended audience includes designers and prospective purchasers and operators of solar air-heating systems using perforated absorbers.

Measurement of luminous characteristics of daylighting materials
September 1999 - PDF 2.12MB

The planned use of daylight in buildings is nowadays a necessary strategy to minimise the energy for lighting, heating and cooling as well as to improve the comfort and visual performance in interiors. The use of daylight to replace or supplement electric lighting in buildings can result in significant energy savings. New innovative daylighting systems developed over the last fifteen years are used to control the daylighting in interiors, the solar radiation entering the interior as well as thermal losses and gains. For a good daylighting design in different climatic zones, the performance parameters of the used daylighting system have to be known.

Measurement of luminous characteristics of daylighting materials

Solar Air Systems - Built Examples
August 1999
Editor: R. Hastings
Publisher: Earthscan
ISBN: 1-873936-85-0
Order - 70.00 GBP
This report documents the work of 17 experts from the diverse climates of nine countries in Europe and North America. Applications include single-family houses, apartment buildings, schools, gymnasiums, large industrial buildings and commercial buildings. The publication reports on six different types of solar air systems in 35 buildings.



Applicability of daylighting computer modeling in real case studies
November 1998 - PDF 1.35MB
By: Galasiu, A.D.; Atif, M.R.
Document Number: NRCC-42862

Solar Air Systems Product Catalogue
November 1998
Editor: R. Hastings and H. Røstvik
Publisher: Earthscan
ISBN: 1-873936-84-2
This catalogue is to inform building designers what components are available "off the shelf" for putting together a solar air system. Manufactured components or whole systems may be less expensive, more efficient and more reliable than custom-designed, site-built systems. The goal of this catalogue is therefore to prevent the wheel from being repeatedly reinvented.

Solar Renovation Demonstration Projects
October 1998 - PDF 1.39MB
Editor: Olaf Bruun Jørgensen, Esbensen Consulting Engineers, FIDIC
Document Number: Task 20 STC N20
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This report documents 16 different solar renovation demonstration projects including the design processes of the projects. The projects include the renovation of houses, schools, laboratories, and factories. Several solar techniques were used: building integrated solar collectors, glazed balconies, ventilated solar walls, transparent insulation, second skin facades, daylight elements and photovoltaic systems. These techniques are used in several simple as well as more complex system designs.



Opportunities for Large-Scale Purchase of Active Solar Systems
1998
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Joint report of IEA Solar Heating and Cooling Programme Task 24 and IEA CADDET Renewable Energy. Technologies Programme. This document is comprised of four reports from authors in different countries. The topics covered are: the potential and opportunities for the development of the solar thermal heating market, the purchasing motives for utilities and housing companies, the analysis of possible buyers of solar water heaters, and the analysis of typical solar water heating systems in different countries.

Opportunities for Large-Scale Purchase of Active Solar Systems
1998
This document is comprised of four reports from authors in different countries. The topics covered are: the potential and opportunities for the development of the solar thermal heating market, the purchasing motives for utilities and housing companies, the analysis of possible buyers of solar water heaters, and the analysis of typical solar water heating systems in different countries. Joint report of IEA Solar Heating and Cooling Programme Task 24 and IEA CADDET Renewable Energy Technologies Programme.

Solar Procurement - Collaborative Buyer Actions for Efficient Distribution
1998 - PDF 0.28MB
By: Dalenback, J-O, Zinko Heimo, Westling, Hans
Paper for the EuroSun 98 Congress, Portoroz, Sloveni

Daylight Monitoring Protocol & Procedures for Buildings
October 1997 - PDF 0.25MB
By: Atif, M.R.; Love, J.A.; Littlefair, P.
Document Number: NRCC-41369

Daylight Monitoring Protocol & Procedures for Buildings
October 1997 - PDF 0.25MB
By: Atif, M.R.; Love, J.A.; Littlefair, P.
Document Number: NRCC-41269

Daylight Monitoring Protocol & Procedures for Buildings
October 1997 - PDF 0.25MB
By: Atif, M.R.; Love, J.A.; Littlefair, P.
Document Number: NRCC-41369


Solar Heating in Northern and Central Europe - The Solar Heating Market
June 1997
By: Heimo Zinko
Document Number: CEC - THERMIE B
http://www.algonet.se/~walle/

Swedish Property Developer Pioneers Renewable Energy
June 1997
By: Jan-Olof Dalenback, Dept. of Building Services Enginerring, Chalmers University of Technology, Gothenburg, Sweden
Publisher: IEA CADDET Centre for Renewable Energy
Document Number: CADDET Renewable Energy Newsletter, Issue 2.97


Solar Thermal Procurement
May 1997 - PDF 0.12MB
By: Hans Westling
Paper for the International Conference on Solar Energy & Utilities, Vejle, Denmark

Dynamic Testing of Active Solar Heating Systems (Volumes A & B)
April 1997
Editor: H. Visser, TNO Building and Construction Research, and T. Pauschinger, University of Stuttgart
Volume A describes the combined dynamic testing of components and system simulation for small solar heating systems as well as in situ measurements of large solar heating systems. Volume B presents the work on dynamic testing of solar DHW systems. Both volumes contain summaries of the work carried out followed by a collection of papers contributed by Task experts describing the experiences with dynamic testing and measuring in more detail.

Realizing 10,000 Solar Water Heaters by the "Project Approach": lower cost, higher quality
1997
By: 1. P.G. Out, C.J. van der Leun, Ecofys Research and Consultancy
Publisher: Solar Energy & Utilities Conference, Vejle, Denmark

Advanced Solar Domestic Hot Water Systems
October 1996 - PDF 2.08MB
By: Professor William Duff, Solar Energy Applications Laboratory, Colorado State University
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Task 14 was initiated to advance the state-of-the-art in active solar energy systems. Many features developed during the few years before the start of the Task, when used alone or in combination, had the potential to significantly improve the performance of these systems. It was the objective of Task 14 to analyze, design, evaluate and, in some cases, construct and monitor a number of different systems incorporating one or more of these features.

Final Task Management Report
October 1996 - PDF 0.2MB
By: Anne Grete Hestnes, The Royal Ministry of Industry and Energy
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The focus of the Task was the application of passive and/or active solar technologies for space heating of single family and multi family residential buildings. The use of passive and active solar concepts for cooling, ventilation, and lighting was also addressed, as well as advanced energy conservation measures to reduce heating and cooling loads.

Dynamic Testing of Active Solar Heating Systems Summary
May 1996 - PDF 0.96MB
By: Bengt Pererrs, Thmas Pauschinger, Per Isakson, Huib Visser

This report summarizes the work of the Dynmaic Component and System Testing (DCST) Subtask with Task 14 of the IEA Solar Heating and Cooling Programme.  The DCST Subtask was incorporated in Task 14 on Advanced Solar Energy Systems in 1993 after completion of the Dynamic Systems Testing Group (DSTG), a remote working group within Task 14.  The DSTG work was continued and extended in the DCST Subtask.

Dynamic Testing of Active Solar Heating Systems Summary

Improved Measurement of Solar Irradiance by Means of Detailed Pyranometer Characterisation
April 1996 - PDF 7.89MB
By: D.I. Wardle, et al., Atmospheric Environment Service, Canada
Document Number: IEA-SHCP-9C-2
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The focus of the work is on determining the effects of factors other than irradiance on the signals from pyranometers, which is the meaning of characterisation in the context of pyranometery. Results from eleven laboratories on nearly thirty pyranometers of seven types have been examined.

Large Solar Energy Systems
April 1996 - PDF 28.71MB
By: Per Isakson, Klaus Vanoli, Rainer Tepe, Teun Bokhoven, Aart de Geus
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Task 14 was initiated to advance the state-of-the-art in active solar energy systems. Many features developed during the few years before the start of the Task, when used alone or in combination, had the potential to significantly improve the performance of these systems. It was the objective of Task 14 to analyze, design, evaluate and, in some cases, construct and monitor a number of different systems incorporating one or more of these features. The large systems working group within the Task examined large scale heating systems involving temperatures under 200°C. Five large systems were studied. This report covers three of those systems. Two other projects, Solar desalination in Spain, and an Industrial process heat project in Switzerland, are reported separately.

Atrium Models for the Analysis of Thermal Comfort and Energy Use
March 1996 - PDF 38.54MB
Editor: I. Bryn and P. A. Schiefloe
Document Number: T.12.A.3-1
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This report describes models for thermal comfort and energy consumption in atria. The models include infiltration and natural ventilation, stratification, air flow patterns, surface film coefficients, and solar radiation. These are models which have not been included in many of the commonly used building energy simulation tools, and their improvement constitutes the main result of this research.

The market potential for solar heating plants in some European countries
March 1996
By: Heimo Zinko, John Bjarklev, and Peter Margen
Document Number: CEC APAS-RENA Project CT 94-0057
http://www.algonet.se/~walle/

Co-operative Procurement - Market Acceptance for Innovation Energy Efficient Technologies
1996
By: Hans Westling, Promandat AB
Document Number: B1996:3 NUTEK/IEA

Co-operative Procurement - Market Acceptance for Innovative Energy-Efficient Technologies
1996
By: Westling, H
ISBN: B1996:3. NUTEK/IEA
Stockholm, Sweden

Solar Energy Houses: Strategies, Technologies, Examples
1996
By: Hestnes, A.G., S.R.Hastings, and B.Saxhof
Publisher: James & James Science Publishers Ltd, London
ISBN: 1-873936-69-9
Order - 49.50 GBP

Notes from the 1995 Workshop on Large-scale Solar Heating
Vienna, Austria, October 1995
December 1995
Editor: J. O. Dalenback, CIT Energiteknisk Analys, Sweden
Document Number: ISSN 1101-5233
Sessions included, APAS - Large-scale Solar Heating Systems, National Overviews, Projects in Operation, Projects Under Construction, Storage Design, Collector Design, and System Design.

Using Pyranometers in Tests of Solar Energy Convertors: Step-by-Step Instructions
November 1995 - PDF 8.02MB
By: L.B.J. McArthur, et al., Atmospheric Environment Service, Canada
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This report offers a step-by-step guide to the measurement of global solar radiation for the purpose of determining the efficiency of flat plate solar collectors. Comprehensive instructions are provided for each stage of the procedure, including where to obtain instrument responsivities and how to install and operate pyranometers and their data acquisition systems. It is assumed the reader has some technical expertise in collector installation and operations, but not necessarily familiar with the measurement of solar radiation.

Component and System Testing
October 1995
Editor: Saxhof, B., DTU, Copenhagen
ISBN: 87- 984610-3-6
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IEA Comparisons of Global Solar Radiation Reference Radiometers
March 1995 - PDF 1.09MB
By: L. Liedquist, et al., Swedish National Testing and Research Institute
Document Number: IEA-SHCP-9F-4
In solar energy research the ability to accurately measure the incoming solar irradiance level is important. This report presents the findings from two studies which compared three reference instruments to verify the 1% uncertainty and also to assess the state-of-the-art.

Notes from the 1995 Workshop on CSHPSS Design
Stuttgart, Germany, March 1995
March 1995
Editor: J. O. Dalenback, CIT Energiteknisk Analys, Sweden
The workshop covered a detailed design review for two new demonstration plants.

Our New Solar Buildings
In Sun at Work in Europe, Volume 10, Number 1
March 1995
By: Hestnes, A.G.

Building Energy Simulation Test (BESTEST) and Diagnostic Methods
February 1995
By: R. Judkoff, NREL and J. Neymark F
Document Number: NREL/TP-472-6231
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This report documents a comparative testing and diagnostic procedure for thermal models related to the architectural fabric of the building. The report is divided into three parts: Part I is a users manual on how to apply the BESTEST procedure, Part II describes the development, field testing, and production of data for the procedure, Part III presents the output of the reference programs in tables and graphs.


Workshop on Design and Rating of Solar Water Heater Storage Tanks - Proceedings
February 1995, San Diego, CA
February 1995
Editor: Convener, G. S. Morrison, University of New South Wales
Document Number: IEASHC/WS/2-95
The workshop covered tank and heat exchanger design practice, simulation and ratings in contributing countries.

Workshop on Solar Water Heater Tank Design and Rating
February 10-11, 1995 - San Diego
February 1995 - PDF 6.48MB
Editor: Graham Morrison

This report contains the working papers from a workshop on solar domestic hot water system tank design and rating.  The workshop was organised as part of the IEA SHC Programme and was held in February 1995 in conjunction with the Task 14 meeting in San Diego, USA.  The participants included representatives to the Task 15 program from nine countries and industry representatives from six countries.

Workshop on Solar Water Heater Tank Design and Rating

Photovoltaics in Buildings: A Design Handbook for Architects and Engineers
1995 - PDF 9.75MB
By: Friedrich Sick and Thomas Erge, Fraunhofer Institute for Solar Energy Systems (FhG-ISE)
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Although an inherently elegant concept, photovoltaics in buildings is not turned into appealing architecture and sound engineering without the concerted professional efforts of several disciplines. Only by working closely together, can engineers and architects combine technology and architecture in a way that may revolutionize our understanding of both energy and buildings.

Solar Low Energy Houses of IEA Task 13
1995
By: Hastings, S.R.
Publisher: James & James Science Publishers Ltd., London
ISBN: 1-873936-37-0
Order - 17.99 GBP

Buyer Co-operation for Energy Efficient Appliances. Creative Buyer Groups with Goal and LCC Orientation – New Project Management Area. Paper for the Project Management Institute Conference
October 1994
By: Westling, H.
Vancouver

Proceedings from the 1994 Workshop on Large-scale Solar Heating
Göteborg, Sweden, October 1994
October 1994
Editor: J. O. Dalenback, CIT Energiteknisk Analys, Sweden
Document Number: ISSN 1101-5233
The workshop included sessions on National Overviews, System Design, Solar Collector Systems, and Seasonal Storage Systems.

