Characterization of Anion Exchange Membrane Technology for Low Cost Electrolysis

Proton OnSite's line of commercial products based on proton exchange membrane (PEM) technology is competitive with delivered hydrogen in many industrial gas markets. Proton has demonstrated significant efficiency improvements and cost reductions over the past several years. Still, major advance...

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Published in:ECS transactions 2013-04, Vol.45 (23), p.121-130
Main Authors: Ayers, Katherine E., Anderson, Everett B., Capuano, Christopher B., Niedzwiecki, Michael, Hickner, Michael A., Wang, Chao-Yang, Leng, Yongjun, Zhao, Wei
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Language:English
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container_end_page 130
container_issue 23
container_start_page 121
container_title ECS transactions
container_volume 45
creator Ayers, Katherine E.
Anderson, Everett B.
Capuano, Christopher B.
Niedzwiecki, Michael
Hickner, Michael A.
Wang, Chao-Yang
Leng, Yongjun
Zhao, Wei
description Proton OnSite's line of commercial products based on proton exchange membrane (PEM) technology is competitive with delivered hydrogen in many industrial gas markets. Proton has demonstrated significant efficiency improvements and cost reductions over the past several years. Still, major advances are required in order to provide a cost-competitive hydrogen source for energy markets. Alkaline exchange membranes (AEMs) offer a potential long term pathway to lower cost electrolysis because they can operate at the high current density and high differential pressure of the PEM while using non-precious metal catalysts and base metal cell materials for low cost. Proton is currently performing on an ARPA-E project in collaboration with Penn State to develop an AEM-based regenerative fuel cell. This paper describes progress to date on the AEM electrolyzer being developed under this effort.
doi_str_mv 10.1149/04523.0121ecst
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title Characterization of Anion Exchange Membrane Technology for Low Cost Electrolysis
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