FeCrO Nanoparticles as Anode Catalyst for Ethane Proton Conducting Fuel Cell Reactors to Coproduce Ethylene and Electricity

Advances in Physical Chemistry Pub Date : 2011-09-21 DOI:10.1155/2011/407480
Jian-Hui Li, Xianzhu Fu, Guihua Zhou, Jingli Luo, K. Chuang, A. R. Sanger
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引用次数: 9

Abstract

Ethylene and electrical power are cogenerated in fuel cell reactors with FeCr2O4 nanoparticles as anode catalyst, La0.7Sr0.3FeO3-𝛿 (LSF) as cathode material, and BaCe0.7Zr0.1Y0.2O3-𝛿 (BCZY) perovskite oxide as proton-conducting ceramic electrolyte. FeCr2O4, BCZY and LSF are synthesized by a sol-gel combustion method. The power density increases from 70 to 240 mW cm−2, and the ethylene yield increases from about 14.1% to 39.7% when the operating temperature of the proton-conducting fuel cell reactor increases from 650∘C to 750∘C. The FeCr2O4 anode catalyst exhibits better catalytic performance than nanosized Cr2O3 anode catalyst.
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FeCrO纳米颗粒作为乙烷质子传导燃料电池反应器的阳极催化剂共产乙烯和电
以FeCr2O4纳米颗粒为负极催化剂,La0.7Sr0.3FeO3-𝛿(LSF)为正极材料,BaCe0.7Zr0.1Y0.2O3-𝛿(BCZY)钙钛矿氧化物为质子导电陶瓷电解质,在燃料电池反应器中热电联产乙烯。采用溶胶-凝胶燃烧法合成了FeCr2O4、BCZY和LSF。当质子导电燃料电池反应堆的工作温度从650°C增加到750°C时,功率密度从70 mW cm−2增加到240 mW cm−2,乙烯产率从约14.1%增加到39.7%。FeCr2O4阳极催化剂的催化性能优于纳米级Cr2O3阳极催化剂。
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Advances in Physical Chemistry
Advances in Physical Chemistry
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