Empirical Validation of Thermal Building Simulation Programs Using Test Room Data Vol. 1
September 1994 - PDF 7.12MB
By: K. Lomas, H. Eppel, C. Martin, D. Bloomfield
Publisher: UK Building Research Establishment
Volume 1: Final Report is the first of this 3 volume set. These activities resulted in the production of a set of Building Energy Simulation Tests (BESTESTs), based on inter-model comparisons. These tests, based on domestic scale buildings, are structured such that reasons for poor predications from a program can be diagnosed.

Empirical Validation of Thermal Building Simulation Programs Using Test Room Data Vol. 2
September 1994 - PDF 3.83MB
By: K. Lomas, H. Eppel, C. Martin, M. Watson, D. Bloomfield
Publisher: UK Building Research Establishment
Volume 2: Empirical Validation Package is the second of this 3 volume set. These activities resulted in the production of a set of Building Energy Simulation Tests (BESTESTs), based on inter-model comparisons. These tests, based on domestic scale buildings, are structured such that reasons for poor predications from a program can be diagnosed.

Empirical Validation of Thermal Building Simulation Programs Using Test Room Data Vol. 3
September 1994 - PDF 7.84MB
Editor: K. Lomas
Publisher: UK Building Research Establishment
Volume 3: Working Reports is the third of this 3 volume set. These activities resulted in the production of a set of Building Energy Simulation Tests (BESTESTs), based on inter-model comparisons. These tests, based on domestic scale buildings, are structured such that reasons for poor predications from a program can be diagnosed.

Meeting the Thermal Energy Needs of Buildings in the 21st Century: What Role Can Solar Energy Play?
March 1994
Editor: C. A. Bankston, CBY Associates, U.S.A.
Document Number: DV.1.1.31.94.3
This publication calls the attention of national energy planners and decision-makers to possible long-term policies and strategies for meeting the thermal energy requirements for heating and cooling buildings with waste heat and renewable energy resources.

Passive Solar Commercial and Institutional Buildings
Source Book of Examples and Design Insights
March 1994
Editor: S. R. Hastings
Publisher: John Wiley & Sons
ISBN: 0471939439
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The results of research performed by solar experts from twelve countries during the years 1986 to 1991 are presented here, featuring forty-five building case studies.

Accelerated Life Testing of Solar Energy Materials: Case Study of Some Selective Solar Absorber Coating Materials for DHW Systems
February 1994 - PDF 6.87MB
By: B. Carlsson, et al., Swedish National Testing and Research Institute
ISBN: 91-7848-472-3
This report documents the results of a joint study aimed at establishing the use and limitations of accelerated life testing methods that are applicable to materials used in solar heating and cooling applications.
Accelerated Life Testing of Solar Energy Materials: Case Study of Some Selective Solar Absorber Coating Materials for DHW Systems

Review and Test of Parameterizations of Atmospheric Radiation
1994
By: Jan Asle Olseth, Arvid Skartveit, Gerhard Czeplak, Deutscher Wetterdienst, Matthias Rommel
The present technical report documents the data analysis performed in the Subtask. It gives a review of models for the estimation of longwave atmospheric radiation from available meteorological data, ranging from simple models using easily available surface data as input, to sophisticated models for the estimation of spectral longwave radiation from detailed temperature/humidity profiles. The simple models for broadband and spectral longwave radiation on horizontal surfaces are tested against measured data and against a sophisticated spectral model. By both methods, the same models were identified as best performing. Recommendations on the applicability of the simple models are given.

Simulation Strategies for Selected Technologies
1994
By: Poel, B. and H.Erhorn, Damen Consultants, Arnhem
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Solar Energy Activities in IEA Countries 1993
November 1993 - PDF 0.49MB
Editor: S. Blum, International Planning Associates, Inc.
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This brochure provides a glimpse of some of the activities and This report outlines the national solar building technology activities in the member countries of the IEA Solar Heating and Cooling Programme. The country reports provide insights into the status of government policies, funding levels, research emphasis, technology advances, and commercial development.

Solar Energy Activities in IEA Countries 1993

Thermochromic Switchable Glazing Modeling
October 1993 - PDF 1.02MB
By: Hans Erhorn and Rolf Stricker
Publisher: Fraunhofer Institute for Building Physics

This report concentrates on describing ways of modeling thermochromic glazing systems and how integration of these models into a building energy analysis simulation program can be accomplished. The algorithms introduced in this report will make it possible to determine the interaction between thermochromic switchable glazing systems and a buildings temperature behavior.


Transparent Insulation Material Modeling
October 1993 - PDF 3.06MB
By: H. Erhorn, Fraunhofer Institut fur Bauphysik & R. Stricker, B.E.S.T-Stuttgart
Document Number: T.12.A.1-2
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The algorithms presented in this report are intended to compute the interaction of transparent insulation systems and the temperature behavior of the entire building. These algorithms can be incorporated into any building energy analysis simulation tools that compute building energy balances on the basis of hourly weather data sets. The compilation of these algorithms is preceded by an overview of building applications and constructions of TIM systems which give an impression of the overall range of applications.
Transparent Insulation Material Modeling

IEA Comparison of Longwave Radiometers
July 1993 - PDF 1.73MB
By: K. Dehne, Meteorological Observatory Hamburg, et al.
Document Number: IEA-SHCP-9F-3
This technical report summarizes the findings from the testing of eight measuring systems--six pyrgeometers and two pyrradiometers.

The Characterization and Testing of Solar Collector Thermal Performance
April 1993 - PDF 3.45MB
By: S. J. Harrison, Queen's University, Canada
Document Number: IEA-SHC-T.3.D.1

This report summarizes the progress made by Task participants in developing characterization equations and test methods for various types of collectors. In particular, it shows how a simple generic model can be used to describe different collectors operating over a wider range of conditions than normally covered in standard tests.

The Characterization and Testing of Solar Collector Thermal Performance

NUTEK: Purchasers' Requirements Dictate Development: A Study of Technology Procurement
1993
Brochure. Stockholm, Sweden

Dynamic Testing of Solar Domestic Hot Water Systems - Volume B
Final report of the IEA Dynamic Systems Testing Group
December 1992 - PDF 4.15MB
Editor: H. Visser and A.C. de Geus

This publciation presents the experiences of the IEA's Dynamic Systems Testing Group (IEA DSTG) on the characterization of the thermal performance of solar domestic hot water (SDHW) systems using the dynamic test method. The complete results of the DSTG's activities are presented in two Volumes of this final report.  This volume B "Participant Contributions" contains a collection of papers fo the DSTG participants and other interested researches, describing the findingswith respect to dynamic testing of SDHW systems in more detail.

Dynamic Testing of Solar Domestic Hot Water Systems - Volume B

Dynamic Testing of Solar Domestic Hot Water Systems, Volumes A and B
December 1992
Editor: H. Visser and A. C. de Geus, TNO, The Netherlands
Document Number: B-92-0383/26.67029
Volume A: Development and Evaluation of the Dynamic Test Procedure provides a description of dynamic SDHW system testing including dynamic testing in practice. Volume B: Participant Contributions contains a collection of papers from the DSTG participants and other interested researchers, describing the findings with respect to dynamic testing of SDHW systems.

Advanced Solar Low Energy Buildings: An Update of Task 13 of the IEA's Solar Heating and Cooling Programme
In Sun World, Volume 16, Number 3
September 1992
By: Hestnes, A.G.

Solar Materials Research and Development: Performance Criteria for New Solar Materials
September 1992 - PDF 4.15MB
Editor: G. Bert Brouwer, Van Heugten Consulting Engineers
ISBN: 91-7848-472-3
This report outlines the principal results of cooperative research on (1) a means of material selection for various solar applications and locations, and (2) a methodology to estimate the energy benefits resulting from such selections. The two primary materials groups investigated were spectral selective coatings on solar collector absorbers in solar hot water systems and transparent insulation materials.
Solar Materials Research and Development: Performance Criteria for New Solar Materials

Techniques for Supplementing Solar Radiation Network Data - Volume 1: Report
September 1992 - PDF 7.43MB
By: Antoine Zelanka, Gerhard Czeplak, Vito D'Agostino, Weine Josefsson, Eugene Maxwell, Richard Perez
Solar radiation data are required for resource assessment, simulation model development and validation, system design and evaluation, collector testing, and other activities in the field of solar energy research and application. A complex computer model may be useless if accurate input data from a near-by measuring station are not available. On the other hand, the density of radiometric stations is limited for economical reasons. Thus, there is a need for spatially continuous mapping of solar radiation.

Techniques for Supplementing Solar Radiation Network Data - Volume 2: Theory
September 1992 - PDF 2.29MB
By: Antoine Zelanka, Gerhard Czeplak, Vito D'Agostino, Weine Josefsson, Eugene Maxwell, Richard Perez
The procedure of estimating the values of physical properties at unsampled sites within areas covered by existing observation networks is call interpolation, while outside the areas it it call extrapolation. The value of a variable between data points can be interpolated only by fitting some plausible model of variation to the values at the data points and then calculating the value at the requested location.

Techniques for Supplementing Solar Radiation Network Data - Volume 3: Results
September 1992 - PDF 1.94MB
By: Antoine Zelanka, Gerhard Czeplak, Vito D'Agostino, Weine Josefsson, Eugene Maxwell, Richard Perez

Solar Radiation Statistical Properties
August 1992 - PDF 5.59MB
By: R. Festa and C. Ratto, University of Genoa, Italy
Document Number: IEA-SHCP-9E-4.
This technical report discusses the main results achieved over the last 30 years on this topic.

Strategic Study on the Construction Sector. A large number of reports. Commission of the European Communities
1992
By: Atkins, W.S. International Limited
Document Number: F2347

Strategic Study on the Construction Sector. A large number of reports. Commission of the European Communities
1992
By: Atkins, W.S.
Publisher: International Limited
Document Number: F2347

Working Together for a Solar Future
July 1991
Editor: S. Blum, International Planning Associates, Inc.
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This brochure provides a glimpse of some of the activities and accomplishments of the long-term international collaboration of the IEA Solar Heating and Cooling Programme to create the solar buildings of the future.

Proceedings of the IEA Workshop on Thermal Energy Storage and Low Energy Buildings
Tutzing, Germany, 18-19 June 1991
June 1991
Editor: W. Schölkopf and R. Sizmann, University of Munich, Germany
This workshop was held to consider the appropriate role and effective design of thermal energy storage systems in solar and low-energy buildings. The participants were divided into three working groups: (1) diurnal and short-term storage for heating and cooling, (2) seasonal storage for heating and cooling, and (3) system design, technologies and materials. The major findings and recommendations of each working group are summarized in this report.

Passive and Hybrid Solar Commercial Buildings: Advanced Case Studies Seminar
April 1991 - PDF 15.72MB
By: Task 11

Researchers in participating countries of the IEA Task XI of the Solar Heating and Cooling Programme have been studying real buildings which employ passive and hybrid passive/active solar strategies designed to reduce use of non-renewable fuels.  The basic strategies used to achieve this end have been devided into four categories, the first three being, HEATING, COOLING and LIGHTING.  The fourth category is dedicated to the increasingly popular ATRIUM which often provdes a combination of passive heating, cooling and lighting.

Passive and Hybrid Solar Commercial Buildings: Advanced Case Studies Seminar

Innovation, the Organised Market and the Productivity Slowdown. For The Technology Economy Programme. Technology and Productivity. The Challenge for Economic Policy
1991
By: Lundvall, B Å
OECD, Paris, France

Networks and Market Creation. Research Policy, No. 20
1991
By: Teubal, M & Yinnon, T & Zuscovitch, E

Technology Procurement for Innovation in Swedish Construction
1991
By: Westling, H
Document Number: BFR D17:1991
Stockholm, Sweden

Design Information Booklet No. 6 - Passive Solar Homes: Case Studies
December 1990 - PDF 6.19MB
By: H. Kok, Bowencentrum, The Netherlands & M. J. Holtz, Architectural Energy Corp., U.S.A.
Document Number: 061-000-00769-5
This booklet is the sixth in a series of eight. It describes the passive and hybrid solar houses designed, constructed, and monitored under the IEA Task 8 project. The booklet reinforces the idea that good energy design is also good architecture and cost effective. Each passive solar houses is presented as a case study on the design, construction, and performance results.

Design Information Booklet No. 3 - Design Guidelines: An International Summary
July 1990 - PDF 0.82MB
By: M. J. Holtz, Architectural Energy Corporation, U.S.A.
Document Number: 061-000-00780-6
This booklet, one in a series of eight, summarizes the major findings and patterns of performance observed using national passive solar energy conservation guidelines.

Central Solar Heating Plants with Seasonal Storage: A Status Report
June 1990 - PDF 7.54MB
By: Swedish Council for Building Research
ISBN: 91-540-5201-7
This report is the last in a series of IEA technical reports on this topic. CSHPSS systems in seven countries are presented and a general study of the feasibility and cost-effectiveness of such a system in various climates and applications is outlined.


Proceedings of the Third Workshop on Solar-Assisted Heat Pumps with Ground Coupled Storage
Gothenberg, Sweden, January 1989
January 1990
Editor: J.O. Dalenback, Chalmers University of Technology, Sweden

Model Testing Workshop - 25-30 June 1989, Fort Collins, Colorado
December 1989 - PDF 3.29MB
Editor: W.S. Duff, Colorado State University
This report is intended primarily for those who have expertise in both simplified and detailed solar energy systems modeling. It provides descriptions, discussions, analyses, comparisons, graphics, and data that originated in the June 1989 workshop.

