DC Field
Value
Language
dc.contributor.author
Marius, Bernhard
-
dc.contributor.author
Hacker, Viktor
-
dc.contributor.editor
Jordan, Christian
-
dc.date.accessioned
2021-01-15T09:53:02Z
-
dc.date.available
2021-01-15T09:53:02Z
-
dc.date.issued
2020-12
-
dc.identifier.citation
<div class="csl-bib-body"> <div class="csl-entry">Marius, B., &#38; Hacker, V. (2020). Evaluation of Transient Voltage Behaviour During Load Changes in Automotive PEM Fuel Cells. In C. Jordan (Ed.), <i>Proceedings of the 16th Minisymposium Verfahrenstechnik and 7th Partikelforum (TU Wien, Sept. 21/22, 2020)</i> (pp. DiP3-(04) page 1-DiP3-(04) page 3). chemical-engineering.at. https://doi.org/10.34726/612</div> </div>
-
dc.identifier.uri
http://hdl.handle.net/20.500.12708/16669
-
dc.identifier.uri
https://doi.org/10.34726/612
-
dc.description.abstract
Polymer electrolyte fuel cells reach high efficiency and zero emissions even under highly dynamic loads. Power fluctuations, sudden load changes, start up and shut down procedures cause locally very high as well as very low voltages. These undesired voltage levels accelerate the degradation of the cells in terms of carbon corrosion, platinum oxidation and membrane decomposition. Experiments with single cells are capable to indicate, which conditions are most harmful to the cell. The voltage response during load steps shows characteristic under- and overshoots. The amount of these over- and undershoots are directly correlated to the amount of the extend of the load change. The shape and the relaxation time of the voltage curve are dependent on the operation conditions of the cell in terms of humidity, pressure and stoichiometry.
en
dc.language.iso
en
-
dc.rights.uri
http://creativecommons.org/licenses/by/4.0/
-
dc.subject
polymer electrolyte fuel cell
en
dc.subject
segmented cell
en
dc.subject
voltage response
en
dc.subject
transient behaviour
en
dc.subject
automotive application
en
dc.title
Evaluation of Transient Voltage Behaviour During Load Changes in Automotive PEM Fuel Cells
en
dc.type
Inproceedings
en
dc.type
Konferenzbeitrag
de
dc.rights.license
Creative Commons Namensnennung 4.0 International
de
dc.rights.license
Creative Commons Attribution 4.0 International
en
dc.identifier.doi
10.34726/612
-
dc.contributor.affiliation
Graz University of Technology, Austria
-
dc.contributor.affiliation
Graz University of Technology, Austria
-
dc.relation.isbn
978-3-903337-01-5
-
dc.relation.doi
10.34726/541
-
dc.description.startpage
DiP3-(04) page 1
-
dc.description.endpage
DiP3-(04) page 3
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dcterms.dateSubmitted
2020-03-03
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dc.type.category
Full-Paper Contribution
-
tuw.booktitle
Proceedings of the 16th Minisymposium Verfahrenstechnik and 7th Partikelforum (TU Wien, Sept. 21/22, 2020)
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tuw.relation.ispartof
10.34726/541
-
tuw.relation.publisher
chemical-engineering.at
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tuw.relation.publisherplace
Wien
-
tuw.version
vor
-
tuw.linking
http://www.chemical-engineering.at/minisymposium/proc/2020/DiP3_04.pdf
-
tuw.publication.orgunit
E166-02-2 - Forschungsgruppe Fluiddynamische Simulation (CFD)
-
dc.identifier.libraryid
AC17205070
-
dc.description.numberOfPages
3
-
dc.rights.identifier
CC BY 4.0
de
dc.rights.identifier
CC BY 4.0
en
tuw.editor.orcid
0000-0002-9661-0959
-
dc.description.sponsorshipexternal
FFG - Austrian Research Promotion Agency
-
item.openairetype
conference paper
-
item.languageiso639-1
en
-
item.cerifentitytype
Publications
-
item.mimetype
application/pdf
-
item.fulltext
with Fulltext
-
item.openaccessfulltext
Open Access
-
item.grantfulltext
open
-
item.openairecristype
http://purl.org/coar/resource_type/c_5794
-
crisitem.author.dept
Graz University of Technology
-
crisitem.author.dept
Graz University of Technology
-
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