A COMPUTATIONAL ANALYSIS TO IDENTIFY THE CURRENT DENSITY CHARACTERISTICS OF A MICRO-TUBULAR SOLID OXIDE FUEL CELL

机译：确定微管固体氧化物燃料电池电流密度特性的计算分析

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A computational fluid dynamics model is developed to study the effects of operational parameters on the performance of a micro-tubular SOFC. Coupled partial differential equations for heat, momentum, species and charge balances are solved with a commercial software using finite element method. Effect of temperature on the power characteristics of the system is addressed. Current density distributions for different temperatures are compared with the inclusion of electronic leakage currents in the electrolyte. Current density profiles for different conditions are examined thoroughly and related to the transport properties.

机译：开发了计算流体动力学模型来研究操作参数对微管SOFC性能的影响。耦合的热，动量，种类和电荷平衡的偏微分方程是使用有限元方法的商业软件求解的。解决了温度对系统功率特性的影响。将不同温度下的电流密度分布与电解质中包含的电子泄漏电流进行比较。彻底检查了不同条件下的电流密度曲线，并与运输特性有关。

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《6th international conference on fuel cell science, engineering, and technology 2008 : Material and fabrication processes ; Cell, stack and system modeling ; Fuel processing and storage ...》|2008年|347-351|共5页
会议地点 Denver CO(US)
作者
Mustafa F. Serincan; Ugur Pasaogullari; Nigel M. Sammes;
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作者单位

University of Connecticut Storrs, CT, USA;

University of Connecticut Storrs, CT, USA;

Colorado School of Mines Golden, CO, USA;

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正文语种 eng
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机译：La _{0.8 sr _{0.2 ga _{0.8 mg _{0.2 O _{3-Δ - 支持具有双层和三层电解质的微管固体氧化物燃料电池}}}}}

A COMPUTATIONAL ANALYSIS TO IDENTIFY THE CURRENT DENSITY CHARACTERISTICS OF A MICRO-TUBULAR SOLID OXIDE FUEL CELL

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