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A two-phase flow and transport model for the cathode of PEM fuel cells

โœ Scribed by Lixin You; Hongtan Liu

Book ID
108322714
Publisher
Elsevier Science
Year
2002
Tongue
English
Weight
415 KB
Volume
45
Category
Article
ISSN
0017-9310

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โœฆ Synopsis

A unified two-phase flow mixture model has been developed to describe the flow and transport in the cathode for PEM fuel cells. The boundary condition at the gas diffuser/catalyst layer interface couples the flow, transport, electrical potential and current density in the anode, cathode catalyst layer and membrane. Fuel cell performance predicted by this model is compared with experimental results and reasonable agreements are achieved. Typical two-phase flow distributions in the cathode gas diffuser and gas channel are presented. The main parameters influencing water transport across the membrane are also discussed. By studying the influences of water and thermal management on twophase flow, it is found that two-phase flow characteristics in the cathode depend on the current density, operating temperature, and cathode and anode humidification temperatures.

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