Performance of Ni0.8?xCu0.2Mx (M = Fe and Co) alloy-based cermet anodes for intermediate-temperature solid oxide fuel cells fueled with syngas

Michihiro MIYAKE; Sadaki MATSUMOTO; Shunsuke NISHIMOTO; Yoshikazu KAMESHIMA

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Performance of Ni0.8?xCu0.2Mx (M = Fe and Co) alloy-based cermet anodes for intermediate-temperature solid oxide fuel cells fueled with syngas

机译：Ni0.8？xCu0.2Mx（M = Fe和Co）合金基金属陶瓷阳极在以合成气为燃料的中温固体氧化物燃料电池中的性能

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The performance of Ni-based trimetallic alloy cermet anodes, Ni_0.8? _x Cu_0.2M _x (M = Fe and Co; x = 0.1, 0.2, and 0.3)/Ce_0.8Sm_0.2O_1.9 (SDC), was investigated for intermediate-temperature (500–700°C) solid oxide fuel cells (IT-SOFCs), using humidified (3% H₂O) model syngas with a molar ratio of H₂/CO = 3/2 as the fuel. Though doping Fe or Co 10 mol % into the Ni_0.8Cu_0.2/SDC anode led the cell performance to the increase, the cell performance decreased as Fe or Co content increased further. On the one hand, doping Fe or Co into the Ni_0.8Cu_0.2/SDC anode further effectively inhibited carbon deposition owing to CO on the anode. Our results suggest that the Ni_0.7Cu_0.2Fe_0.1/SDC and Ni_0.7Cu_0.2Co_0.1/SDC anodes are more promising materials than Ni_0.8Cu_0.2/SDC anode for syngas fuel in IT-SOFCs.

机译：镍基三金属合金金属陶瓷阳极Ni _{0.8？ _{x Cu _{0.2 M _{x 的性能（M = Fe和Co; x = 0.1、0.2和0.3）/ Ce _{0.8 Sm _{0.2 O _{1.9 （SDC），温度（500-700°C）的固体氧化物燃料电池（IT-SOFC），使用摩尔比为H _{2 的加湿（3％H _{2 O）模型合成气/ CO = 3/2作为燃料。尽管在Ni _{0.8 Cu _{0.2 / SDC阳极中掺杂10 mol％的Fe或Co会使电池性能提高，但随着Fe或Co含量进一步增加，电池性能会降低。一方面，将Fe或Co掺杂到Ni _{0.8 Cu _{0.2 / SDC阳极中，可进一步有效地抑制由于CO在阳极上造成的碳沉积。我们的结果表明，Ni _{0.7 Cu _{0.2 Fe _{0.1 / SDC和Ni _{0.7 Cu _{0.2 < /sub>Co_0.1/SDC阳极是用于IT-SOFCs合成气燃料的比Ni _{0.8 Cu _{0.2 / SDC阳极更有希望的材料。}}}}}}}}}}}}}}}}}}}}

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《Journal of the Ceramic Society of Japan 》 |2017年第11期| 共4页
作者
Michihiro MIYAKE; Sadaki MATSUMOTO; Shunsuke NISHIMOTO; Yoshikazu KAMESHIMA;
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Performance of Ni0.8?xCu0.2Mx (M = Fe and Co) alloy-based cermet anodes for intermediate-temperature solid oxide fuel cells fueled with syngas

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