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阴极支撑型固体氧化物燃料电池的制备与测试
引用本文:鲍晓囡,张广君,王绍荣. 阴极支撑型固体氧化物燃料电池的制备与测试[J]. 电化学, 2020, 26(2): 190-197. DOI: 10.13208/j.electrochem.191149
作者姓名:鲍晓囡  张广君  王绍荣
作者单位:中国矿业大学化工学院,江苏 徐州 221116
基金项目:国家自然科学基金项目(No. 51836004);徐州市项目(KH17004)
摘    要:采用固相反应法合成A缺位的(La0.8Sr0.2)0.95MnO3(LSM95)作为阴极材料,Zr0.9Sc0.1SO1.95(SSZ)商业粉体作为电解质材料,溶胶-凝胶法合成的La0.8Sr0.2Cr0.5Mn0.5O3-(LSCrM)作为阳极电催化材料,利用流延、共烧结及浸渍法得到结构为LSCr M-CeO2|SSZ|3YSZ-LSM95的阴极支撑型固体氧化物燃料电池,分别在氢气气氛和甲烷气氛中进行电化学性能测试.结果表明,浸渍0.11 g·cm^-2CeO2的LSCrM-CeO2|SSZ|3YSZ-LSM95单电池在以CH4为燃料时,600、650、700、750和800℃下的功率密度分别为1.68、4.70、12.40、28.08和54.78 m W·cm^-2,表现出一定的电化学性能和较好的稳定性.

关 键 词:SOFC  阴极支撑  共流延  浸渍  抗积碳
收稿时间:2020-02-04

Preparation and Characterization of Cathode Supported Solid Oxide Fuel Cell
BAO Xiao-nan,ZHANG Guang-jun,WANG Shao-rong. Preparation and Characterization of Cathode Supported Solid Oxide Fuel Cell[J]. Electrochemistry, 2020, 26(2): 190-197. DOI: 10.13208/j.electrochem.191149
Authors:BAO Xiao-nan  ZHANG Guang-jun  WANG Shao-rong
Affiliation:(School of Chemical Engineering and Technology,China University of Mining and Technology,Jiangsu 221116,Xuzhou,China)
Abstract:A site deficient (La0.8Sr0.2)0.95MnO3 (LSM95) powder was synthesized by solid state reaction as a cathode material. The commercial Zr0.9Sc0.1SO1.95 (SSZ) was selected as an electrolyte material and La0.8Sr0.2Cr0.5Mn0.5O3- (LSCrM) was synthesized by sol-gel method as an anode material. Accordingly, single cells of LSCrM-CeO2|SSZ|3YSZ-LSM95 were prepared by tape casting, sintering and impregnation. The single cell test results for LSCrM-CeO2|SSZ|3YSZ-LSM95 with 0.11 g·cm -2 CeO2 and using CH4 as a fuel showed the power densities of 1.68, 4.70, 12.4, 28.08 and 54.78 mW·cm -2 at 600, 650, 700, 750 and 800 oC, respectively. Durability test at the current density of 46.50 mA·cm -2 for over 130 h revealed that the cell degradation was owing to the decrease of open circuit voltage. The impregnated anode had good stability in performance. No carbon deposition was observed on the anode after the cell operation with CH4. The as-synthesized LSM95 powder exhibited good chemical compatibility with zirconia electrolyte, making it possible to prepare cathode supported cells with co-sintering. Meanwhile, LSCrM could form the perovskite phase at 900 oC and obtain the similar thermal expansion coefficient to the cathode support and electrolyte, which is contributed to the stability of multi-layer structure in the cell. The successful preparation of the cathode supported cells with a simple method shall provide a good platform for the research of various new anode materials. With further optimization in the porosity of cathode support and introduction of more active cathode functional layer, the cell performance will be enhanced.
Keywords:SOFC  cathode support  tape casting  impregnation  carbon tolerance  
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