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Internationale Energieagentur (IEA)

IEA AFC Annex 31: Polymer Electrolyte Fuel Cells

Task 31 was a research and development oriented Task with the objective to contribute to the identification and development of techniques and materials to reduce the cost and improve the durability of polymer electrolyte fuel cells (PEFCs).

Internationale Energieagentur (IEA)

IEA AFC Annex 31: Polymer Electrolyte Fuel Cells (Working period 2020 - 2024)

AFC Annex 31 covers the technological development of the key components of fuel cells, system development, market introduction support through the analysis and development of the political framework conditions and the reduction of market entry barriers.

Internationale Energieagentur (IEA)

IEA AFC Annex 31: Polymer electrolyte membrane fuel cell (Working period 2017 - 2019)

Task 31 is a research and development oriented Task with the objective to contribute to the identification and development of techniques and materials to reduce the cost and improve the durability of polymer electrolyte fuel cells (PEFCs).

Internationale Energieagentur (IEA)

IEA AFC Annex 33: Stationary Applications (Working period 2017 - 2019)

The main objective of Annex 33 is to support the technology development of key components and systems. Market implementation and transformation will be supported by the analysis and development of the necessary political framework and instruments. The current technological, economic and political barriers are to be identified, solutions developed and the barriers gradually removed.

Internationale Energieagentur (IEA)

IEA AFC Annex 33: Stationary Applications (Working period 2019 - 2022)

The future energy system will be strongly characterized by decentralized and renewable power generation. The use of fuel cells (FCs) can contribute to energy and environmental policy objectives. This project investigated whether a market transition from successful international demonstration plants to commercial plants is possible. The potential applications of fuel cells in the building sector and across energy communities and climate-neutral neighbourhoods were investigated.

Internationale Energieagentur (IEA)

IEA AFC Annex 34: Fuel Cells for Transportation (Working period 2019 - 2022)

The overall objective of the project is the advancement of fuel cells in transportation applications. To ensure a comprehensive penetration of the automotive market, the focus will be laid on the cost-reduction potential of fuel cell components and systems including hydrogen storage, the hydrogen infrastructure and fuel cell vehicles in public transportation as well as fuel cell powered utility vehicles.

Internationale Energieagentur (IEA)

IEA AFC Annex 34: Fuel Cells for Transportation (Working period 2022 - 2025)

The vision of the Technology Collaboration Programme on Advanced Fuel Cells (AFC TCP) is to make a significant contribution to addressing the opportunities and barriers to the commercialisation of fuel cells by promoting the development of fuel cell technologies and their applications at the international level. In detail, Annex 34 deals with the advantages and disadvantages of fuel cells, the further development of storage media, the recording of cost reduction potentials and the results analysis of pilot projects for mobile applications.

Internationale Energieagentur (IEA)

IEA AFC Annex 35: Fuel cells for portable applications (Working period 2017 - 2019)

The aim of Annex 35 is the information exchange on the status and new developments of portable fuel cell systems and comprises the development and manufacture of membrane electrode assemblies (MEAs) all the way through to system components such as electronic converters or gas supply units. In addition the setup and configuration of hybridized systems and the key topics of secure operation, codes and standards are of interest.

Internationale Energieagentur (IEA)

IEA AFC Annex 35: Fuel cells for portable applications (Working period 2020 - 2023)

The aim of Annex 35 is the information exchange on the status and new developments of portable fuel cell systems and comprises the development and manufacture of membrane electrode assemblies (MEAs) all the way through to system components such as electronic converters or gas supply units. In addition, the setup and configuration of hybridized systems and the key topics of secure operation, codes and standards are of interest.

Internationale Energieagentur (IEA)

IEA AFC Annex 35: Fuel cells für portable applications (Working period 2014 - 2017)

The aim of Annex 35 of Technology Collaboration Programm on Advanced Fuel Cells of the International Energy Agency (IEA) included information exchange on the status and new developments of portable fuel cell systems such as the direct ethanol fuel cell (DEFC) and the direct borohydride fuel cell (DBFC) and comprised the development and manufacture of membrane electrode assemblies (MEAs) all the way through to system components such as electronic converters or gas supply units.

Internationale Energieagentur (IEA)

IEA AFC: Technology Collaboration Programme on Advanced Fuel Cells (2014-2019)

In the AFC TCP, both technology-oriented R&D activities (polymer electrolyte membrane fuel cells, solid oxide fuel cells, electrolysers) as well as analysis to implement fuel cells in commercial applications (stationary and mobile applications) are carried-out. System investigations and modelling complement the activities of this TCP.

Internationale Energieagentur (IEA)

IEA TCP AFC Annex 33: Fuel Cells for Stationary Applications (Working period 2022 - 2024)

The task focus is on the analyses of decentralized hydrogen concepts in climate-neutral neighborhoods or renewable energy communities. Based on decentralized hydrogen energy concepts and in combination with electrolysers and hydrogen storage systems, stationary fuel cells will improve self-consumption rates of the renewable energy sources produced on site. Furthermore, the grid consumption of electrical energy will be reduced and the resilience of the energy system will be increased.