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Mathematical modeling of polymer electrolyte fuel cells

Type of Publication
Year of Publication
2005
Authors

R. Sousa; E.R. Gonzalez

Abstract

Fuel cells with a polymer electrolyte membrane have been receiving more and more attention. Modeling plays an important role in the development of fuel cells. In this paper, the state-of-the-art regarding modeling of fuel cells with a polymer electrolyte membrane is reviewed. Modeling has allowed detailed studies concerning the development of these cells, e.g. in discussing the electrocatalysis of the reactions and the design of water-management schemes to cope with membrane dehydration. Two-dimensional models have been used to represent reality, but three-dimensional models can cope with some important additional aspects. Consideration of two-phase transport in the air cathode of a proton exchange membrane fuel cell seems to be very appropriate. Most fuel cells use hydrogen as a fuel. Besides safety concerns, there are problems associated with production, storage and distribution of this fuel. Methanol, as a liquid fuel, can be the solution to these problems and direct methanol fuel cells (DMFCs) are attractive for several applications. Mass transport is a factor that may limit the performance of the cell. Adsorption steps may be coupled to Tafel kinetics to describe methanol oxidation and methanol crossover must also be taken into account. Extending the two-phase approach to the DMFC modeling is a recent, important point. (c) 2005 Elsevier B.V. All rights reserved.

DOI

10.1016/j.jpowsour.2005.03.191

Volume

147

Notes

Times Cited: 46 Gonzalez, Ernesto /C-9422-2012; de Sousa Junior, Ruy/L-3898-2014 46

Pagination

32-45

Number
2
ISSN Number

0378-7753

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