Survey of Service Life Prediction Methods for Materials in Solar Heating and Cooling
September 1989
By: B. Carlsson
Publisher: Swedish National Testing Institute, Sweden

Design Information Booklet No. 5 - Construction Issues
August 1989 - PDF 0.68MB
By: H. Kok, Bouwcentrum, The Netherlands & S. Andrews, Solar Spectra, U.S.A.
Document Number: 061-000-00746-6
This booklet defines and provides several proven solutions for construction problems unique to the use of passive and hybrid solar features. The intent is to define where construction detailing is crucial to the performance of low energy, passive solar homes and provide some ideas on how these problems can be solved for a range of construction technology.

Design Information Booklet No. 8 - Post-Construction Activities
August 1989 - PDF 0.38MB
By: S. Blum, International Planning Associates, Inc., USA, et al.
Document Number: 061-000-00-733-4
This booklet defines issues to be considered once a project is constructed and occupied. It addresses the elements of passive solar buildings that are unique and may require special attention by the occupants. Performance evaluation of the homes in terms of energy performance comfort, and occupant satisfaction is also addressed so that designers can understand how well the project is performing.

Report of the IEA Status Seminar on Solar Air Systems: Parts 1 and 2
Utrecht, the Netherlands, 1-3 March 1988
July 1989
Editor: NOVEM, The Netherlands

Design Tool Evaluation Benchmark Test Cases
May 1989 - PDF 3.18MB
By: D. Bloomfield, Building Research Establishment, U.K.
Document Number: T.8.B.4
This report documents the simulation work conducted by the participants in an IEA Task 8 working group on Design Tool Evaluation. The objective of the working group was to investigate the practicality of producing a series of references or benchmark test cases that could be used as part of a rational process for choosing a thermal design tool for residential buildings.

Failure and Degradation Modes in Selected Solar Materials: A Review
May 1989 - PDF 3.84MB
By: C. Lampert, Lawrence Berkeley Laboratory, U.S.A.

It is widely know that most materials used in solar energy conversion and building energy control applications suffer from two major restrictions, the first being the cost-effectiveness of the martierial in a particular use and the second being durability. In the solar field, cost has been a very important factor and has srestricted development of more expensive but efficient materials.  The issue of durable lifetime is coupled to the cost; since in many cases a more expensive material might have greater durability or operational lifetime.  This investigation looks into selected soalr materials and how they degrade, fail or cease to function in their specific solar application, and explores methods by which certain materials can have their operational life extended.  This report documents work conducted as part of Task 10: Solar Materials R&D of the IEA Solar Heating and Cooling Program.

Failure and Degradation Modes in Selected Solar Materials: A Review


Passive and Hybrid Solar Commercial Buildings: Basic Case Studies
January 1989 - PDF 14.43MB
By: Databuild, U.K.

A collection of 48 case studies of passive and hybrid solar commerical buildings from12 countries and the CEC is presented, covering a wide variety of building types, climates and locations.  Generalisations, concerning building performance are more difficult, and sometimes impossble, due to the diversity of buildings, systems and climates.

Passive and Hybrid Solar Commercial Buildings: Basic Case Studies

Design Information Booklet No. 4 - Design Tool Selection and Use
December 1988 - PDF 1.79MB
By: S.Blum, et al., International Planning Associates, Inc., U.S.A.
Document Number: 061-000-00723-7
This booklet addresses the characteristics desirable in a design tool and a means to select one or more for use. The selection process is organized around the design process; what design questions are being addressed, what information is available, what output or result from a design tool is desired. A checklist is provided to assist in the tool selection. Benchmark test cases developed from detailed building energy analysis simulations are presented as a means to evaluate simplified design tools.

Performance Evaluation Procedures
October 1988 - PDF 3.25MB
By: O. Mørck, Technical University of Denmark, et al.
Document Number: T.8.A.3
This report documents the common monitoring and performance evaluation procedures used by the participating countries in assessing performance of buildings.

Design Information Booklet No. 1 - Energy Design Principles in Buildings
July 1988 - PDF 2.93MB
By: A. Minne, Université Catholique de Louvain, Belgium
This booklet is a primer on heat transfer in buildings. Fundamental heat transfer concepts and terminology are defined, followed by a discussion of heating and cooling strategies and principles for passive and hybrid solar buildings.

Calculation of Solar Irradiances for Inclined Surfaces: Verification of Models which Use Hourly and Daily Data
June 1988 - PDF 2.83MB
By: J. E. Hay, University of British Columbia & D.C. McKay, Atmospheric Environment Service, Canada

Design Information Booklet No. 7 - The Design Language
June 1988 - PDF 4.91MB
By: Sergio Los, Roberto Grossa, Natasha Pulitzer
This booklet is part of a series of booklets produced under an International Energy Agency project on Passive and Hybrid Solar Low Energy Buildings. This booklet is aimed for designers, architects and educators. It defines an approach for generating whole building solutions based on climatic analysis and design context analysis. It also addresses architectural typologies based on climatic/energy principles. This booklet is a general, universal companion to Booklet No. 3 - Design Guidelines.

Validation of Models for Estimating Solar Radiation on Horizontal Surfaces - Vol. 1: Report
June 1988 - PDF 2.4MB
By: J.A. Davies, et al., McMaster University, Canada
Document Number: IEA/SHCP/9B/1
This report documents the evaluation of the performance of numerical models that provide estimates of solar irradiance on horizontal surfaces. This report is significant because it used 15 data sets representing a range of solar climates over a number of years. Countries documented are Australia, Canada, Germany, Switzerland, the Netherlands, the U.K. and the USA.
Validation of Models for Estimating Solar Radiation on Horizontal Surfaces - Vol. 2: Results-Australia and Europe
June 1988 - Posted: 2/28/2012
Validation of Models for Estimating Solar Radiation on Horizontal Surfaces - Vol. 3: Results-North America
June 1988 - Posted: 2/28/2012

Design Information Booklet No. 2 - Design Context
1988 - PDF 7.22MB
By: H. Schreck, G. Hillmann, J. Nagel, IBUS GmbH.
Document Number: 061-000-00780-6
This booklet defines, in a checklist format, issues unique to energy conserving, passive solar design that must be considered early in the design process. Issues discussed include site and climate analysis, building organization and design, building system options, space conditioning options, user influence, and building codes and zoning ordinances.

Innovation as an Interactive Process: From User-Producer Interaction to the National System of Innovation
1988
By: Lundvall, B.Å
In Dose, G et al: Technical Change and Economic Theory

Experimental Results from 11 Evacuated Collector Installations
January 1988 - PDF 11.28MB
By: W.S. Duff, Colorado State University, USA
This report documents 4 years of thermal performance, operation, maintenance and longevity of 11 evacuated collector installations in Australia, Canada, Europe and the USA.

Summary of National Approaches to Short Term SDHW Systems Testing
December 1987 - PDF 2.95MB
By: B.D. Wood, Arizona State University, U.S.A.
Document Number: T.3.E.1
Summary of National Approaches to Short Term SDHW Systems Testing

Environmental Factors of Collector Degradation
October 1987 - PDF 1.69MB
By: B.A. Rogers, University College, Cardiff, U.K.
Document Number: SEU-IEA-TR1
Environmental Factors of Collector Degradation

Working Document of Survey Research on Test Procedures and Measurement Technicques
October 1987 - PDF 9.92MB
By: K. Hayakawa, T. Noguchi, and S. Tenemura

The test procedures and measurment techniquest for optical, thermal, mechanical, physical and chemical properties to evalusate material performance, material reliability and for material durability among the four designated solar materials categories such as window and collector glazing, collector absorber, heat transfer media with or without additives and heat storage material were surveyed.  Evaluation and analysis of the state-of-the-art of materials testing and measurement methods were prepared on the basis of the compiled one hundred and thirty eight reports contributed by particants.  Recommendations for interlaboratory testing, where required, to determine the durability of materials and to develop the data needed for the development of new and/or modified testing and measurement methods are emphasized.

Working Document of Survey Research on Test Procedures and Measurement Technicques

Detailed Modeling of Evacuated Collector Systems
August 1987 - PDF 3.28MB
By: W.L. Gemmell and M. Chandrashekar, University of Waterloo and K.H. Vanoil, IST Energietechnik GmbH
This report describes several numerical models developed for the detailed simulation of solar energy systems. The report documents various models and validation of the models against measured results. A detailed characterization of each of the evacuated collectors and detailed models are provided.

Proceeding os IEA SHC Task X Workshop on Material Demand
May 11-12, 1987 - NEDO, Sunshine Building, Tokyo
May 1987 - PDF 3.61MB

The background of the Workshop on Material Demand is the followings: Task X participants are always facing the difficultry to find out the comprehensive solutions restricted by the intra relationships among applciation fields, system consideration, component requirements and material itself for the development of cooperative research works even in the survey research.

Proceeding os IEA SHC Task X Workshop on Material Demand

Industrial Technological Development. A Network Approach
1987
By: Håkansson, H (ed)
Worchester (Billing & Sons Limited)

The Development of Mathematically Highly Condensed Computer Simulation Models
1987 - PDF 0.48MB
By: Konrad R. Schreitmüller, Institut für Solarenergieforschung
This report has a two-fold purpose. The original intention was to document the IEA Solar Heating and Cooling Task VI work on simplified models, which centered on Input-/Output (I/O)-based methods. However, in the course of model development and improvement, these methods became more sophisticated, complicated, and detailed, so that now the most highly developed one has a level of sophistication comparable to most "detailed" programmes. Thus the term "simplified" is not longer applicable to all these models.

Design Guidelines for Evacuated Collector Solar Energy Systems
December 1986 - PDF 1.57MB
By: D. Buchen, Buchen, Lawton, Parent Ltd, Canada
This report familiarizes designers with the very different characteristics of different evacuated collectors to indicate where evacuated collectors are appropriate in a solar energy system, and to provide design guidelines to aid in integrating evacuated collectors into a system.

Evaluation of Concepts
November 1986 - PDF 4.33MB
By: C. Bankston, CBY Associates, Inc., U.S.A.
Document Number: 7.2.B

A Source of Novel Product Concepts. Management Science, Vol. 32, No. 7
July 1986
By: Hippel, E von
Cambridge, Mass., USA. (The Institute of Management Sciences)

Characterization of Evacuated Collectors, Arrays and Collection Subsystems
June 1986 - PDF 1.07MB
By: O. Gulsan, A. Mermoud, B. Lachal, O. Rudaz, University of Geneva, Switzerland
This report presents analytical and empirical models and technical information from investigations conducted over 10 years at 12 installations. Solar researchers and engineers designing and analyzing solar energy systems as well as formulating solar energy system models and design tools will find this report valuable.

Data Collection and Performance Reporting Specifications for Solar Energy Projects
June 1986 - PDF 1.36MB
By: M. Chandrashekar, University of Waterloo and K.H. Vanoll, IST Energietechnik GmbH
This report details the data collection and performance reporting specifications for solar energy projects developed in Task 6.

Recent Advances in Pyranometry
June 1986 - PDF 8MB
By: D. Wardle, D. C. McKay, Atmospheric Environment Service, Canada
Proceedings of the Symposium held at the Swedish Meteorological and Hydrological Institute, Norrkopping, Sweden, January 1984

Simulation Model Validation Using Test Cell Data
June 1986 - PDF 3.85MB
By: O. Mørck, Thermal Insulation Laboratory, Technical University of Denmark
Document Number: 176
This report documents validation activities to test the analysis capabilities of a number of simulation programs against monitored data from several high level instrumented facilities. Three empirical studies of the passive solar designs - Direct Gain, Trombe Wall and Attached Sunspace were used.

Summary Report of Phases I and II
May 1986 - PDF 1.77MB
By: Arne Boysen, Bengt Hidemark Goste Danielson Ark. HB, Sweden and Verne G. Chant, James F. Hickling Management Consultants Ltd., Canada
Publisher: Swedish Council for Building Research, Stockholm, Sweden
ISBN: 91-540-4592-4

Results of an Outdoor and Indoor Pyranometer Comparison
April 1986 - PDF 3.59MB
By: H. D. Talarek, et al, Forschungszentrum Jülich, Germany
Document Number: III.A.3
Results of an Outdoor and Indoor Pyranometer Comparison

Performance Data Sources
January 1986 - PDF 7.54MB
By: O. Mørck, Technical University of Denmark & Michael Holtz, Architectural Energy Corporation, U.S.A.
Document Number: 8.5: WD/TR, Report #175
This report presents the results of a survey of monitored passive and hybrid solar low energy residential buildings conducted IEA countries from 1983 to 1985.

Reference and Calibration Heaters
January 1986 - PDF 0.87MB
By: Hans Andersson, Swedish Council for Building Research, Sweden
Document Number: D1:1986
Reference and Calibration Heaters

Report of the Workshop on Solar Air Heating Systems
Trondheim Norway, 7-8 May, 1984
December 1985
Editor: Fritjof Salvesen, A/S Miljoplan, Norway

The MINSUN Simulation and Optimization Program - Applications and User's Guide (2nd Edition)
September 1985 - PDF 4.01MB
By: V. Chant, R. Hakansson, National Research Council, Canada
Document Number: CENSOL2

Second Workshop on Solar Assisted Heat Pumps with Ground Coupled Storage
Proceedings of the IEA/CEC Workshop, Joint Research Center, Vienna, Austria, 8-10 May 1985
July 1985
Editor: D. van Hattem, CEC Joint Research Center Ispra Establishment, Italy
Document Number: S.P.I.04.D2.86.50

Design Tool Survey
May 1985 - PDF 4.64MB
By: P. R. Rittelmann, S. F. Ahmed, Burt Hill Kosar Rittelmann Assoc., U.S.A.
ISBN: 061-000-00664-8
Document Number: T.8.C.1.A. GPO
The purpose of this report is to inform designers and builders about the availability of a wide variety of design tools for passive and hybrid solar buildings, to present key information on the characteristics of these tools, and to aid in the design tool selection process.

