基于传热理论的热电能量转换系统集成分析
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国家自然科学基金项目(52202250, 51872133)


Heat Transfer Theory-Based Integrated Analysis of Thermoelectric Energy Conversion System
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This work is supported by National Natural Science Foundation of China (52202250, 51872133)

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    摘要:

    热电能量转换系统可实现热能和电能的直接转换。在一个完整的热电系统中,热电器件与冷热端换热器组成热阻网络,该热阻网络与冷热源之间的换热对系统性能具有决定性影响。该文从网络节点间的耦合传热关系出发,分析了外部换热对系统内部温度分布的影响,得到了实际热环境中热电系统输出性能的近似理论表达式。在此基础上,该文建立了外部换热条件与系统峰值输出功率的直接关系,并提出一套热电能量转换系统设计策略,可用于热电发电系统的快速设计。

    Abstract:

    A thermoelectric energy conversion system could realize a direct conversion between thermal and electrical energy. The thermoelectric module composes a thermal resistance network with the hot and cold side heat exchangers within an integrated thermoelectric system. The heat transfer between the network and the heat source/sink is critical to the system performance. In this paper, the effect of external heat transfer on the system internal temperature distribution is analyzed based on the coupled heat transfer relationship among different nodes in the thermal resistance network, and a set of analytical formulae of the system performance in practical thermal environments is derived. Furthermore, a direct relationship between the external heat transfer conditions and the peak output power of the system is uncovered, and a general strategy for quickly designing thermoelectric energy conversion systems is proposed.

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引文格式
朱康,刘玮书.基于传热理论的热电能量转换系统集成分析 [J].集成技术,2023,12(5):41-50

Citing format
ZHU Kang, LIU Weishu. Heat Transfer Theory-Based Integrated Analysis of Thermoelectric Energy Conversion System[J]. Journal of Integration Technology,2023,12(5):41-50

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  • 在线发布日期: 2023-09-22
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