System Validation Tests for an SOFC Power System at INER

Shih-Kun Lo, W. Hong, Hsueh-I Tan, Hua Ting, Ting-Wei Liu, Ruey‐yi Lee
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Abstract

This research presents the results of system validation tests for an SOFC power system. In the study, the system was heated up without electric device, i.e., the fuel providing the required thermal energy through an integrated BOP (balance of plant). The ex-situ experiments, without an SOFC stack installed in the system, were first conducted to investigate the operability of a BOP apparatus. It was found that the BOP possessed high conversion rates for both steam reforming and water gas shift reactions. The total fuel concentration of hydrogen and carbon monoxide from the reformer was around 91.2%. The system validation tests showed that, with the natural gas as fuel, the output power from the stack reached to 1,060 W, while the fuel utilization efficiency and electrical efficiency were 67.16% and 45.0%, respectively. A steady 600-hour system operation test was carried out at an average system temperature of 694 C. Of which, a 36-cell stack was employed for the test. Meanwhile, the current, voltage and output power were 26 A, 32.3 V and 840 W, respectively, and its electrical efficiency was around 33.4%.
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INER SOFC电力系统的系统验证测试
本文介绍了SOFC电源系统的系统验证测试结果。在本研究中,系统在没有电气装置的情况下进行加热,即燃料通过集成的BOP(工厂平衡器)提供所需的热能。在系统中没有安装SOFC堆栈的情况下,首先进行了非原位实验,以研究防喷器设备的可操作性。结果表明,该防喷器在蒸汽重整和水煤气转移反应中均具有较高的转化率。重整器中氢气和一氧化碳的总燃料浓度约为91.2%。系统验证试验表明,以天然气为燃料时,烟台输出功率达到1060 W,燃料利用效率和电效率分别为67.16%和45.0%。在平均系统温度为694℃的条件下,进行了600小时的稳定系统运行测试,其中使用了36个电池堆叠进行测试。同时,电流为26 A,电压为32.3 V,输出功率为840 W,电效率约为33.4%。
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