Proceedings of the IEA Workshop on Design and Performance of Large Solar Thermal Collector Arrays
San Diego, California, 10-14 June, 1984
March 1985
Editor: Charles A. Bankston, Solar Energy Research Institute, U.S.A.
Document Number: SERI/SP-271-2664

Handbook of Methods of Estimating Solar Radiation
November 1984 - PDF 3.76MB
By: Lars Dahlgren, Swedish Meteorological and Hydrological Institute, Sweden
Document Number: D7:1985
This handbook presents a classification of estimating models, catalog of estimating methods and description of selected tools, review of various statistical techniques used to evaluate performance of estimation models, and concludes with a description of available measured data sets of solar radiation and relevant meteorological observations for potential use in model validation.

Proceedings from the IEA Task III Workshop on the Service Life of Solar Collector Components and Materials
Technical University of Denmark, December 6-8, 1983
August 1984 - PDF 3.41MB
By: Peder V. Pedersen, Technical University of Denmark
Proceedings from the IEA Task III Workshop on the Service Life of Solar Collector Components and Materials

Summary of Solar Energy R&D Projects for Solar Heating and Cooling Systems and Compnents
Subtask A
August 1984 - PDF 3.08MB
By: T. Noguchi
This document provides information on national solar heating and cooling R&D projects for both active and passive & hybrid systems and components.
Summary of Solar Energy R&D Projects for Solar Heating and Cooling Systems and Compnents

Summary of Solar Energy R&D Projects for Solar Heating and Cooling Systems and Components
August 1984 - PDF 3.08MB
By: T. Noguchi, Solar Research Laboratory, Japan
This document provides information on national solar heating and cooling R&D projects for both active passive & hybrid systems and components. The compilation is based on the reports submitted during 1983 and 1984 by the representatives of countries particpating in Task 2 of IEA SHC Programme. The countries which contributed reports are Austria, Belgium, Denmark, Greece, Japan, the Netherlands, Norway, Sweden and the United States.

Survey and Review of National R&D Plans
Subtask B
August 1984 - PDF 0.33MB
By: T. Noguchi
This document provides information on national R, D and D plans regarding solar heating and cooling systems and components.
Survey and Review of National R&D Plans

Survey and Review of National RD&D Plans
August 1984 - PDF 0.33MB
By: T. Noguchi, Solar Research Laboratory, Japan
This document provides information on national R, D and D plans regarding solar heating and cooling systems and components. The compilation is based on the reports submitted during 1983 and 1984 by the representatives of countries participating in Task 2 of IEA SHC Programme. The countries which contributed reports are Austria, Belgium, Denmark, Greece, Japan, the Netherlands, Norway, Sweden and United States.

Survey of Commercialization and Operating Expereince of Solar Heating and Cooling Systems
Subtask C
August 1984 - PDF 0.84MB
By: T. Noguchi

This document provides information on commercialization of and operating experiences with solar heating and cooling systems and components in the Task II participating counties.

Survey of Commercialization and Operating Expereince of Solar Heating and Cooling Systems

Survey on Commercialization and Operating Experience of Solar Heating and Cooling Systems
August 1984 - PDF 0.84MB
By: T. Noguchi, Solar Research Laboratory, Japan
This document provides information on commercialization of and operating experiences with solar heating and cooling systems and components in the Task 2 participating countries. The compilation is based on the reports submitted during 1983 and 1984 by the Participants. The countries that contributed reports are Austria, Belgium, Greece, Japan, the Netherlands, Norway, Sweden and the United States.

Preliminary Designs for Ten Countries
January 1984 - PDF 1.64MB
By: Arne Boysen, Hidemark Danielson, Sweden
Document Number: D12:1985

Analysis Model Survey
December 1983 - PDF 4.34MB
By: Ove Jorgensen, Thermal Insulation Laboratory, Denmark
Document Number: T.VIII.B.1.1983
This report presents the findings and conclusions of a survey of building thermal analysis simulation models, their analysis capabilities, characteristics and limitations. Thirty-one models from 10 countries were surveyed.

Tools for Design and Analysis
December 1983 - PDF 2.92MB
By: V. Chant, R. Biggs, National Research Council, Canada
Document Number: CENSOL1

Cost Data and Cost Equations for Heat Storage Concepts
June 1983 - PDF 1.51MB
By: J. C. Hadorn, P. Chuard, Swiss Federal Office of Energy, Switzerland
Document Number: A24389/1

Heat Storage Models - Evaluation and Selection
June 1983 - PDF 5.86MB
By: J. C. Hadorn, P. Chuard, Swiss Federal Office of Energy, Switzerland
Document Number: A2389/2

Heat Storage Systems: Concepts, Engineering Data and Compilation of Projects
June 1983 - PDF 3.65MB
By: P. Chuard, J. C. Hadorn, Swiss Federal Office of Energy, Switzerland
Document Number: A24389/3

Solar Simulators for Collector Testing: Specifications and Operating Characteristics
June 1983
By: S. Tanemura, Solar Research Laboratory, Japan

Basic Performance, Cost, and Operation of Solar Collectors for Heating Plants with Seasonal Storage
May 1983 - PDF 5MB
By: Charles A. Bankston, Argonne National Laboratory, U.S.A.
Document Number: ANL/ES-139


Compilation of Background Papers on National Solar Heating and Cooling Programs
January 1983 - PDF 0.71MB
By: T. Noguchi
Task 2 participants have been exchanging infomration on their national R&D and D Program on solar heating and cooling systems and components at the respective Expert Meetings by oral presentation. The background papers compiled in this report were distributed to the Participants together with the oral presentation at the ninth Expert Meeting held in INTA, Madrid in October 1982.

Workshop on Solar-Assisted Heat Pumps with Ground Coupled Storage
Proceedings of the IEA/CEC Workshop, Joint Research Center, Ispra, Italy, 14-16 September 1982
January 1983
Editor: E. Aranovitch, et al., CEC Joint Research Centre Ispra Establishment, Italy
Document Number: SA.1.04.D2.84.08

Eight Evacuated Collector Installations: Interim Report
November 1982 - PDF 6.75MB
Editor: W.S. Duff
This report covers installations in Canada, Germany, Japan, Sweden, Switzerland, the United Kingdom and the United States.
Eight Evacuated Collector Installations: Interim Report

Basic Design Data for the Heat Distribution System
October 1982 - PDF 2.94MB
By: Thomas Bruce, et al., Energy Supply Authority, Sweden
Document Number: D22:1982

Proceedings of the International Energy Agency Conference on Pyranometer Measurements
Boulder, Colorado, 16-20 March, 1981
October 1982 - PDF 8.79MB
By: M. R. Riches et al., Department of Energy, U.S.A.
Document Number: SERI/TR-642-1156R
A conference of pyranometry experts from 7 countries was held in Boulder, Colorado from 16-20 March 1981 to formulate a statement of work for joint pyranometer experiments and calibrations. This report documents the technical results and information presented as well as the agreed upon statement of work. A complete list of names and affiliations of those in attendance is included in Appendix A.
Proceedings of the International Energy Agency Conference on Pyranometer Measurements

Simulation Program Validation Using Domestic Hot Water System Data
August 1982 - PDF 0.88MB
By: Ove Jorgensen, Technical University of Denmark
Document Number: 125
The present study is the third and final in a series of model evaluation studies undertaken as part of the activities within Task 1 of the IEA SHC. The first of these activities consisted of model-to-model comparisons on two hypothetical systems (air and liquid) using a year of hourly data from three different locations. The second activity was a validation activity in which model predictions were compared to performance measurement data from the solar system at the Los Alamos National Laboratory Study Center in New Mexico. This was a large solar system with 716 m2 of collector area and two storage tanks of 19 and 38 m3. These two activities are documented in reference 1 and 2.

Instrumented Facilities Survey for Solar Assisted Low Energy Dwellings
February 1982 - PDF 2.32MB
By: P. R. Rittelmann, Burt Hill Kosar Rittelmann Associates, U.S.A.
Document Number: DOE/NBM-2015158
This publication of thirty-eight dwelling projects is the result of a survey conducted to identify projects and their associated instrumentation available in participating countries as a source of performance. The survey was coordinated and compiled by the United States Department of Energy under direction of the Operating Agent, Denmark. It represents one of the assigned items of work under Task 1, Subtask F - Solar-Assisted Low-Energy Dwellings.

Proceedings of the CEC/IEA Workshop on Solar Simulators
Joint Research Center, Ispra, Italy, February 9-11, 1982
February 1982
By: E. Aranovich and B. Gillett, CEC Joint Research Center, Ispra Establishment, Italy
Document Number: SA.A1.05.00.83.05

Survey and Review of National R&D Plans
October 1981 - PDF 0.45MB
By: T. Mpguchi
This document provides an overview of national research and development (R&D) plans for solar heating, cooling, and hot water supply systems.
Survey and Review of National R&D Plans

Survey and Review of National RD&D Plans
October 1981 - PDF 0.45MB
By: H. Hayashi et al., Sunshine Project Headquarters, Japan
This document provides an overview of national research and development (R&D) plans for solar heating, cooling and hot water supply systems. This document is based on information submitted during 1980 by representatives of countries participating in Task 2 of the IEA SHC Programme. The countries which contributed Greece, Italy, Japan, Netherlands, Spain, Sweden, Switzerland and United States. Data on the following subjects are included in this report: - National solar heating and cooling goals and projections - Governmetn incentive measures - Research organizations - Statistics on production of solar components and buildings - Major manufacturers - Status of solar standards - Barriers to application

Validation of Simulation Models Using Measured Performance Data from the Los Alamos Study Center
September 1981 - PDF 0.35MB
By: James Hedstrom et al., Los Alamos National Laboratory, U.S.A.
Document Number: LA-9028-MS
in Subtask A of IEA Task 1, a common understanding and basis for the modeling and simulation of solar heating and cooling systems was established. This was done by comparing the performance predictions of models developed in participating countries for a set of well-defined, representative, hypothetical systems. The results of that work are documented in Ref. 1. Subtask E was initiated as a natural continuation of the work of Subtask A to further evaluate the simulation codes by performing comparisons to measured data for real installed systems.

Failure Modes of Solar Collectors
August 1981 - PDF 9.52MB
By: Peder V. Pedersen, Technical University of Denmark
Failure Modes of Solar Collectors

Optimization
June 1981 - PDF 0.56MB
By: T. L. Freeman, Altas Corporation, U.S.A.
Document Number: I.4.1981
This document is a summary of work performed by the IEA SHC Task 1 group in Subtask D -- solar energy system economic optimization. The scope of work is primarily limited to the optimization of small scale (i.e. residential) active solar thermal systems. The initial objectives of the subtask were to review and evaluate approaches to the optimization of these systems by comparing the thermal performance predictions of the "simplified methods" to the results obtained from the detailed simulation programs Subtask A of Task 1 for standard air and liquid solar systems in different climates.

Recommendations Concerning Meteorological Networks for Solar Energy Applications
June 1981 - PDF 1.57MB
By: J. R. Latimer and T. K. Won, Atmospheric Environment Service, Canada
This report describes the characteristics of the two main categories of measurement networks - routine and research oriented - and discusses recommended minimum standards for supporting solar energy applications. The appendices include a survey of user requirements, discussion of radiation network assessment, and discussion of measurement standards.

Survey of Solar Energy R&D Projects for Solar Heating and Cooling Components
December 1980 - PDF 5.84MB
By: Tetsuo Noguchi, Solar Research Laboratory, Japan
This document provides information on R&D projects and significant achievements on components for solar heating, cooling and hot water supply systems. THe document has resulted from the survey and review of reports submitted by representatives of countries participating in Task 2, IEA. The matrix coding of solar heating and cooling components and also matrix coding on major technical problems as well as Comprehensive List of Solar Energy R&D Projects Reports for Solar Heating and Cooling Components have been included as Appendix 1, 2 and 3 respectively.

Survey of Solar Energy R&D Projects for Solar Heating and Cooling Components
December 1980 - PDF 5.84MB
By: Tetsuo Noguchi
This document provides information on R&D projects and significant achievements on components for solar heating, cooling and hot water supply systems.
Survey of Solar Energy R&D Projects for Solar Heating and Cooling Components

An Introduction to Meteorological Measurements and Data Handling for Solar Energy Applications
October 1980 - PDF 27.49MB
By: M. R. Riches, U.S. Department of Energy, U.S.A.
Document Number: DOE/ER-0084
An Introduction to Meteorological Measurements and Data Handling for Solar Energy Applications

Solar Radiation Data Source Catalogue
October 1980 - PDF 3.71MB
By: W. Josefsson and M.-L. Westerberg, Swedish Meteorological and Hydrological Institute, Sweden
Document Number: D12:1981
This catalogue presents radiation data and relevant meteorological data at the time of publication. The document has three parts 1) Introduction, 2) Explanation and 3) Data List.

Validation of the Guidelines for Portable Meteorological Instrument Packages
October 1980 - PDF 21.73MB
By: M. R. Riches, U. S. Department of Energy, U.S.A.
Document Number: DOE/ER-0083
Validation of the Guidelines for Portable Meteorological Instrument Packages

Reporting Format for Thermal Performance of Solar Heating and Cooling Systems in Buildings
February 1980 - PDF 0.83MB
By: Per Isakson et al., Royal Institute of Technology, Sweden
Document Number: D1:1980
A rapidly growing number of projects are undertaken in the field of solar energy which in turn means that there is an enormouse flow of reports and that the majority of researchers are fairly new in the field. Because of the foreseen shortage of primary energy in the future, the development of the solar energy technique needs to progress fast. In this situation there is a special need for an effective exchange of information that enables the results from projects to be quickly distributed and used. It is felt that a resporting format can be some help.

