General Task Publications

One year of high-precision operational data including measurement uncertainties from a large-scale solar thermal collector array with flat plate collectors
One year of high-precision operational data including measurement uncertainties from a large-scale solar thermal collector array with flat plate collectors
June 2023
Publisher: Elsevier

This work presents operational data of a large-scale solar thermal collector array. The array belongs to a solar thermal plant located at Fernheizwerk Graz, Austria, which feeds into the local district heating network and is one of the largest Solar District Heating installations in Central Europe. The collector array deploys flat plate collectors with a total gross collector area of 516 m2 (361 kW nominal thermal power). Measurement data was collected in situ within the scientific research project MeQuSo using high-precision measurement equipment and implementing extensive data quality assurance measures. Data compromises one full operational year (2017) in a 1-minute sampling rate with a share of missing data of 8.2%. Several files are provided, including data files and Python scripts for data processing and plot generation. The main dataset contains the measured values of various sensors, including volume flow, inlet and outlet temperature of the collector array, outlet temperatures of single collector rows, global tilted and global horizontal irradiance, direct normal irradiance, and weather data (ambient air temperature, wind speed, ambient relative humidity) at the plant location. Beyond the measurement data, the dataset includes additional calculated data channels, such as thermal power output, mass flow, fluid properties, solar incidence angle and shadowing masks. The dataset also provides uncertainty information in terms of standard deviation of a normal distribution, based either on sensor specifications or on error propagation of the sensor uncertainties. Uncertainty information is provided for all continuous variables, with some exceptions such as the solar geometry, where uncertainty is negligible. The data files include a JSON file containing metadata (e.g., plant parameters, data channel descriptions, physical units, etc.) in both human and machine-readable format. The dataset is suitable for detailed performance and quality analysis and for modelling of flat plate collector arrays. Specifically, it can be helpful to improve and validate dynamic collector array models, radiation decomposition and transposition algorithms, short-term thermal power forecasting algorithms with machine learning techniques, performance indicators, in situ performance checks, dynamic optimization procedures such as parameter estimation or MPC control, uncertainty analyses of measurement setups, as well as testing and validation of open-source software code. The dataset is released under a CC BY-SA 4.0 license. To the best knowledge of the authors, there is no comparable dataset of a large-scale solar thermal collector array publicly available.

The Rise of Solar District Heating
The Rise of Solar District Heating
March 2023

https://www.youtube.com/watch?v=ngNgVxTT2y4

The energy and climate crises point in one clear direction – a faster transition towards clean renewable energy sources. Heat is half of the energy demand in Europe, making heat decarbonisation one of the main challenges of the energy transition. Direct renewable heat solutions like solar heat are already replacing imported gas, and one of the ways is through Solar District Heating. Euroheat & Power and Solar Heat Europe are joining forces and addressing these topics during the webinar 'The Rise of Solar District Heating’ that will take place on March 28th, 2023. The event bring together panellists covering the different perspectives needed for Solar District Heating deployment across Europe, such as financing, utilities, project development, and policy.

Solar Heat for Cities, Towns and Energy Communities - Info Packet
Solar Heat for Cities, Towns and Energy Communities - Info Packet
Introduction to solar district heating by the IEA SHC Task 68 - Efficient Solar District Heating Systems - update
January 2023 - PDF 6.24MB

An enormous task:

  • decarbonising around 6,000 district heating networks across Europe.
  • solar heat is one of the proven, available, cost-effective measures to help complete this enormous task.

In this presentation we would like to show you how solar district heating works and who is using it successfully already

IEA-SHC TASK ON EFFICIENT SOLAR DISTRICT HEATING SYSTEMS INCORPORATING HIGHER TEMPERATURES
IEA-SHC TASK ON EFFICIENT SOLAR DISTRICT HEATING SYSTEMS INCORPORATING HIGHER TEMPERATURES
July 2022 - PDF 0.17MB
Publisher: Conference ISEC 2022

Abstract regarding the structure and goals of the new Task 68.