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A Two-Phase Non-Isothermal PEFC Model: Theory and Validation

✍ Scribed by M. Noponen; E. Birgersson; J. Ihonen; M. Vynnycky; A. Lundblad; G. Lindbergh

Publisher
John Wiley and Sons
Year
2004
Tongue
English
Weight
855 KB
Volume
4
Category
Article
ISSN
1615-6846

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✦ Synopsis

Abstract

A two‐dimensional, non‐isothermal, two‐phase model of a polymer electrolyte fuel cell (PEFC) is presented. The model is developed for conditions where variations in the streamwise direction are negligible. In addition, experiments were conducted with a segmented cell comprised of net flow fields. The, experimentally obtained, current distributions were used to validate the PEFC model developed. The PEFC model includes species transport and the phase change of water, coupled with conservation of momentum and mass, in the porous backing of the cathode, and conservation of charge and heat throughout the fuel cell. The current density in the active layer at the cathode is modelled with an agglomerate model, and the contact resistance for heat transfer over the material boundaries is taken into account. Good agreement was obtained between the modelled and experimental polarization curves. A temperature difference of 6 °C between the bipolar plate and active layer on the cathode, and a liquid saturation of 6% at the active layer in the cathode were observed at 1 A cm^–2^.

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