Results and Analyses of IEA Round Robin Testing
December 1979 - PDF 2.15MB
By: H. D. Talerek, Forschungszentrum Jülich, Germany
Document Number: III.A.1
Results and Analyses of IEA Round Robin Testing


Modelling and Simulation
October 1979 - PDF 1.69MB
By: Ove Jorgensen, Technical University of Denmark
Document Number: 1
This report presents the work carried out in subtask A of Task 1 withing the IEA Solar Heating and Cooling Programme. The objectives of Task 1 are given in the preface. Subtask A Modelling and Simulation, is one of fives subtasks established in this task to accomplish these objectives. The purpose of this subtask was to establish a common understanding and basis for the modelling and simulation of solar heating and cooling systems.

Data Requirements and Thermal Performance Evaluation Procedures for Solar Heating and Cooling Systems
August 1979 - PDF 0.69MB
By: Andre Pilatta, J. Lemming, Ove Jorgensen, David Curtis, Richard Bruno, Tatsuo Inooka, Chris van Koppen, Per Isakson, Guy-Roland Perrin, Andre Faist
Editor: Elmer R. Streed
This document provides standardized nomenclature and procedures to serve as a guide to monitor and evaluate research or demonstration type solar hot water or heated and/or cooled systems, components and buildings. Performance factors, data requirements, measurement parameters and data analysis methods are described for typical solar energy systems. The document has resulted from the review and comments submitted by representatives of countries particpating in Task 1. Material developed by the United States for use in the National Solar Heating and Cooling Demonstration Program and published as NBSIR 76-1137[1], was used as the primary reference. The contacts persons for each country participating in Task 1 are listed in Appendix A.

Survey of Component R&D Projects for Solar Heating, Cooling and Hot Water Supply Systems
April 1978 - PDF 0.69MB
By: Tetsuo Noguchi, Solar Research Laboratory, Japan
Document Number: TID-28721
Order - $13.00 USD
One of the purposes of the IEA, established in 1974, was to promote long-term cooperative efforts in energy R&D. Solar energy was identified as one appropriate energy technology area for international cooperation, and the Program to Develop and Test Solar Heating and Cooling Systems was created with the objective of pooling efforts and experience in order to reduce overall costs of solar enerfgy systems and accelerate the large scale introduction of this technology in the participating countries. One of the five cooperative projects which comprise this multilateral program is "Coordination of R & D on Solar Heating and Cooling Component." An element of this project is the exchange of information on ongoing component R&D projects. Particpating countries have submitted descriptive summaries of R & D projects, using a special format. This report is a compilation of 198 project summaries and provides a useful overview of component R&D work underway in eleven countries.

Survey of Component R&D Projects for Solar Heating, Cooling and Hot Water Supply Systems
April 1978 - PDF 3.35MB
Document Number: TID-28721
One of the purposes of the International Energy Agency, established in 1974, was to promote long-term cooperative efforts in energy R&D.

Project SAPPHO, Phase II. Research Policy
November 1974
By: Rothwell, R & Freeman, C & Horsley, A & Jervis V T P & Roberts, A B & Townsend, J
SAPPHO Updated




A Multi-Criteria Decision Support Method for Whole Building Solar Design
PPT 0.24MB
This power point presentation explains the Multi Criteria Decision Making Method and can be used to present the method to a larger audience.

A Theoretical Study of the Impact of Using Small Scale Thermo Chemical Storage Units in District Heating Networks
PDF 0.16MB
By: D. Basciotti and O. Pol.
Publisher: Austrian Institute of Technology

Accelerated Aging Tests
(C3)
PDF 0.21MB
By: Hakim Elmahdy, Ph. D., MBA, P. Eng.

Adeline 3.0 and brochure

Advanced and Sustainable Housing Rennovation Handbook
A guide for Designers and Planners
PDF 15.2MB
By: Sophie Trachte
This handbook is produced from material developed in the course of IEA SHC Task 37 Advanced Housing Renovation by Solar and Conservation. Operating agent was Fritjof Salvesen from Norway. This venture brought together some 50 experts from 12 countries. The objective of this task was to develop a solid knowledge base how to renovate housing to a very high energy standard while providing superior comfort and sustainability and to develop strategies which support market penetration of such renovations explicitly directed towards market segments with high renovation and multipliable potentials.
Advanced and Sustainable Housing Rennovation Handbook

Advanced Solar Low Energy Buildings. Task 13 of the IEA's Solar Heating
By: Hestnes, A.G.
Proceedings of CIB-symposium, Stuttgart 1990, The International Symposium on Energy Efficient Buildings, Leinfelden-Echterdingen, Germany 1993, Innovative Housing '93, Vancouver 1993, ISES Solar World Congress, Budapest 1993, 4th European Conference on Solar Energy in Architecture and Urban Planning, Berlin 1996, and EuroSun '96, Freiburg 1996

Advances in Radiation Forecast Based on Regional Weather Models MM5 and WRF
PDF 0.09MB
By: Stefan C. Müller, Jan Remund
With growing installations of solar power plants and integration into the electricity grid there is a demand for forecasting the energy production on a short-term basis for the entire electricity Management. Within IEA SHC Task 36, which ran from mid 2005 until mid 2011, METEOTEST made tests in the Alpine region with its operational numerical weather forecast models to forecast hourly global radiation of the next 72 hours or three days. With the regional weather models MM5 and WRF, setups with different horizontal resolutions were tested. Forecast data series were validated at Swiss measurement sites from the national meteorological network for each forecasted day separately. The first tests analyzed only the direct model output while at project end statistical post-processing methods were applied. In order to have comparable datasets only periods of more than 6 months are shown. As a measure for the quality of the forecast the root mean square error (RMSE) was chosen. Improvements in setups and post-processing techniques resulted in lowering the relative RMSE from 55% to 41% on hourly global radiation. With relatively low effort significant enhancements are possible.
Advances in Radiation Forecast Based on Regional Weather Models MM5 and WRF



Austria - Apartment Building in Kierling
PDF 0.94MB
Building from the 1970’s with massive un-insulated walls, passive house standard insulation, new 90 m2 DHW solar heating, annual energy demand 68 kWh/m2
Austria - Apartment Building in Kierling

Austria - Apartmenthouse in Linz
PDF 0.52MB
Renovation to passive house standards, 91% space heating reduction. Special cellulose comb arranged behind a facade of glass panels.
Austria - Apartmenthouse in Linz

Austria - Attic Conversion in Innsbruck
PDF 2.44MB
Conversion of the attic of a 19th century building; two new levels are built of connected wooden boxes. Special features are solar collectors and laminated wooden roof construction. Complies with Austrian low energy requirements.
Austria - Attic Conversion in Innsbruck

Austria - Home for Elderly in Landeck
PDF 2.21MB
After renovating this home for the elderly, built in 1976, comfort was greatly improved. The wooden construction’s high insulation value and frameless glazing of the west façade minimize energy losses. The building complies with Austrian low energy requirements.
Austria - Home for Elderly in Landeck

Austria - Housing in Purkersdorft
PDF 0.98MB
Renovation of a 19th century villa with four flats and constructed of 10 passive-house units. The 60 m2 solar system covers 28% of the DHW and space heating.
Austria - Housing in Purkersdorft

Austria - Single-family House in St.Valentin
PDF 0.39MB
Renovation of single-family house built in 1982 with vertical enhancement for a second housing unit. Special feature: A centralized ventilation system with heat recovery (efficiency 90%) combined with an air/air heat pump.
Austria - Single-family House in St.Valentin

Austria – 19th Century Villa in Purkersdorf
PDF 0.49MB
Renovation of a 19th century villa with four flats, including ventilation system with heat recovery, solar panels and insulation of walls. After the renovation, the building is close to complying with Passive House standards.
Austria – 19th Century Villa in Purkersdorf

Austria – Apartment Building in Kierling
PDF 2.15MB
Renovation of a 1970s apartment building, including central ventilation system with heat recovery, new insulation and windows, plus solar panels. Complies with Passive house standards, annual space heat demand is now 13 kWh/m².
Austria – Apartment Building in Kierling

Austria – Apartment Building in Linz
PDF 2.57MB
Renovation of an apartment building built in 1958: New façade with solar insulation system, ventilation system with heat recovery and air heating. After renovation the building complies with Passive House Standard, annual space heat demand is 11 kWh/m².
Austria – Apartment Building in Linz

Austria – Apartment Buildings in Dornbirn
PDF 4.27MB
Renovation of five apartment buildings built in 1980. Central ventilation system with heat Recovery and 5x30 m² solar collectors contributed to 59 % reduction of primary energy demand.
Austria – Apartment Buildings in Dornbirn

Austria – Detached House in Kufstein
PDF 5.3MB
Renovation of a detached house built in 1981 with a new facade and an enlargement of the living space. Important energy saving features are high insulation, triple thermopane glazed windows and an energy optimized modern shell. Solar collectors were installed for domestic water heating.
Austria – Detached House in Kufstein

Austria – historic building in Irdning
PDF 6.43MB
Renovation of a historic building built in 1567, with four flats and two shops. Improved insulation, ventilation system with heat recovery and solar energy contributed to the 93 % reduction of energy demand.
Austria – historic building in Irdning

Austria – Single-family House in Mautern
PDF 7.27MB
Renovation of a single-family house from the 1950s. Components of a Passive House, central mechanic ventilation system with heat recovery, air/air heat pump.
Austria – Single-family House in Mautern

Austria – Single-family House in St.Martin
PDF 3MB
Renovation of a single-family house built in 1973 with an added storey for a second housing unit. A geothermal heat pump was installed and the building is ventilated by a mechanical system with 90% heat recovery and an earth to air heat exchanger preheats intake fresh air.
Austria – Single-family House in St.Martin

Austria – Summer Residence in Pettenbach
PDF 6.8MB
Renovation of a summer residence built in 1962. New features include: ventilation system with heat recovery and air heating, vacuum insulation panels and photovoltaic panels. Complies with Passive House requirements; 98% reduction of primary energy demand.
Austria – Summer Residence in Pettenbach

Austria: Gaspoltshofen
PDF 0.28MB
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The main goal was to construct a low energy house in respect to economic and ecologic issues. In addition a further supposition of the owners was an attractive and appealing outfit. Of course sustainability and the use of material of the region was granted.
Austria: Gaspoltshofen

Austria: Thening
PDF 0.53MB
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It took only 6 months to build this cozy home for one family back in 2001. It is of the ecological Passive-house type and is made of pre-fabricated wooden components.
Austria: Thening

Austria: Vienna
PDF 0.79MB
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The demonstration-project “passive housing” Utendorfgasse 7, A-1140 Vienna” was implemented in a research project founded by the Austrian Government (BMVIT). The goal of the research project is the development of a building concept for the employment of passive technology in social housing. The houses are financed by an semiofficial housing company. The building project should be finished in 2005/2006. The apartments will be rented.
Austria: Vienna

Austrian Masterplan - Thermal Energy Storage
PDF 0.25MB
By: Bernhard Zettl, Andreas Heinz, Philip Ohnewein, Michael Monsberger, Stefan Vorbach and Wim van Helden
Publisher: Austria Solar Innovation Center

Belgium - Rowhouse Henz-Noirfalise
PDF 0.81MB
This 150 year old house needed a thorough renovation. The exterior was insulated with cellulose, new triple glazing was installed, the building is heated with solar collectors and pellets stove. 95% energy reduction.
Belgium - Rowhouse Henz-Noirfalise

Belgium - Semi-detached House in DePinte
PDF 2.41MB
Retrofit of a semi-detached house from the 50’s approaching Passive House Standard. The design focusedon sufficient insulation and airtight construction. Since the party wall faces south, windows were designed to make the best of available passive solar gains.
Belgium - Semi-detached House in DePinte

Belgium – 19th Century Building in Brussels
PDF 2.4MB
The existing roof structure was worn out and a new roof mandatory. The roof was removed and new apartments built in a light wooden frame construction on top of the building. Geothermal heat pump and solar collectors provide heat.
Belgium – 19th Century Building in Brussels

Belgium – Apartment Block in Wesenbeeck
PDF 2.22MB
Thorough renovation of an apartment block from 1959: Energy loss minimized trough insulation, heat recovery and thermal bridge alleviation. Solar collectors and pv panels installed.
Belgium – Apartment Block in Wesenbeeck

Belgium – Conversion of Old Laundry in Brussels
PDF 0.83MB
Conversion and renovation of an old laundry into residential and office space. Insulation, solar collectors and PV installation contributed to the 70 % reduction of primary energy demand.
Belgium – Conversion of Old Laundry in Brussels

Belgium – Old Country House in Hershelt
PDF 2.98MB
Retrofit of a century old country house into a low energy house. The rural location of the project resulted in a very strict interpretation of the urban planning legislation. Energy reduction after retrofit: 88,5 %.
Belgium – Old Country House in Hershelt

Belgium – Row Houses in Eupen
PDF 3.42MB
Transforming a 19th century row house into a Passive House led to 96 % energy demand reduction. Features include Ventilation with heat recovery, a ground-air heat exchanger, solar collectors, wood pellet stove and improved insulation.
Belgium – Row Houses in Eupen

