Mechanical Characterization of Electrolyzer Membranes and Components Under Compression
| Date Published |
09/02/2024
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|---|---|
| Publication Type | Journal Article
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| Authors | |
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| DOI |
10.1149/1945-7111/ad7a26
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| Abstract |
Proton-exchange membrane (PEM) water electrolysis is a promising technology for producing clean hydrogen by electrochemically splitting water when paired with renewable energy sources. A major roadblock to improving electrolyzer durability is the mechanical degradation of the cell components, which requires an understanding of their mechanical response under device-relevant conditions. However, there is a lack of studies on the mechanical characterization of the PEM and other components, as well as and their interactions. This study aims to address this gap by using a custom-designed testing apparatus to investigate the mechanics of electrolyzer components in uniaxial compression at 25 and 80 °C. Findings show stress-strain response of components have a varying degree of nonlinearity owing to their distinct deformation mechanisms and morphologies, from porous structures to polymers. These results are used to develop an expression for compressive stress-strain response of Nafion membranes and then analyze the deformation of components under applied pressure by using a 1-D spring network model of cell assembly. This work provides a new understanding of mechanical responses of the electrolyzer membrane and cell components, which can help assess material design and cell assembly strategies for improved electrolyzer durability. |
| Journal |
Journal of The Electrochemical Society
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| Volume |
171
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| Year of Publication |
2024
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| Issue |
9
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| Pagination |
094510
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| Publisher |
The Electrochemical Society
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| ISSN Number |
0013-4651, 1945-7111
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