Using a Quasi-Potential Transformation for Modeling Diffusion Media in Polymer-Electrolyte Fuel Cells

Date Published
07/2009
Publication Type
Journal Article
Authors
DOI
10.1137/08071973X
Abstract

In this paper, a quasi-potential approach along with conformal mapping is used to model the diffusion media of a polymer-electrolyte fuel cell. This method provides a series solution that is grid independent and only requires integration along a single boundary to solve the problem. The approach accounts for nonisothermal phenomena, two-phase flow, correct placement of the electronic potential boundary condition, and multilayer media. The method is applied to a cathode diffusion medium to explore the interplay between water and thermal management and performance, the impact of the rib-to-channel ratio, and the existence of diffusion under the rib and flooding phenomena.

Journal
SIAM Journal on Applied Mathematics
Volume
70
Year of Publication
2009
Issue
2
Pagination
488 - 509
ISSN Number
0036-1399
Short Title
SIAM J. Appl. Math.
Organizations
Research Areas
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