Enhancing Latent Heat Energy Storage With Heat Pipe–Metal Foam: An Experimental Investigation of the Partial Filling Strategy

Energy Storage Pub Date : 2024-10-07 DOI:10.1002/est2.70052

A. Jaisatia Varthani, S. Shasthri, S. Baljit, V. Kausalyah

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Abstract

Melting and solidification of a phase change material (PCM) is investigated experimentally by applying a partial filling strategy to the hybrid enhancement of heat pipe–metal foam (HP-MF) in a vertical cylinder. HP-MF enhancement can improve the heat transfer capacity of the PCM system as it combines HP's efficient heat transfer capacity with MF's highly effective thermal conductivity capability. The experimental results demonstrate that the partial filling strategy in the melting and solidification of HP-MF PCM can be optimized for effective MF utilization in the HP-MF PCM system. A filling ratio of 83% of MF in HP-MF PCM shows almost identical total melting and solidification along with a temperature distribution to that of an HP-MF PCM (95% porosity, 20 pore density [PPI]). It is plausible to conclude that the removal of 33% or less mass had no significant effect on the overall melting process of HP-MF PCM. It should be noted that the HP-MF PCM system's HP heat transfer efficiency significantly decreased during the melting process when the MF filling ratio was 37.5% and 12.5%.

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利用热管-金属泡沫增强潜热储能：部分填充策略的实验研究

通过对垂直圆柱体中的热管-金属泡沫（HP-MF）混合增强应用部分填充策略，对相变材料（PCM）的熔化和凝固进行了实验研究。由于 HP-MF 增强技术结合了 HP 的高效传热能力和 MF 的高效导热能力，因此可以提高 PCM 系统的传热能力。实验结果表明，可以优化 HP-MF PCM 熔化和凝固过程中的部分填充策略，以便在 HP-MF PCM 系统中有效利用 MF。HP-MF PCM 中 83% 的 MF 填充率显示出与 HP-MF PCM（孔隙率 95%，孔密度 [PPI]20）几乎相同的总熔化和凝固过程以及温度分布。由此可以得出结论，去除 33% 或更少的质量对 HP-MF PCM 的整体熔化过程没有明显影响。值得注意的是，当 MF 填充率为 37.5% 和 12.5% 时，HP-MF PCM 系统的 HP 传热效率在熔化过程中明显降低。

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Energy Storage

CiteScore

2.90

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