Efficiency analysis and operating condition optimization of solid oxide electrolysis system coupled with different external heat sources

Cui Tonghui; Jianzhong Zhu; Lyu ZeweiHan MinfangSun KaihuaLiu YangNi Meng

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Efficiency analysis and operating condition optimization of solid oxide electrolysis system coupled with different external heat sources

机译：Efficiency analysis and operating condition optimization of solid oxide electrolysis system coupled with different external heat sources

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摘要

Coupling external heat sources effectively reduces energy consumption and improves the efficiency of the solid oxide electrolysis (SOEC) system. While an in-depth analysis of the SOEC systems in different coupling scenarios is still needed. According to the internal heat demand and the temperature of external heat sources, three coupling scenarios are defined in this study, i.e., no heat source coupling (Scenario 1), coupled low-temperature heat source (Scenario 2), and coupled high-temperature heat source (Scenario 3). Firstly, the influence of critical parameters on system efficiency is analyzed from two perspectives, including specific system loss and specific energy consumption. The results present that efficiency eta 1 mainly increases with the rise of steam utilization. Efficiency eta 2 is not significantly affected by the parameters and is primarily positively correlated with the fuel electrode steam concentration. Efficiency eta 3 is negatively related to steam utilization, fuel electrode steam concentration, and fuel electrode flow rate, while positively to stack operating temperature. Meanwhile, for Scenarios 1 and 2, the exothermic state of the stack module should be avoided. Furthermore, the system performance maps and stack operating windows in the three scenarios are obtained by changing multiple operating parameters simultaneously and setting constraints. For Scenarios 1 and 2, high system efficiency, high hydrogen production, and long lifetime cannot be achieved simultaneously, so operating parameters need to be selected at a compromise. For scenario 3, high fuel electrode flow rate and low steam utilization can basically meet the above requirements. Both high stack operating temperature and high fuel electrode steam concentration can improve hydrogen production, while the former is mainly beneficial to efficiency eta 3, and the latter can improve the three efficiencies. The results obtained can be used not only to choose the optimal working conditions of various external heat sources but also to guide the online control and load regulation during system operation.

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来源
《Energy conversion & management》 |2023年第3期|116727.1-116727.11|共11页
作者
Cui Tonghui; Jianzhong Zhu; Lyu ZeweiHan MinfangSun KaihuaLiu YangNi Meng;
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作者单位

Tsinghua Univ;

Tsinghua Univ||Univ Tokyo;

Xuzhou Huatsing Jingkun Energy Co LtdHong Kong Polytech Univ;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
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关键词
Solid oxide electrolysis; External heat sources; Efficiency analysis; System performance maps; Stack operating windows;

Efficiency analysis and operating condition optimization of solid oxide electrolysis system coupled with different external heat sources

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