Benchmarking of Different Approaches to Forecast Solar Irradiance
PDF 0.33MB
By: Elke Lorenz, Jan Remund, Stefan C. Müller, Wolfgang Traunmüller, Gerald Steinmaurer, David Pozo, José Antonio
Power generation from photovoltaic systems is highly variable due to its dependence on meteorological conditions. An efficient use of this fluctuating energy source requires reliable forecast information for management and operation strategies. Due to the strong increase of solar power generation the prediction of solar yields becomes more and more important. As a consequence, in the last years various research organisations and companies have developed different methods to forecast irradiance as a basis for respective power forecasts. For the end-users of these forecasts it is important that standardized methodology is used when presenting results on the accuracy of a prediction model in order to get a clear idea on the advantages of a specific approach. In this paper we introduce a benchmarking procedure to asses the accuracy of irradiance forecasts and compare different approaches of forecasting. The evaluation shows a strong dependence of the forecast accuracy on the climatic conditions. For Central European stations the relative rmse ranges from 40 % to 60 %, for Spanish stations relative rmse values are in the range of 20 % to 35 %.
Benchmarking of Different Approaches to Forecast Solar Irradiance

Benchmarking of Different Approaches to Forecast Solar Irradiance - Poster
PDF 0.34MB
By: Elke Lorenz, Jan Remund, Stefan C. Müller, Wolfgang Traunmüller, Gerald Steinmaurer, David Pozo, José Antonio, Ruiz-Arias, Vicente Lara Fanego, Lourdes Ramirez, Martin Gaston Romeo, Christian Kurz, Luis Martin Pomares, Carlos Geijo Guerrero
Power generation from photovoltaic systems is highly variable due to its dependence on meteorological conditions. An efficient use of this fluctuating energy source requires reliable forecast information for management and operation strategies. Due to the strong increase of solar power generation the prediction of solar yields becomes more and more important. As a consequence, in the last years various research organisations and companies have developed different methods to forecast irradiance as a basis for respective power forecasts. For the end-users of these forecasts it is important that standardized methodology is used when presenting results on the accuracy of a prediction model in order to get a clear idea on the advantages of a specific approach.
Benchmarking of Different Approaches to Forecast Solar Irradiance - Poster

Bioclimatic Housing: Innovative Designs for Warm Climates
Editor: Richard Hyde
ISBN: 1844072843
Order - 49.95 GBP
This book addresses sustainable architecture in warmer climates and addresses the relationship between nature and design. It explores case studies from the Middle East, Asia, Europe and Australia to form an overview of strategies and to show how these strategies can be developed into practice the Middle East, Asia, Europe and Australia to form an overview of strategies and to show how these strategies can be developed into practice by architects, designers and engineers.

Business Opportunities in Sustainable Housing A Marketing Guide Based on Houses in 10 Countries
PDF 6.03MB
Sustainable housing is a growing part of the housing industry, making it a business opportunity waiting to be explored. To help in this exploration, the report presents experiences on how sustainable housing was introduced into the market in different countries.

Business Opportunities in Sustainable Housing: A Marketing Guide Based on Houses in 10 Countries
PDF 6.03MB
Sustainable housing is a growing part of the housing industry, making it a business opportunity waiting to be explored. To help in this exploration, the report presents experiences on how sustainable housing was introduced into the market in different countries.



Canada - Single Family House in Ontario
PDF 1.59MB
Retrofit of single family house included upgraded insulation (by use of polyurethane spray foam and also an insulated concrete form system), and adapting front porch and new extension roof for solar installations. Primary energy reduction: 81 %.
Canada - Single Family House in Ontario

Canada – Single Detached House in Toronto
PDF 1.12MB
Retrofit project for an existing 1 1/2 storey house from 1946. The renovation, including among other features external foam insulation and solar energy applications, met the Net Zero Energy Healthy House (NZEHH) standards set out in a Canadian home design competition.
Canada – Single Detached House in Toronto

Canadian Solar Water Heaters Buyer's Guide
(available in January 2000).

Checklist Method for the Selection and the Success in the Integration of a Solar Cooling System in Buildings
The use of renewable energy in buildings is a very important challenge in order to decrease their primary energy consumption. In South of Europe, most of buildings, especially tertiary ones, need active cooling in summer and this often represents an important way to save fossil energy. Solar cooling technologies already exists and have shown their effectiveness at the demonstration stage. But some particular precautions must be taken at different levels to have the best conditions. This method is aimed at presenting a methodology based on a check list. The decomposition of the problem in different and following steps permits to see whether the project is realisable or not at the design phase. If this is the case, the method shows afterwards the requirements on some parameters of the projects : materials, planner, building owner, installer, exploitation staff and monitoring of the installation. Thanks to this check list method, an integration of a solar cooling system can be done in suitable conditions. For instance, the method can make appear decisive parameters which would be very unfavourable for a successful project. This check list is based on the feed back of European solar cooling experiences in the framework of the IEA Task 38.

Chromogenic Glazing Performance
(B2)
PDF 0.18MB
By: Helen Rose Wilson

Comparison of Solar Radiation Forecasts for the USA
PDF 0.06MB
By: J. Remund, R. Perez and E. Lorenz
Global radiation short time forecast of three different models (ECMWF, NDFD and GFS/WRF) have been compared. The comparison was made for a half year period (summer 2007) at three different climates in the USA. ECMWF shows the best results, followed by NDFD and GFS/WRF. Uncertainty varies strongly from place to place. At Desert Rock NV all models have an uncertainty of 18%. The biggest uncertainty is seen with GFS/WRF model at Boulder CO (50%). The breakeven with persistence is reached after 2-3 hours. Distributions of hourly values do differ from measured values, but are quite similar to global radiation data based on satellite data.
Comparison of Solar Radiation Forecasts for the USA

Criteria for Decisions in the Design Process
PDF 0.26MB
This internal working document evaluates the case story descriptions of over thirty building projects. The conclusions drawn are input for the development of the IDP methods and tools that were developed by SHCP Task 23.

Czech Republic: Cernosice
PDF 0.53MB
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Traditionally shaped, private built, single family house was built in 2003. A building site for this private built house was set by regulating plans, which do not respect optimal solar orientation (in general: when assigning orientation of building, roof type and other parameters, spatial planning does not consider factors of sustainable housing, mainly optimal solar orientation). Therefore, gables had to be south-north oriented and solar collectors had to be placed on the porch.
Czech Republic: Cernosice

Czech Republic: House W
PDF 0.33MB
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Using a minimum amount of materials and total primary energy from non-renewable sources was the leading idea of the project. The house should reach the low-energy house level with usually accepted costs for standard housing. Both of these facts have led to a wooden-based construction with simple form, energy effective building envelope and use of several components typical for passive houses. The Uvalues of the building envelope are close to those recommended by CSN 730540-2 (2002) Thermal Protection of Buildings, Part 2: Requirements.
Czech Republic: House W

Database of daylight responsive lighting control system

Daylight in buildings – 15 monitored case study

Daylight simulation: Methods, algorithms, and resources

Daylighting Systems Data Base

Denmark – Apartment Houses in Albertslund
PDF 2.19MB
14 apartment houses, in total 631 flats, were renovated in the period from 2007-2009. The renovation of the facade respects the original architecture and uses environmentally benign materials.
Denmark – Apartment Houses in Albertslund

Denmark – Apartment Houses in Engelsby
PDF 1.28MB
Renovation included added insulation of facade/roof, new heating system and new water installations. Other features: Solar panels for domestic hot water, demand controlled moisture regulated ventilation and glazed balconies.
Denmark – Apartment Houses in Engelsby

Denmark – Row houses in Albertslund
PDF 0.65MB
Aim of renovation: Compliance with the Danish standards for low energy class 2. Measures: Insulation, new windows, solar collectors and mechanical ventilation with heat recovery.
Denmark – Row houses in Albertslund

Description of Case Stories
PDF 0.22MB
This technical report provides detailed information about over 20 buildings and the way they were developed (with a focus on the design process). These building projects were part of the background information used by Task 23 members to develop IDP methods and tools.



Document on test room facilities

Durability Assessment
(B1)
PDF 0.3MB
By: Bo Carlsson


Energy 10
Energy 10 is a user-friendly energy simulation system that provides predictions of operating energy performance and identifies the most effective design strategies in reaching this performance level. A major advantage is that Energy 10 can be used from the very start of the design process throughout the design development. Energy 10 is developed by National Renewable Energy Laboratory, Lawrence Berkeley Laboratory, Sustainable Buildings Industry Council, Berkeley Solar Group and US Department of Energy (all in the USA). It is being continuously improved and now offers users an economical and highly effective simulation process for early design support. In June 2002 Energy version 1.5 was released. It is available through Sustainable Buildings Industry Council.

Entwicklung eines Verfahrens für die Wirtschaftlichkeitsberechnung solarthermischer Anlagen: die LCOH Methode
By: Y. Louvet, S. Fischer, S. Furbo, F. Giovannetti, F. Mauthner, D. Mugnier, D. Philippen, K. Vajen
Publisher: 27. Symposium Thermische Solarenergie, Kloster Banz, 10.-12. Mai 2017

Ende 2015 began der Task 54 des Solar Heating and Cooling Programms der Inter-nationalen Energieagentur (IEA-SHC Task 54), Price reduction of solar thermal sys-tems. Ziele des Tasks sind Preisesenkungspotenziale für Solar thermische Anlagen zu identifizieren und konkreten technischen und wirtschaftlichen Pfade vorzuschla-gen, um die solaren Wärmegestehungskosten um bis zu 40 % zu reduzieren /1/. Kostensenkungen sind von entscheidender Bedeutung für die Branche, die seit ein paar Jahren mit einem Rückgang der Verkaufszahlen auf dem europäischen Markt konfrontiert ist. Im Rahmen des Tasks wurde daher ein transparentes Verfahren zur Wirtschaftlichkeitsberechnung und eine Kennzahl entwickelt werden, um das Preis-senkungspotenzial unterschiedlicher Lösungen miteinander vergleichen zu können.


Environmental Performance
(C1)
PDF 0.05MB
By: Jean-Luc CHEVALIER, Hanne KROGH, and Mario TARANTINI


Examples of Integrated Design - Five Low Energy Buildings Created Through Integrated Design
PDF 4.06MB
This booklet describes five selected high-performance projects (from the technical report 'Description of Case Stories').

Experimental Studies on Seasonal Heat Storage Based on Stable Supercooling of a Sodium Acetate Water Mixture
By: Simon Furbo, Janne Dragsted, Jianhua Fan, Ziqian Chen, Elsa Andersen and Bengt Perers
Publisher: Technical University of Denmark


Failure Mode Effect and Criticality Analysis
(C2)
PDF 10.94MB
By: Jérôme Lair, Dr

Finland: Tuusniemi
PDF 0.25MB
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Building envelope is based on a new open woodframed building system Nordic Platform allowing for shorter delivery cycle than with typical construction. Special features of the system are 250 mm wood- frame with thermal break for exterior walls and trussed construction for internal floors. The walls have an air tight additional exterior insulation layer facing air cavity and wooden façade. Insulation thicknesses and corresponding Uvalues including thermal bridging in construction are 275 mm (U=0,15 W/m2K) for walls, 450 mm (U=0,15 W/m2K)for floor with crawl space foundation, and 500 mm (U=0,10 W/m2K) for roof. Windows are triple glazed with one argon gas filled sealed unit and one selective coating. Total U-value including frame is 1,1 W/m2K.
Finland: Tuusniemi

From Optical Performance
(A3)
PDF 1.6MB
By: Richard Mitanchey

Germany - Apartment Building Blaue Heimat
PDF 0.17MB
Building under historical preservation protection, substantial renovation with redesign of floor plans. Heating supply by CHP combined with peak load boilers and water storage. 84% energy reduction.
Germany - Apartment Building Blaue Heimat

Germany - Building Ensemble in Freiburg
PDF 3.14MB
Due to historical preservation protection, only attic and façade were set with new insulation. Use of combined heat and power technology, based on biomass (rape seed methyl ester). Calculated reduction of primary energy demand: 95%.
Germany - Building Ensemble in Freiburg

Germany – an 1892 Apartment Building in Ludwigshafen
PDF 4.73MB
Renovation of an apartment building built in 1892. To preserve the character of the exposed brickwork, 80 mm of interior insulation was used. The building was monitored for 1 1/2 years to study the interior insulation.
Germany – an 1892 Apartment Building in Ludwigshafen

Germany – Apartment Building in Frankfurt am Main
PDF 5.21MB
The renovation of two postwar period apartment buildings, lead to a 94 % reduction of annual heat energy demand, almost meeting the Passive House Standard (energy balance computed using the Passive House Planning Package (PHPP)).
Germany – Apartment Building in Frankfurt am Main

Germany – Apartment Building in Freiburg
PDF 0.24MB
Two similar apartment buildings from 1961 with different ventilation systems; mechanical ventilation with heat recovery (60 kWh/m²a heat demand), and exhaust air ventilation (65 kWh/m²a heat demand).
Germany – Apartment Building in Freiburg

Germany – Apartment Building in Heidelberg
PDF 0.21MB
Building under historical preservation protection going through substantial renovation with redesign of floor plans, insulation of the building envelope, central heating system based on combined heat and power (CHP).
Germany – Apartment Building in Heidelberg

Germany – Apartment Building in Ludwigshafen
PDF 3.56MB
Renovation of a 1960 apartment building resulted in a 94 % reduction of annual heat energy demand. New features include extensive insulation, decentral ventilation system and PV roof (12.8 kWp).
Germany – Apartment Building in Ludwigshafen

Germany – Apartment Building in Ludwigshafen
PDF 3.59MB
Renovation of a 1960 apartment building resulted in a 94 % reduction of annual heat energy demand. The building complies with Passive House Standard; annual heat energy demand is 14 kWh/(m²a).
Germany – Apartment Building in Ludwigshafen

