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首页> 外文会议>5th International Symposium on Carbonate Fuel Cell Technology, 5th, Oct 18-19, 1999, Honolulu, HL >THE EVALUATION FOR ADVANCED IHI MCFC COMPONENTS
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THE EVALUATION FOR ADVANCED IHI MCFC COMPONENTS

机译:先进IHI MCFC组件的评估

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摘要

We have extended the life of Molten Carbonate Fuel Cells (MCFC) by investigations of the effects of the properties of cell components. Li/Na carbonate is expected to be the candidates for the advanced electrolyte in view of the long life and high performance of MCFC. After long term operation of cells with the Li/Na carbonate, the degradation of cell components(cathodes, matrices and metal components) are analyzed. There were no detectable effects on the particle growth of LiAlO_2 in the matrices. The effects on the corrosion penetration, contact resistance increase by growing corrosion layer and the electrolyte losses of cathode current collectors were not remarkably detected, too. Furthermore, we have studied more stabilized electrolyte plate by new type of LiAlO_2 particles, and lower solubility cathodes in order to achieve long life endurance using Li/Na carbonate.
机译:通过研究电池组件特性的影响,我们延长了熔融碳酸盐燃料电池(MCFC)的寿命。考虑到MCFC的长寿命和高性能,Li / Na碳酸盐有望成为高级电解质的候选者。用碳酸锂/碳酸钠长期操作电池后,分析了电池组分(阴极,基质和金属组分)的降解情况。对基质中LiAlO_2的颗粒生长没有可检测的影响。腐蚀层的增加对腐蚀渗透,接触电阻增加的影响以及阴极集电器的电解质损失也没有明显检测到。此外,我们已经研究了新型LiAlO_2颗粒对电解质板的稳定作用,并研究了溶解度较低的阴极,以便使用碳酸锂/碳酸钠实现长寿命。

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