Project Image Pool
There are 102 results.
Terms of use: The pictures on this site originate from the projects in the frame of the programmes City of Tomorrow, Building of Tomorrow and the IEA Research Cooperation. They may be used credited for non-commercial purposes under the Creative Commons License Attribution-NonCommercial (CC BY-NC).
Direct Thermochemical Liquefaction - Overview Task activities
The IEA Bioenergy Task34 addresses several levels with the focus of DTL: Feedstock, DTL technologies, intermediates technologies and potential applications of DTL products.
Copyright: Axel Funke, KIT
Solare District Heating: Structure, Heat and Revenue Streams
General structure of solar district heating (top) as well as important heat and revenue streams (bottom): The figure shows solar collectors, heat exchangers, a buffer storage, pumps, valves, the grid and consumers.
Copyright: © Dr. Viktor Unterberger / BEST GmbH
Thermal Solar Plants: Life Cycle and Planning
Stages in the solar thermal plant life cycle (top), flow chart for the decision about implementation of solar district heating (bottom)
Copyright: © IEA SHC Task 68 – Subtask C
The large-scale thermal solar plant of Silkeborg, Dk
Overview over the large-scale solar thermal plant in Silkeborg, Denmark (left) and schematic showing the different sections and piping of the installation (right)
Copyright: © Silkeborg Forsyning AB
Structure of IEA SHC Task 68
Logo board of the countries and institutions (universities, research centres and companies) that participate in IEA SHC Task 68. The Task Management (TM) and the Subtask leads (A to D) are highlighted. Below, the key topics of IEA SHC Task 68 are shown: Higher efficiency (Subtask A), digital solutions (Subtask B), lowering costs (Subtask C) and dissemination / communication (Subtask D)
Copyright: © das IEA SHC Task 68 Konsortium
Examples for modern solar thermal collectors
Ground mounted evacuated tube collectors in Büsingen, Germany; combination of flat plate collectors and parabolic trough collectors in Taars, Denmark; roof integrated solar thermal collectors on “solar@home” building in Crailsheim, Germany; demo system of Sun Oyster on a flat roof in Zhangjiakou, China
Copyright: © Solites, Aalborg CSP und sunoyster.com
Advanced Biofuel Pathways
Principle pathways of advanced biofuels technologies
Copyright: @BEST
Demoplants Database
Database on facilities for the production of advanced liquid and gaseous biofuels for transport
Copyright: @IEA Bioenergy Task 39 @Open Street Map
PURIX Solar Cooling System
PURIX provides sustainable cooling technologies, leveraging R718 (water), a natural, non-flammable refrigerant, to develop environmentally friendly air conditioning and cooling systems.
Copyright: PURIX
Sunbelt regions
Sunbelt countries (orange) and IEA SHC Task 65 participants (green)
Copyright: Neyer Brainworks GmbH / Dr Jakob Energyresearch GmbH
Task65 - Solar Akademie - SACREEE
The IEA SHC Solar Academy and SOLTRAIN (Southern African Solar Thermal Training and Demonstration Initiative) hosted with the support of SACREEE and SANEDI a specialized course for professionals on Solar Cooling for Sunbelt Regions at Stellenbosch Institute for Advanced Study in South Africa. A total of 46 participants from 7 countries took part, with around 8 of them participating virtually. https://task65.iea-shc.org/Data/Sites/1/publications/IEA-SHC-Solar-Update--Solar-Academy-SACREEE.pdf
Copyright: AEE Intec
Hybrid Solar Cooling Concept
As part of the SolarHybrid project, functional models for an ammonia/water (NH3/H2O) single-/half-effect (SE/HE) absorption chiller were adapted based on the previous DAKtris project and a new NH3 compression chiller was built.
Copyright: UIBK
IEA-PVPS Task 1 Expert Group in front of the Norwegian PV-Wafer production NorSun
The IEA-PVPS Task 1 Expert Group during the technical visit in front of the Nor Sun wafer factory building in Ardalstangen/Norway. Due to strong Chinese competition in PV wafer production, this plant had to be shut down in 2023; as part of the European Net Zero Industry Act, it should be possible to resume production.
Copyright: Fechner
PV Facade, Innovametall
PV Facade, Innovametall company, Freistadt, Upper-Austria
Copyright: Fechner
Sonnenkraft _Campus
Sonnenkraft-Campus in St.Veit/Glan, Austria – PV-Facade with certified Kromatix Solar Glas - Photo credit: Sonnenkraft
Copyright: Photo credit: Sonnenkraft
SOLARSKYPARK Fast-E-Chargingpark for E-Mobility, Freistadt Upperaustria
PV Carport with E-charging and Energystorage • 176kW/597kWh Outdoorstorage by neoom • 11 Stk 300 kW E-Charging stations
Copyright: Fa. Neoom
IEA Bioenergy Task 39 group picture BBEST
A group photo of the experts in IEA Bioenergy Task 39 was taken at the Business Meeting 2024 in Brazil
Copyright: IEA Bioenergy Task 39 / DBFZ
Dimensions of flexible bioenergy in biobased value chains.
Dimensions of flexible bioenergy along the value chain. In this diagram, operational flexibility in space and time is broken down along the value chain. Flexibility on the procurement side is shown on the left-hand side. On the right-hand side, the flexibility on the consumer side is shown. On the procurement side, there are two representative boxes, one for raw materials with symbols such as manure buckets and cow manure, and one for storage, with a symbol for biogas storage. On the consumer side, there are two representative boxes, one for energy sources with the symbol for wood and one for products and services with symbols for electricity, heating, goods and passenger transportation.