Germany – Apartment Building in Nürnberg
PDF 1.97MB
Renovation of an apartment building built in 1930 resulted in 87 % reduction of annual heat energy demand. In cooperation with the Passive House Institute (PHI) a concept for an external airtight layer was developed.
Germany – Apartment Building in Nürnberg

Germany – Apartments and Nursery in Ulm
PDF 2.61MB
Renovation of apartment with kindergarten included new windows, floor insulation, single room heating control and exhaust and supply HVAC with heat recovery.
Germany – Apartments and Nursery in Ulm

Germany – Historical Building in Bavaria
PDF 4.44MB
Conversion of former military area built in 1888 into residential lofts and a medical center. Interior facades and roofs were insulated, Passive House Components were used, thermal bridges minimized. Energy is now supplied from biomass and solar power.
Germany – Historical Building in Bavaria

Germany – Nursing Home in Stuttgart
PDF 2.12MB
Overall renovation of building envelope and technical services. The main heat supply is a thermal power station (100 kW with 50 kWelec). Two gas burners (310 kW) provide back-up. Result: 65% reduction of primary energy.
Germany – Nursing Home in Stuttgart

Germany – Rectory in Ulm
PDF 3.11MB
Retrofitting of the building envelope and the building technical equipment. New features include solar collectors, improved insulation, single room heating control and exhaust and supply HVAC with heat recovery.
Germany – Rectory in Ulm

Germany – Row House in Mannheim
PDF 2.08MB
Renovation of apartments built in the 1930s and 1950s. Heat for the 12 flats is generated by a gas-fired condensing boiler and a combined heat + power Stirling engine. Each flat is provided with a separate high-efficiency ventilation unit placed on the attic floor.
Germany – Row House in Mannheim

Germany: Durbach
PDF 0.28MB
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In 1996, a timber-construction double house was built in Durbach near Freiburg within the framework of the "Weber 2001" project. One half of this building was conceived as a low-energy building, the other one as an ultra-low-energy building.
Germany: Durbach

Germany: Freiburg
PDF 0.36MB
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The ISIS solar passive apartment block is situated in the recently developed residential area, Vauban, a former military barracks area in Freiburg. The four story apartment building, which was built within one year, has been occupied since its final completion in June 02. The passive solar apartment block has nine maisonettes and four one-storey dwellings with heated floor areas from 77 to 145 m². The construction of the owner-occupied flats was commissioned by the building group ISIS.
Germany: Freiburg

Germany: Hannover-Kronsberg
PDF 0.72MB
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The 32 terraced houses in Hannover Kronsberg are arranged in four rows with eight houses each row. This arrangement offers the advantage of reduced envelope surface area to volume ratio. The houses are type buildings which are available in three sizes with 79, 97, and 120 m2 floor area respectively.
Germany: Hannover-Kronsberg

Germany: Kassel
PDF 0.36MB
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The apartment houses were built by the GWG, a local housing company for low-income people. The intention was to provide space for young families. The dwellings are rented to the inhabitants. The two apartment buildings with 40 dwellings in total are situated in the redeveloped urban area of Marbachshöhe in Kassel. Up to the late nineties military barracks have been located there. In this brochure one of the two buildings (realized by HHS1) and ASP2)) with 23 dwelling units is described thoroughly.
Germany: Kassel

Germany: Townhouse Celle
PDF 0.2MB
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The exterior walls are lightweight timber stud structures. The mineral-fibre insulation layer inserted between the vertical timber studs is 200 mm thick. An additional 85 mm polystyrene insulating layer was applied to the outside of the wall. This layer was plastered in the ground floor area, but sheathed with timber in the top floor area. The wall has a Uvalue of 0.15 W/m²K.
Germany: Townhouse Celle

Germany: Ulm
PDF 0.25MB
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In collaboration with major manfacturers of building materials, the municipal housing society (NUWOG) of the city of Neu-Ulm, Germany, raised 3 semi-detached buildings that were designed as 3-litre houses within the framework of a model project located in Ulm. The term '3-litre house' applies to low-energy buildings, whose annual primary energy demand for heating figures below 34 kWh/m²a (including the auxiliary energy required for pumps and fans).
Germany: Ulm

Germany: Urban Villa Celle
PDF 0.23MB
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The manufacturer of this prefabricated house is expecting a growing demand for residential buildings with an extremely low energy demand in the near future. This is why the company developed this prototype building, designated 'Urban villa', as a 3-litre house.
Germany: Urban Villa Celle




Heat Transfer Capacity of a Heat Exchanger Module for Seasonal Heat Storage
By: Jianhua Fan, Simon Furbo, Ziqian Chen, Elsa Andersen and Bengt Perers
Publisher: Technical University of Denmark



Housing Renovations Film Clips

A set of film-clips about housing renovations have been developed with special funding from Norway. These films are available from www.lavenergiboliger.tv/filmengelsk.html . The following are available in English and German language: Why low energy? (4 minutes) Low-rise flats, Nuremberg (17 minutes) Housing cooperatives for passive housing, Sweden (16 minutes) Municipal assistance, Norway (12 minutes)





Italy – Historical Building in Modena
PDF 1.59MB
Renovation of historical building damaged by moisture. Renovation included insulation of the building envelope, improved frames and removal of the superfetation (extension of building that deface the construction) to improve thermal radiation.
Italy – Historical Building in Modena

Italy: Chignolo
PDF 0.35MB
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4-flat detached house with two 60 m2 units (one bedroom) and two 120 m2 units (two bedrooms). Building has two floors above ground, plus basement with storage and parking and attic floor. The house was built by a construction company wishing to realize a demonstration building for lowenergy strategies and light Str/En construction with a relatively traditional appearance.
Italy: Chignolo

Japan: Chiryu
PDF 0.39MB
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Structure is by Japanese traditional “post and beam” method with 105mm thick wall cavity. To increase insulation thickness and minimize wooden heat bridges, vertical and horizontal bars are attached to make wall cavity thickness 140mm.
Japan: Chiryu

Japan: Kanagawa
PDF 0.48MB
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Outer wall of this house, Hybrid Z, which is a laminated wall of 234 mm thick based on new ceramics (PALC) of 80mm thick, wraps around the whole house. Windows, which have great thermal loss, employ 3-layer glass sash, which improves thermal insulation and air-tightness of housing itself. Realizing a house that is naturally kept cool in summer and warm in winter positively serves to suppress excessive energy consumption in airconditioning.
Japan: Kanagawa

Japan: Kankyokobo
PDF 0.12MB
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Kankyo Kobo is a prefabricated house, a structure with a high and stable quality formed with steel frames and proof stress panels. All the panel frames, exterior wall materials, heat insulating materials, and window sash frames are preset in the factory. Painting exterior walls is also carried out in the factory in order to avoid the possible airpollution to the surroundings.
Japan: Kankyokobo

Japan: Kyoto
PDF 0.36MB
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A low energy house with all heat exchange type central air conditioning ventilation systems, passive solar, the photovoltaic system in Kyoto, Japan. This residence is two-by-four structure. Two-by-four structure is the method of construction which was excellent in heat insulation nature and air-tightness from the first.
Japan: Kyoto

Japan: Okayama
PDF 0.36MB
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The building is constructed by reinforced concrete to have big thermal mass inside the insulation envelope.
Japan: Okayama

Japan: OM Solar House
PDF 0.49MB
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The OM Solar system operates on the principle of taking solar-heated air collected under the surface of a building's roof and channeling this hot air, via an interior vertical duct, down beneath the ground floor to a heat-storing concrete slab. This concrete slab warms the ground floor and releases hot air through floor vents for distribution throughout the building's interior spaces. Auxiliary devices come into operation for hot water supply and for backup heating on overcast or very cold days.
Japan: OM Solar House

Japan: Prefabricated House
PDF 0.96MB
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This home, completed in 2000 and located in a residential district in Maebashi, Gunma Prefecture, is fitted with a power generation system using sunlight. Solar power is a clean source of energy, and unlike oil and coal, is inexhaustible and does not produce CO2 emissions. The home was built with many factory-prefabricated members which were then assembled at site.
Japan: Prefabricated House



LESO DIAL


MCDM-23 Tool
EXE 6.23MB
MCDM-23 is a new design-tool program that automates many tasks involved in using the Multi-Criteria Decision Making method developed by Task 23. The end products are worksheets, bar charts, and associated star diagrams that quantify how various design schemes stack up according to criteria selected by the user. Important! Only install MCDM-23 with Windows 95 or Windows 98. Do not install with Windows NT or Windows 2000.

MCDM-23 User Manual
PDF 1.56MB
Introduces the handling and features of the MCDM Software.

Methodology of Polimeric Glazing Materials
(B3)
PDF 0.04MB
By: Gary Jorgensen

Methodology of Atria tool


Mini-Review of Active (Thermal) Solar Energy 1995
Publisher: http://www.caddet-re.org/
http://www.caddet-re.org/html/tbactive.htm Ten Caddett RE countries have participated in this review, which includes barriers and opportunities based on: financing, infrastructure, utilities, public awareness, environmental issues, codes, and regulation. This document also contains recommendations for future work. A focus on information dissemination is among these recommendations and conclusions.

Moving the Market in Canada
(A3)
PDF 0.11MB
By: Steve Hopwood

Multi-Criteria Decision-Making - Method for specifying and prioritizing criteria and goals in design
PDF 0.22MB
This booklet explains how to use the Multi Criteria Decision Making method that was developed within Task 23. The method assists the design team to select and to prioritise amongst design criteria, and to evaluate alternative design solutions. In design competitions, the method can assist in developing the program and to select the best design amongst several alternatives.


Navigator Dynamic Manual
EXE 9.34MB
A more impressive way to get familiar with the NAVIGATOR provides the Dynamic Manual. Short video clips explain a lot of basics and possible adaptations.

Navigator Tool
XLS 0.72MB
The Navigator is an interactive knowledge space (accessible through MS Excel) regarding the Integrated Design Process. It guides actors in the definition and the practice of IDP. It contains the (Generic) Integrated Design Process, illustrated in a graph, that serves as the backbone, showing the different phases of the design process, and important issues during different stages of design. The Navigator also recommends methods and tools how to avoid or solve typical problems. The information within the Navigator can be adjusted and supplemented with new experiences . In this way a personal knowledge space is created.

Navigator User Manual
PDF 1.56MB
Explains the handling of the Excel-worksheets and introduces the realized (VB and Macro) features.

Netherlands: Groenlo
PDF 0.29MB
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The foundations are made of foamed concrete. The façades are constructed with a wooden skeleton with 140 mm cellulose insulation and extra insulation of 40 mm cellulose on the inside. The outside finishing is done in deal and red cedar. The inner walls are made of hollow bricks, for their low mass and for the in-wall heating.
Netherlands: Groenlo

Netherlands: Rivierdijk, Sliedrecht
PDF 0.28MB
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As a result of the fact that this project is built in the body of the dike which is constructed on more than 15 m of soft peat ground below sea level, and because of the pressure on the dike caused by heavy rainfall upstream on the rivers Rhine and Meuse, it was necessary to make the concrete pile foundations extremely heavy.
Netherlands: Rivierdijk, Sliedrecht

Netherlands: Waaldijk, Dalem
PDF 0.24MB
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The light weight concrete main structure of the extended walls is covered with 300 mm EPS insulation and finished with a mineral plaster (u=0,115 W/m²K); insulated window frames, windows and doors (u=0,68 W/m²K), together with integrated sun shading systems in the large south and west facing windows; 300 mm EPS roof insulation (u=0,116 W/m²K) on the roof and 300 mm EPS insulation on the floor (u=0,113 W/m²K) make a perfect insulated envelope around the living areas of this passive house of which the exterior building connections are designed to avoid thermal bridges.
Netherlands: Waaldijk, Dalem

New Zealand: Kakariki Lane, Christchurch
PDF 0.93MB
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All the houses use passive solar effects for space heating purposes, optimised by their design. One has a Stirling engine, used experimentally (it burns gas, which produces electricity and hot water); this same house has a heat recovery system.
New Zealand: Kakariki Lane, Christchurch

Norway – Apartment Buildings Myhrerenga
PDF 1.66MB
The apartment buildings erected in 1967-1968 were in need of major renovation. The renovation included, among others, blown in insulation in the roof construction, extra insulation in external walls and balanced ventilation system with high efficiency heat recovery.
Norway – Apartment Buildings Myhrerenga

Norway – Log House in Kongsberg
PDF 1.68MB
Built as a holiday cottage in 1942 using 6” logs, and converted into a permanent residence in 1997. The renovation was made in several stages and comprised the building envelope and a new ventilation system.
Norway – Log House in Kongsberg

Norway – Row House in Oslo
PDF 1.33MB
Typical row house in the end of a three unit row, built in 1962, with poor insulation and thermal bridges. Renovation included internal vacuum insulation and installation of an integrated ground to water heat pump.
Norway – Row House in Oslo

Norway – Single Family House in Orkanger
PDF 0.76MB
Renovation of a 1982 single family house including new roofing, balanced ventilation system with highly efficient heat recovery, better windows and insulation, highly efficient wood stove and heat pump.
Norway – Single Family House in Orkanger

Norway – Terraced Apartments in Stjørdal
PDF 0.89MB
The renovation of the terraced apartments from 1970 was first large low-energy housing renovation project in Norway. It included, among other measures, improved insulation, reduction of thermal bridges and a balanced ventilation system.
Norway – Terraced Apartments in Stjørdal

Norway: Budstikka 18, Kongsberg
PDF 0.24MB
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Several measures will be carried out to improve the building envelope compared to normal building standard. All of these actions are optimized in the regard of energy and cost efficiency, and the total concept is crucial for the good result.
Norway: Budstikka 18, Kongsberg

Norway: Husby Amfi, Stjordal
PDF 0.29MB
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Several measures will be implemented to improve the building envelope compared to normal building standards. These measures are optimized as regards energy and cost efficiency.
Norway: Husby Amfi, Stjordal

Ongoing Research Relevant for Solar Assisted Air Conditioning Systems Appendix
PDF 1.58MB
Ongoing Research Relevant for Solar Assisted Air Conditioning Systems Appendix

Poly(2-Alkyloyloxyethylacrylate) and Poly(2-Alkyloyloxyethylacrylate-Co-Methylacrylate) Comb-Like Polymers as Novel Phase Change Materials for Thermal Energy Storage
By: Cemil Alkan*, Ömer Faruk Ensari, Derya Kahraman

Poster "Testing Methology for SLP"
PDF 0.05MB
pdf file / 54 kb



Publications in magazines and at conferences
PDF 0.1MB
This list provides selected international publications and (oral) presentations associated with the different topics of Task 23.



