Elementary Reaction Models for CO Electrochemical Oxidation on an Ni/YSZ Patterned Anode

Author(s)

Shi, Yixiang; Lee, Won yong; Ghoniem, Ahmed F

Abstract

Analysis of recent experimental impedance spectra and polarization curves of nickel/yttria-stabilized zirconia (Ni/YSZ) patterned anode of a solid oxide fuel cell (SOFC) are used to determine the limiting steps in CO electrochemical oxidation kinetics. A comprehensive 1D model is proposed for the prediction of the steady-state polarization curve of a patterned anode SOFC. The model incorporates gas species adsorption/desorption with surface diffusion and one of two possible charge transfer reaction steps: O charge transfer reaction [O 2-(YSZ)+(Ni)→(YSZ)+O(Ni)+2e-], or CO charge transfer reaction [O2-(YSZ)+CO(Ni)→(YSZ)+CO2(Ni)+2e -]. We show that the mechanism incorporating charge transfer between adsorbed CO and oxygen vacancy is able to better predict the experimental data. We estimate some of the model parameters, such as the exchange current density and charge transfer coefficient by fitting the simulation of the polarization curves to the experimental data.

Date issued

2010-06

URI

http://hdl.handle.net/1721.1/119260

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

ASME 2010 8th International Fuel Cell Science, Engineering and Technology Conference: Volume 2

Publisher

ASME International

Citation

Shi, Yixiang, et al. “Elementary Reaction Models for CO Electrochemical Oxidation on an Ni/YSZ Patterned Anode.” ASME 2010 8th International Fuel Cell Science, Engineering and Technology Conference: Volume 2, 14-16 June, 2010, Brooklyn, New York, ASME, 2010, pp. 159–66. © 2010 by ASME

Version: Final published version

ISBN

978-0-7918-4405-2