Summary
Green hydrogen is one of the most promising solutions for the decarbonisation of society. Alkaline water electrolysis (AWE) is already a mature technology but its large footprint makes it inadequate for producing the energy vector at GW scale. Proton exchange membrane water electrolysis (PEMWE) on the other hand is compact but its dependence on iridium and other expensive materials poses a serious threat for up-scaling. Anion exchange membrane water electrolysis (AEMWE) combines the benefits of both technologies. However, its key performance indicators (KPI) do not reach commercial requirements and are lacking competitiveness. NEWELY project aims to redefine AEMWE, surpassing the current state of AWE and bringing it one step closer to PEMWE in terms of efficiency but at lower cost. The three main technical challenges of AEMWE: membrane, electrodes and stack are addressed by 3 small-medium-enterprises (SME) with their successful markets related to each of these topics. They are supported by a group of 7 renowned R&D centres with high expertise in polymer chemistry and low temperature electrolysis. The SMEs and one of the largest hydrogen companies in the world will oversee that the new developments have a clear commercial perspective, placing Europe at the lead of AEMWE technology in three years. In this period , the NEWELY consortium will develop a prototypic 5-cell stack with elevated hydrogen output pressure. It will contain highly conductive and stable anionic membranes as well as efficient and durable low-cost electrodes. It will reach twice the performance of the state of the art of AEMWE operating with pure water feedstock only. The targeted performance of the NEWELY prototype will be validated in a 2,000 hours endurance test. The new AEMWE stack will lead to a significant cost reduction of water electrolysis having a relevant impact in the cost of green hydrogen.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/875118 |
| Start date: | 01-01-2020 |
| End date: | 30-06-2023 |
| Total budget - Public funding: | 2 597 413,00 Euro - 2 204 846,00 Euro |
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Original description
Green hydrogen is one of the most promising solutions for the decarbonisation of society. Alkaline water electrolysis (AWE) is already a mature technology but its large footprint makes it inadequate for producing the energy vector at GW scale. Proton exchange membrane water electrolysis (PEMWE) on the other hand is compact but its dependence on iridium and other expensive materials poses a serious threat for up-scaling. Anion exchange membrane water electrolysis (AEMWE) combines the benefits of both technologies. However, its key performance indicators (KPI) do not reach commercial requirements and are lacking competitiveness. NEWELY project aims to redefine AEMWE, surpassing the current state of AWE and bringing it one step closer to PEMWE in terms of efficiency but at lower cost. The three main technical challenges of AEMWE: membrane, electrodes and stack are addressed by 3 small-medium-enterprises (SME) with their successful markets related to each of these topics. They are supported by a group of 7 renowned R&D centres with high expertise in polymer chemistry and low temperature electrolysis. The SMEs and one of the largest hydrogen companies in the world will oversee that the new developments have a clear commercial perspective, placing Europe at the lead of AEMWE technology in three years. In this period , the NEWELY consortium will develop a prototypic 5-cell stack with elevated hydrogen output pressure. It will contain highly conductive and stable anionic membranes as well as efficient and durable low-cost electrodes. It will reach twice the performance of the state of the art of AEMWE operating with pure water feedstock only. The targeted performance of the NEWELY prototype will be validated in a 2,000 hours endurance test. The new AEMWE stack will lead to a significant cost reduction of water electrolysis having a relevant impact in the cost of green hydrogen.Status
CLOSEDCall topic
FCH-02-4-2019Update Date
26-10-2022
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H2020-EU.3.3.8.2. Increase the energy efficiency of production of hydrogen mainly from water electrolysis and renewable sources while reducing operating and capital costs, so that the combined system of the hydrogen production and the conversion using the fuel cell system can compete with the alternatives for electricity production available on the market
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Organisations
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| DEUTSCHES ZENTRUM FUR LUFT - UND RAUMFAHRT EV (Coördinator)
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| AIR LIQUIDE FORSCHUNG UND ENTWICKLUNG GMBH
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| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA)
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| CUTTING-EDGE NANOMATERIALS CENMAT UG HAFTUNGSBESCHRANKT
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| FONDAZIONE BRUNO KESSLER
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| Korea Institute of Science and Technology
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| L AIR LIQUIDE SA
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| MEMBRASENZ SARL
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| PROPULS GMBH
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| USTAV MAKROMOLEKULARNI CHEMIE AV CRVVI
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| VYSOKA SKOLA CHEMICKO-TECHNOLOGICKA V PRAZE
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| WESTFALISCHE HOCHSCHULE GELSENKIRCHEN, BOCHOLT, RECKLINGHAUSEN