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dc.contributor.author
Babic, Ugljesa
dc.contributor.author
Suermann, Michel
dc.contributor.author
Büchi, Felix N.
dc.contributor.author
Gubler, Lorenz
dc.contributor.author
Schmidt, Thomas
dc.date.accessioned
2017-11-29T11:44:11Z
dc.date.available
2017-10-06T02:22:40Z
dc.date.available
2017-11-29T11:44:11Z
dc.date.issued
2017-02-25
dc.identifier.issn
0013-4651
dc.identifier.issn
1945-7111
dc.identifier.other
10.1149/2.1441704jes
en_US
dc.identifier.uri
http://hdl.handle.net/20.500.11850/190719
dc.identifier.doi
10.3929/ethz-b-000190719
dc.description.abstract
Although polymer electrolyte water electrolyzers (PEWEs) have been used in small-scale (kW to tens of kW range) applications for several decades, PEWE technology for hydrogen production in energy applications (power-to-gas, power-to-fuel, etc.) requires significant improvements in the technology to address the challenges associated with cost, performance and durability. Systems with power of hundreds of kW or even MWs, corresponding to hydrogen production rates of around 10 to 20 kg/h, have started to appear in the past 5 years. The thin (∼0.2 mm) polymer electrolyte in the PEWE with low ohmic resistance, compared to the alkaline cell with liquid electrolyte, allows operation at high current densities of 1–3 A/cm2 and high differential pressure. This article, after an introductory overview of the operating principles of PEWE and state-of-the-art, discusses the state of understanding of key phenomena determining and limiting performance, durability, and commercial readiness, identifies important ‘gaps’ in understanding and essential development needs to bring PEWE science & engineering forward to prosper in the energy market as one of its future backbone technologies. For this to be successful, science, engineering, and process development as well as business and market development need to go hand in hand.
en_US
dc.format
application/pdf
dc.language.iso
en
en_US
dc.publisher
The Electrochemical Society
en_US
dc.rights.uri
http://creativecommons.org/licenses/by/4.0/
dc.subject
Electrolyzer
en_US
dc.subject
Electrolyzer Degradation
en_US
dc.subject
Electrolyzer Transport Processes
en_US
dc.subject
Hydrogen economy
en_US
dc.subject
PEM Electrolysis
en_US
dc.subject
PEM Electyrolysis Critical Gaps
en_US
dc.subject
Proton Exchange Membrane
en_US
dc.subject
Water electrolysis
en_US
dc.title
Review-Identifying Critical Gaps for Polymer Electrolyte Water Electrolysis Development
en_US
dc.type
Journal Article
dc.rights.license
Creative Commons Attribution 4.0 International
ethz.journal.title
Journal of the Electrochemical Society
ethz.journal.volume
164
en_US
ethz.journal.issue
4
en_US
ethz.journal.abbreviated
J. Electrochem. Soc.
ethz.pages.start
F387
en_US
ethz.pages.end
F399
en_US
ethz.version.deposit
publishedVersion
en_US
ethz.identifier.wos
ethz.publication.place
Pennington, NJ
ethz.publication.status
published
en_US
ethz.leitzahl
ETH Zürich::00002 - ETH Zürich::00012 - Lehre und Forschung::00007 - Departemente::02020 - Dep. Chemie und Angewandte Biowiss. / Dep. of Chemistry and Applied Biosc.::02543 - Inst. f. Molekulare Physikalische Wiss. / Institute of Molecular Physical Science::03910 - Schmidt, Thomas J. / Schmidt, Thomas J.
ethz.leitzahl.certified
ETH Zürich::00002 - ETH Zürich::00012 - Lehre und Forschung::00007 - Departemente::02020 - Dep. Chemie und Angewandte Biowiss. / Dep. of Chemistry and Applied Biosc.::02543 - Inst. f. Molekulare Physikalische Wiss. / Institute of Molecular Physical Science::03910 - Schmidt, Thomas J. / Schmidt, Thomas J.
ethz.date.deposited
2017-10-06T02:22:43Z
ethz.source
WOS
ethz.eth
yes
en_US
ethz.availability
Open access
en_US
ethz.rosetta.installDate
2017-11-29T11:44:16Z
ethz.rosetta.lastUpdated
2024-02-02T03:18:54Z
ethz.rosetta.versionExported
true
ethz.COinS
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