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Electricity generation in dry methane by a durable ceramic fuel cell with high-performing and coking-resistant layered perovskite anode

Hanping Ding, Desheng Zhou, Shun Liu, Wei Wu, Yating Yang, Yingchao Yang and Zetian Tao

Applied Energy, 2019, vol. 233-234, 37-43

Abstract: A novel A-site deficient ceramic oxide (PrBa)0.95(Fe0.9Nb0.1)2O5+δ with layered perovskite structure has been investigated as an anode material for a direct-hydrocarbon fueled solid oxide fuel cell. Promising performance of this anode is achieved by stabilizing the material with Nb doping at B sites, which shows excellent chemical stability and high catalytic activity in the reducing fuel condition. The button cell based on lanthanum gallate electrolyte exhibits peak power density of 1.05 W cm−2 in H2, 0.64 W cm−2 in CH4 (∼3% H2O) and 0.57 W cm−2 in dry CH4 at 800 °C, respectively. When the temperature is decreased to as low as 600 °C, the cell still reaches 0.18 W cm−2 in hydrogen. The anode is highly resistant against redox cycling with capability of rapid recovery from oxidizing condition. Based on a series of performance durability tests under various fuel conditions, this anode material has been demonstrated to be feasible for long-term operation in dry CH4 without observable degradation. The results demonstrate a new technical route to develop highly active and stable ceramic anode by doping high-valence rare-earth elements into B sites of perovskite material.

Keywords: Solid oxide fuel cells; Direct hydrocarbon; Anode material; Ceramic oxide; Layered perovskite (search for similar items in EconPapers)
Date: 2019
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DOI: 10.1016/j.apenergy.2018.10.013

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