A computational model is developed to represent the coupled behavior of elementary chemistry, electrochemistry, and transport in the vicinity of solid-oxide fuel cell three-phase boundaries. The model is applied to assist the development and evaluation of H 2 charge-transfer reaction mechanisms for Ni-yttria-stabilized zirconia (YSZ) anodes. Elementary chemistry and surface transport for the Ni and YSZ surfaces are derived from prior literature. Previously published patterned-anode experiments [J. Mizusaki, Solid State Ionics, 70/71, 52 (1994)] are used to evaluate alternative electrochemical charge-transfer mechanisms. The results show that a hydrogen-spillover mechanism can explain the Mizusaki polarization measurements over wide ranges of gas-phase composition with both anodic and cathodic biases. © 2009 The Electrochemical Society.
CITATION STYLE
Goodwin, D. G., Zhu, H., Colclasure, A. M., & Kee, R. J. (2009). Modeling Electrochemical Oxidation of Hydrogen on Ni–YSZ Pattern Anodes. Journal of The Electrochemical Society, 156(9), B1004. https://doi.org/10.1149/1.3148331
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