热管耦合相变储能系统传热特性的研究与优化

Renping Zhang, Zuxiang Zhou
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引用次数: 0

摘要

热管耦合潜热热能储存(LHTES)具有热传导、等温和温度均匀等优点,是一种常用的改进热能储存的技术。在热管中添加翅片可以提高储能效率和系统性能。虽然之前的研究已经探讨了热管布局对 LHTES 的影响,但关于优化翅片几何形状以提高传热效果的研究仍然十分匮乏。在这项工作中,我们使用 ANSYS Fluent 模拟了翅片布置对基于相变材料 (PCM) 的 LHTES 系统加热能力的影响。通过对传热机制的深入分析,为了加快 PCM 的凝固过程,我们调整了翅片的长度和间距。优化模型大大缩短了 LHTES 系统的整体凝固时间,从 18800 秒缩短到 8500 秒,热传导效率提高了 54.79%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research and optimization of heat transfer characteristics of heat pipe-coupled phase change energy storage system
Heat pipe coupled Latent Heat Thermal Energy Storage (LHTES) is a commonly used technique for improving heat storage, due to its advantages such as heat conduction, isothermal, and uniform temperature. Adding fins to the heat pipe can enhance energy storage efficiency and system performance. Although previous research has looked into how heat pipe layouts affect LHTES, there is still a dearth of research on fin geometry optimization for boosted heat transfer. In this work, we used ANSYS Fluent to simulate the consequence of fin placement upon the heating capacity of a Phase Change Material (PCM) based LHTES system. Through an in-depth analysis of the heat transfer mechanisms, in an effort to quicken the PCM’s solidification process, we adjusted the fins’ length and spacing. The LHTES system’s overall solidification time was greatly shortened by the optimized model, going from 18800 seconds to 8500 seconds, achieving a 54.79% enhancement in thermal transfer efficiency.
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