Computational Study of Performance Drop Phenomena Based on Sulfur Adsorption and Desorption Model in Planar-Type SOFCs

机译：基于硫吸附与解吸模型在平面型SOFC中的性能下降现象的计算研究

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For solid oxide fuel cell (SOFC) systems operating with practical fuels, it is important to simulate the distribution of sulfur poisoning and its dependence on the operating conditions in planar-type SOFCs. In this paper, by taking into account the sulfur poisoning effect and its distribution in planar-type SOFC simulation, numerical analysis is performed using anode exchange current density data and Temkin-like sulfur adsorption isotherm on Ni surface. From this numerical analysis, it is found that the distribution of current density after sulfur poisoning is changed, depending on operating temperature and fuel utilization.

机译：对于用实用燃料操作的固体氧化物燃料电池（SOFC）系统，重要的是模拟硫中毒的分布及其对平面式SOFC中的操作条件的依赖性。本文通过考虑到硫中毒效应及其在平面类型SOFC仿真中的分布，使用阳极交换电流密度数据和Temkin样硫吸附等温线在Ni表面上进行数值分析。根据该数值分析，根据工作温度和燃料利用，改变了硫中毒后电流密度的分布。

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《International Symposium on Solid Oxide Fuel Cells》|2013年||共8页
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Y. Tachikawa; T. Hosoi; T. Nishimura; Y. Shiratori; S. Taniguchi; K. Sasaki;
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中图分类独立电源技术（直接发电）;
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Computational Study of Performance Drop Phenomena Based on Sulfur Adsorption and Desorption Model in Planar-Type SOFCs

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