Projects within the framework of open4innovation
There are 590 results.
IEA IETS Task 22: Climate Resilience and Energy Adaptation in Industry under Uncertainty (working period 2024 - 2026)
The main objective of this task is to promote understanding and progress in digitalization, artificial intelligence (AI), and related technologies in order to enable climate resilience (extreme weather and events) and energy adaptation (electricity, heating, and sector coupling) in energy-intensive industries. Specifically, the challenges of energy flexibility and demand response will be identified by means of surveys of Austrian stakeholders and the results presented nationally in a workshop format.
IEA IETS Task 23: Drivers and Barriers for the Transformation of Industrial Energy, Technologies and Systems (Working period 2024 - 2025)
The successful reduction of industrial greenhouse gas emissions requires the integration of a wide range of competencies. In addition to technical barriers, there are also organizational, regulatory, societal and financial barriers. The new Task 23 addresses the need for collaboration and system thinking to overcome non-technical barriers. The technical work in ongoing tasks should be supplemented by this task, which should provide added value in overcoming non-technical hurdles.
IEA ISGAN Communication Working Group (Working period 2025 - 2027)
This project examines the topic of “Network planning under uncertain framework conditions for intelligent distribution grids”. By means of international exchange and the collection of best practices and implemented examples, a Casebook and policy recommendations will be created.
IEA ISGAN Working Group 6 Transmission and Distribution Network Systems (working period 2023-2024)
IEA ISGAN Working Group 6 addresses the challenges in the overall system of transmission and distribution networks for electricity. The results will improve the understanding of the impact of smart grid technologies on the overall system performance, transmission capacities and operational management of public electricity supply systems. In the project years 2022-2023, international pilot projects on flexibility use and the necessary interaction of transmission and distribution grid operators will be summarised and conclusions drawn.
IEA ISGAN Working Group 6: Transmission and Distribution Network Systems (Working period 2025-2026)
IEA ISGAN Working Group 6 focuses on Power Transmission and Distribution Systems (T&D), addressing challenges in developing future smart grids. It promotes technology deployment and strategic adoption to enhance the safe and secure supply of electricity. This supports electrification expansion, renewable integration, distributed generation, and customer engagement. During 2025-2026, the project will explore grid-forming inverters and their impact on the power grid and stakeholder interactions.
IEA ISGAN Working Group 7: Smart grids transitions of the institutional change (Working period 2023-2026)
The aim of ISGAN Working Group 7 is to bundle international experiences and interdisciplinary research activities on smart grids, process them and make them usable for policy makers and regulators. These include social, economic and humanities research on the institutional framework conditions of the transition, in particular on governance issues, as well as the development of processes for the broad participation of relevant social groups in smart grid transition processes.
IEA ISGAN Working Group 9: Flexibility Markets - Development and Implementation (Working Period 2023 - 2025)
ISGAN Working Group 9 focuses on flexibilities in the power system and related market mechanisms. Main work areas include the integration of trading with flexibilities (redispatch), investigation of the needs of different market participants, identification and definition of flexibilities and their characteristics, development and scaling of interoperable flexibility markets, consumer-oriented understanding of flexibilities and the avoidance of stability or security losses due to diversity loss.
IEA PVPS Actiongroup „Agri-photovoltaics“ (Working period 2025 - 2026)
Agri-photovoltaics combines open-field PV systems with agriculture to promote sustainable land use. This working group aims to collect and analyse international insights on agri-PV. Key focuses include efficient land use, climate resilience in agriculture, and enhancing public acceptance of solar energy.
IEA PVPS Task 12: Photovoltaics (PV) Sustainability Activities (working period 2024 - 2027)
Photovoltaics (PV) is a renewable energy source that is an important technology for the energy transition. For this reason, or rather despite this, it is important to consider sustainability aspects in PV as well. End-of-life solutions in particular play an important role, as a strong increase in the number of end-of-life modules is expected in the coming years. Well-functioning recycling methods, repair possibilities or reuse options are of great importance. In this project, these existing methods and capacities in Austria are being researched and published in reports and workshops.