Results of Subtask C: Daylighting Design Tools


Scale model measurements on daylighting systems

Scotland: Aberdeen
PDF 0.2MB
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The building is an evolution of a design used previously by the design team and this gives it a key advantage. The building holds a specific grid layout and has a habitable roof space to reduce costs and reduce site waste.
Scotland: Aberdeen

Scotland: Isle of Bute
PDF 0.09MB
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The building, which is circular, is not contemporary to the area but has a key advantage. It has a low impact on the surrounding area as it has a small and compact plan area. It is also reminiscent of Brochs and medieval tower designs prevalent around Scotland.
Scotland: Isle of Bute

Search other tools in Soltherm database
http://iea-shc.org/task24/tools-othertools.htm

Sensible Heat Storage in District Heating Networks: A Novel Control Strategy Using the Network as Storage
PDF 0.13MB
By: D. Basciotti, F. Judex, O., R.R. Schmidt
Publisher: Austrian Institute of Technology


Sky Vision: a Software Tool
(A3)
PDF 0.42MB
By: Abdelaziz (Aziz) Laouadi


Solar Assisted Air-Conditioning of Buildings
You can purchase the handbook "Solar-Assisted Air-Conditioning in Buildings - A Handbook for Planners" via your favorite bookshop or use the order form:

Solar Collectors and their Fields of Application
Publisher: http://www.zreu.de/

Solar Collectors and their Fields of Application
Publisher: http://www.zreu.de/

Solar District Heating Systems
Publisher: http://www.ecd.dk/

Solar Low Energy Buildings and the Integrated Design Process - An Introduction
PDF 0.31MB
By: Nils Larsson and Bart Poel
This is an introductory booklet that explains what Task 23 is about. It briefly addresses the integrated design process, how it was put into practice and what we can learn from that.

Solar Thermal Systems in Europe - Information Booklet
http://erg.ucd.ie/erg_downloads.html

solares duschen
PDF 0.29MB




Statistics
PDF 0.14MB






Survey of simple design tools

Sustainable Solar Housing
Marketable Housing For A Better Environment Brochure
PDF 0.53MB

Sustainable Solar Housing - 2 Volumes
Editor: Robert Hastings and Maria Wall
Order - 67.50 GBP
This far-reaching and authoritative two-volume set examines a range of energy conservation and renewable energy solutions for designing low-energy buildings. Each volume assesses the potential of these options in a variety of contexts, covering different housing types (apartment, row and detached) in cold, temperate and mild climates. The authors are from 14 countries and include a mix of internationally respected academics and practitioners. Volume 1 – Strategies and Solutions Volume 1 presents strategies and solutions, offering the reader a solid platform for developing concepts, considering environmental and economic concerns for housing projects in a variety of contexts. Volume 2 – Exemplary Buildings and Technologies Volume 2 offers a detailed analysis of exemplary buildings in different European countries and examines the various technologies employed to achieve the remarkable performance. Aided by clear illustrations, it offers invaluable insights into the application of these technologies.


Sweden - Apartment Building in Alingsas
PDF 0.37MB
The Brogarden housing estate with 300 apartments built in 1970. Better insulation, heat exchanger and solar heating system bring the annual heat demand down to 55 kWh/m2.
Sweden - Apartment Building in Alingsas

Sweden – Apartment Building in Alingsås
PDF 3.32MB
300 apartments constructed in 1970 to be renovated to passive house standard. Measures include added insulation (ground floor, exterior walls and roof), new facade material and new windows.
Sweden – Apartment Building in Alingsås

Sweden – Apartment Building in Backa
PDF 2.63MB
In Backa outside Göteborg, the public housing company Poseidon has been renovating their apartments, built in the 70s. The renovation process continues, with focus on energy, first in a demonstration project.
Sweden – Apartment Building in Backa

Sweden: Landskrona
PDF 0.47MB
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The floor construction consists of 100 mm concrete, 350 mm polystyrene and 200 mm macadam. The U-value is approx. 0,10 W/(m²·K). The external walls consist of 450 mm polystyrene and mineral wool divided in four different layers.
Sweden: Landskrona

Sweden: Lindås, Göteborg
PDF 0.48MB
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In an environment of great natural beauty at Lindås, 20 km south of Göteborg, the city owned company Egnahemsbolaget has built 20 terrace houses in which a traditional heating system has been replaced by a heat exchanger in combination with an exceptionally well-insulated construction.
Sweden: Lindås, Göteborg


Switzerland - Apartment Building in Ostermundigen
PDF 0.46MB
60% heating energy reduction of 1960's building, new apt. layouts, new sunspaces and penthouses, innovate heat recovery system.
Switzerland - Apartment Building in Ostermundigen

Switzerland - Apartment Building in Staufen
PDF 0.45MB
65% reduction of primary energy, two stage renovation: envelope then tech. systems, 110 m2 roof-integrated PV, new deeper thermal-bridge-free balconies.
Switzerland - Apartment Building in Staufen

Switzerland - Apartment Building with Shops in Zurich
PDF 0.66MB
75% energy reduction in urban apt. building with historic protected façade, prefab new roof modules for new attic penthouse.
Switzerland - Apartment Building with Shops in Zurich

Switzerland - One-Family House in Walenstadt
PDF 0.6MB
80% reduction in heating energy, solar drain-back combi dhw-heating system, new architecture.
Switzerland - One-Family House in Walenstadt

Switzerland – Apartment Building in Zurich
PDF 0.78MB
Renovation of an 1898 apartment building in poor condition. A 75 % reduction of primary energy demand was attained.
Switzerland – Apartment Building in Zurich

Switzerland – Apartment Building in Zürich
PDF 3.69MB
The renovation included new façade to the street, new ground floor architecture, roof-integrated PV panels and solar thermal collectors. Primary energy demand was reduced by 89 %.
Switzerland – Apartment Building in Zürich

Switzerland – Apartment Building Volketswil
PDF 1.04MB
Renovation of an apartment building in a suburb of Zürich. The goal of higher energy efficiency was achieved by adding insulation to the façades, solar collectors on the roof, plus a new ventilation system.
Switzerland – Apartment Building Volketswil

Switzerland – Apartment Towers in Geneve
PDF 1.89MB
Renovation of three small apartment towers built in 1954. Due to historic preservation, two buildings were renovated with external insulation of the walls, and one with internal insulation.
Switzerland – Apartment Towers in Geneve

Switzerland – Historically Protected Senior Residence in Bern
PDF 3.57MB
Renovation of a historically protected senior residence built in 1872 with an extension to the rear of the west wing, new floor plan layout and energy saving measures, including new insulation and mechanical ventilation with heat recovery.
Switzerland – Historically Protected Senior Residence in Bern

Switzerland – Single Family House in Lanterswil
PDF 2.13MB
Modernization of a single family house. One of the heat loss reduction measures is a passive solar façade that absorbs and stores solar energy to create a warm buffer between the house and the ambient. Additionally, PV panels (4,9 kWp) were added.
Switzerland – Single Family House in Lanterswil

Switzerland – Single Family House in Ostermundigen
PDF 1.14MB
Improved insulation, structures for utilization of passive solar energy, a PV system (6.6 kWp), solar thermal collectors and a geothermal heat pump result in net energy production (10 kWh/m²a).
Switzerland – Single Family House in Ostermundigen

Switzerland – Single Family House in Walenstadt
PDF 0.75MB
Renovation of a single family home led to an 80 % reduction of primary energy demand. New features included insulation of building envelope and new windows. Pellets stove and solar collectors were installed.
Switzerland – Single Family House in Walenstadt

Switzerland –Two-Family House in Stansstad
PDF 11.69MB
Comprehensive renovation of building built in 1962. Work included elimination of thermal breaks, new central ventilation system with heat recovery, central wood pellet stove (8 kW), solar collectors. Complies with the Swiss Minergie-P Standard.
Switzerland –Two-Family House in Stansstad

Switzerland: Buttisholz
PDF 0.34MB
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The objective of this project is to minimise the energy consumption of the building while providing a living space with highest comfort and quality. The building is planned as a complete system including all necessary energy measures for a passive house.
Switzerland: Buttisholz

Switzerland: Dintikon
PDF 0.29MB
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The builders requested an optimised annual energy balance, a smart combination of passive and active solar energy use, modern and ecological construction as well as a conservation -conscious design of the site.
Switzerland: Dintikon

Switzerland: Monte-Carasso
PDF 0.19MB
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The structure of the house is massive. Each floor is a concrete slab construction. Part of the walls is also made of concrete. In order to reduce the number of thermal bridges, the house bearing structure is built inside the polystirol insulation envelope (13 to 20 cm of insulation thickness).
Switzerland: Monte-Carasso

Switzerland: Rothenburg
PDF 0.38MB
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The project was wrapped in: good architecture, trendy design, way of living, family values, happy and healthy children, a lot of green spaces, health focus and being responsible for the next generation.
Switzerland: Rothenburg

Switzerland: Zurich
PDF 0.31MB
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The walls, ceiling and flat roof are of wooden frame lightweight construction. The entire envelope is free of thermal bridges. Cellar, underground parking and the staircase for the exterior access are built in concrete.
Switzerland: Zurich



Task 35 Flyer
PDF 0.5MB
Document Number: DE3-1
Task 35 Flyer


The Integrated Design Process in Practice - Demonstration Projects Evaluated
PDF 3.36MB
This booklet provides examples of design processes in which some of the Task 23 methods and tools have been used to support the design process. Both the process and the experiences of the actors involved are described.

The Netherlands – Row Houses in Roosendaal
PDF 3.73MB
Planned renovation of row houses built in 1965 to Passive House Standard. New features include new timber frame facades and roofs, innovative heating and solar collectors.
The Netherlands – Row Houses in Roosendaal

The Netherlands – Row Houses Kroeven in Roosendaal
PDF 1.08MB
First large-scale Passive House renovation project in Holland, the subject is a social housing project built in 1967. Innovative building technology and process have been applied. A 90 % primary energy reduction was achieved.
The Netherlands – Row Houses Kroeven in Roosendaal

The Netherlands – Single Family House in Sint Pancras
PDF 2.36MB
Renovation of single family house dating from 1939. Aims: reducing fossil energy demand by a factor 7 and later even become net energy positive due to utilization of solar energy (PV and collectors).
The Netherlands – Single Family House in Sint Pancras

Thermal and Solar Modelling
(A1)
PDF 0.11MB
By: Dick van Dijk

Thermochemical Storage Materials Research - Tga/Dsc-Hydration Studies
PDF 0.4MB
By: Opel, O., Rammelberg, H.U., Gérard, M., Ruck, W.
Publisher: Institute of Environmental Chemistry, Faculty Sustainability, Leuphana University of Lueneburg

Towards Net Zero Energy
IEA SHC /ECBCS Project Factsheet
PDF 1.87MB
Energy Use in buildings worldwide accounts for over 40% of primary energy use and 24% of greenhouse gas emissions. Energy use and emissions include both direct, on site use of fossil-fuels and indirect use from electricity, district heating / cooling systems and embodied energy in construction materials. Several International Energy Agency (IEA) countries have adopted a vision of so-called ‘net zero energy buildings’ as longterm goal of their energy policies. However, what is missing is a clear definition and international agreement on the measures of building performance that could inform ‘zero energy’ building policies, programmes and industry adoption around the world.

UK: Hockerton Housing
PDF 0.21MB
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Ventilation is provided by opening windows in the external wall and glazed doors between the house and the conservatory. In addition, each house has a mechanical ventilation heat recovery (mvhr) system that supplies fresh air to living/bed rooms and extracts from the kitchen and bathroom.
UK: Hockerton Housing

UK: Maidenhead
PDF 0.21MB
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In 1998, housing association ‘Housing Solutions’ approached INTEGER with a scheme for a site in Maidenhead. The aim was to incorporate as many INTEGER elements of innovation in design, intelligence, environmental performance and construction process as possible in order to maximise the benefits to the future occupants.
UK: Maidenhead

UK: Watford
PDF 0.26MB
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Materials for the building fabric were selected for sustainability, low embodied energy, long life and low maintenance. A low maintenance turf roof provides good insulation, is visually attractive and provides a natural alternative to conventional roof materials.
UK: Watford

USA: Kansas City
PDF 1.53MB
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4” Structural Insulated Panels (SIPS) along with 1” EFIS (exterior finish insulation system) were selected for wall panels because they were less expensive to build and were 15% more energy efficient than standard stick built 2X 6 construction. Walls as constructed have a U value of .05 or R-22.
USA: Kansas City

Validation of daylighting design tool

Window Energy Efficiency Levels
(A1)
PDF 0.05MB
By: Anil Parekh