Modeling Low-Platinum-Loading Effects in Fuel-Cell Catalyst Layers

Date Published
06/2011
Publication Type
Journal Article
Authors
DOI
10.1149/1.3597644
LBL Report Number
LBNL-5395E
Abstract

The cathode catalyst layer within a proton-exchange-membrane fuel cell is the most complex and critical, yet least understood, layer within the cell. The exact method and equations for modeling this layer are still being revised and will be discussed in this paper, including a 0.8 reaction order, existence of Pt oxide, possible non-isopotential agglomerates, and the impact of a film resistance towards oxygen transport. While the former assumptions are relatively straightforward to understand and implement, the latter film resistance is shown to cause increased mass-transport limitations with low Pt-loading catalyst layers. Model results demonstrate that the increased oxygen flux and/or diffusion pathway through the film can substantially decrease performance. Also, some scale-up concepts from the agglomerate scale to the more macroscopic porous-electrode scale are discussed and the resulting optimization scenarios investigated.

Notes

LBNL-5395E

Journal
Journal of The Electrochemical Society
Volume
158
Year of Publication
2011
Issue
8
Pagination
B1007-1018
Short Title
J. Electrochem. Soc.
Keywords
Organizations
Research Areas
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