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Paper detail

Ni coarsening in the three-phase solid oxide fuel cell anode - a phase-field simulation study

Ni coarsening in Ni-yttria stabilized zirconia (YSZ) solid oxide fuel cell anodes is considered a major reason for anode degradation. We present a predictive, quantative modeling framework based on the phase-field approach to systematically examine coarsening kinetics in such anodes. The initial structures for simulations are experimentally acquired functional layers of anodes. Sample size effects and error analysis of contact angles are examined. Three phase boundary (TPB) lengths and Ni surface areas are quantatively identified on the basis of the active, dead-end, and isolated phase clusters throughout coarsening. Tortuosity evolution of the pores is also investigated. We find that phase clusters with larger characteristic length evolve slower than those with smaller length scales. As a result, coarsening has small positive effects on transport, and impacts less on the active Ni surface area than the total counter part. TPBs, however, are found to be sensitive to local morphological features and are only indirectly correlated to the evolution kinetics of the Ni phase.

preprint2012arXivOpen access
Hsun-Yi ChenHui-Chia YuJ. Scott CroninJames R. WilsonScott A. BarnettKatsuyo Thornton
cond-mat.mtrl-sciphysics.comp-ph
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Hsun-Yi ChenHui-Chia YuJ. Scott CroninJames R. WilsonScott A. BarnettKatsuyo Thornton

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