IEA PVPS Task 13: Reliability and Performance of Photovoltaic Systems (Work Plan 2024 - 2025)
IEA PVPS Task 13 engages in focusing the international collaboration in improving the reliability of photovoltaic systems and subsystems by collecting, analyzing and disseminating information on their technical performance and durability, providing a basis for their technical assessment, and developing practical recommendations for improving their electrical and economic output in different climatic regions.
IEA PVPS Task 13: Reliability and Performance of Photovoltaic Systems (Working period 2022 - 2023)
IEA-PVPS Task 13 aims to provide support to market actors working to improve the operation, the reliability and the quality of photovoltaic components and systems. Operational data from PV systems in different climate zones compiled within the project will help provide the basis for estimates of the current situation regarding PV reliability and performance.
IEA PVPS Task 15: Enabling Framework for the Acceleration of BIPV (Working period 2024 - 2027)
Photovoltaics in general, and thus also the integration of photovoltaics into buildings (BIPV), represents a key component in the energy system of the future. The issues of land consumption for PV and dual use are now making BIPV increasingly important. Solutions for photovoltaics integrated into the building envelope are therefore increasingly becoming the focus of the construction industry.
IEA PVPS Task 17: Photovoltaik for Transport (working period 2018 - 2021)
The IEA PVPS Task 17 focuses on the potential contributions of PV technologies to the transport sector as well as on the expected market potential of PV application in the transport sector.
IEA PVPS Task 1: PV Analysis and Outreach
Since the start of the IEA photovoltaics program in 1993, this task has carried out analyses of worldwide photovoltaic development, from which the program's key work areas are also derived. This gives Task 1 strategic importance for the overall PVPS program. The participation of all PVPS countries in this task is mandatory to ensure high quality of data and analysis.
IEA PVPS Task 1: Strategic PV Analysis and Outreach (Working period from 2025)
This task, which is mandatory for all countries participating in the IEA-PVPS program, has been producing global reports on photovoltaic development since 1993. In addition, content-related priorities are set, or new topics and tasks are developed, which are then sent to the ExCo for decision-making. This gives Task 1 strategic importance for the overall IEA PVPS program.
IEA Photovoltaic Power Systems (PVPS)
Enhance the international collaborative efforts which facilitate the role of photovoltaic solar energy as a cornerstone in the transition to sustainable energy systems. The IEA PVPS programme aims to realise its mission through objectives related to reliable PV power system applications, contributing to sustainability in the energy system and a growing contribution to CO2 mitigation.
IEA SHC Task 49/IV: Solar Process Heat for Production and Advanced Applications
IEA SHC Task 49/IV focussed ist work on important research questions on solar process heat within the three subtasks: Process heat collectors, their application, comparison and possible standarization; Process Integration and process intensification as required interlinkage between solar heat and production processes; Design Guidelines, case studies and promotion as key for market penetration.
IEA SHC Task 67: Compact Thermal Energy Storage Materials within Components within Systems
This Task aims to push forward the compact thermal energy storage (CTES) technology developments to accelerate their market introduction through the international collaboration of experts from materials research, components development and system integration. These technologies are based on the classes of phase change materials (PCM) and thermochemical materials (TCM). Materials from these classes will be studied, improved, characterized and tested in components.
IEA SHC Task 68: Efficient Solar District Heating Systems (Working period 2022 - 2024)
Regarding the use of CO2-free technologies for local/district heating systems, solar technologies in particular offer an efficient option. In this task, the opportunities and challenges are investigated in order to efficiently provide the required temperatures necessary for local/district heating networks through solar technologies, to promote digitalisation, to identify new business models and measures for cost reduction, and to spread the knowledge about the potential of solar district heating systems.
IEA SHC Task 69: Solar Hot Water for 2030
Solar water heating will play a crucial role in the decarbonization of the energy system for 2030 and beyond. IEA SHC Task 69 focuses on two technologies which are likely to play the biggest role in the global solar hot water market: thermosyphon and photovoltaic (PV) hot water systems. For these technologies global market surveys, systems and component optimizations, cost reduction analyses and revision of standards are being conducted to accelerate growth in target markets.