Water electrolysis technologies rely on catalysts such as Ir, Pt, Ni, La, Zr and Yt with limited resources. To meet engineering and economic targets related to ambitious industrial scale-up at MW and GW level as well as net-zero CO2 emissions by 2050, highly performing H2 and O2 gas diffusion electrodes designed with low-loading catalyst layers (CLs) and stable porous transport layers (PTLs) are urgently needed.
The scope of this seminar is to provide the attendees relevant insights into state-of-the-art, innovative concepts and remaining challenges regarding electrode architecture for alkaline (AWE/AMWE), acidic (PEMWE) and high-temperature (HTWE) technologies from both academia and industry perspective.
Welcome & Introduction
PEMWE
AWE/AMWE
Andre Klinger (Siemens Energy, Stuttgart)
Structure property-relationships of membrane and electrodes in industrial AEM water electrolysis
HTWE
Simulation
Florian Kuschel (ZBT, Duisburg)
Data-driven machine learning for electrolysis: from component degradation to lifetime prediction
Olivier Bucheli | ADELE, Lyon (FR) |
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Dr. Jean-F. Drillet | DECHEMA-Forschungsinstitut, Frankfurt (DE) |
Andre Klinger | Siemens Energy, Stuttgart (DE) |
Florian Kuschel | ZBT, Duisburg (DE) |
Aline Leon | EIFER, Kalsruhe (DE) |
Jan Pieter Ouweltjes |
SolidEra, Mezzolombardo (IT) |
Franziska WilfingerM |
TU München (DE) |
incl. digital course documentation and certificate of participation
595,-- € | |
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565,-- € | frequent bookers (at least 5 participants from the same company) |
295,-- € | students/doctoral candidates (depending on availability, student card required as proof) |
Image source: McPhy Energy S.A., Grenoble (France)