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高孔密度下泡沫铜的填充率对石蜡融化传热机理的影响
引用本文:朱孟帅,王子龙,孙向昕,周翔. 高孔密度下泡沫铜的填充率对石蜡融化传热机理的影响[J]. 化工进展, 2022, 41(6): 3203-3211. DOI: 10.16085/j.issn.1000-6613.2021-1412
作者姓名:朱孟帅  王子龙  孙向昕  周翔
作者单位:上海理工大学能源与动力工程学院,上海市动力工程多相流动与传热重点实验室,上海200093;同济大学机械与能源工程学院,上海201804
基金项目:国家自然科学基金面上项目(51876130);;上海市自然科学基金(20ZR1438600);;上海市浦江人才计划(18PJ1408900);
摘    要:基于石蜡和高孔密度的泡沫铜制备了复合相变蓄热材料,设计并搭建了一套可视化蓄热实验装置,分析了高孔密度下泡沫铜填充率对石蜡相变过程的强化传热机理,得到了复合相变蓄热材料的综合传热系数。实验结果表明,当泡沫铜填充率为0、0.43%、1.29%和2.15%时,复合相变材料的综合传热系数先减小后增大,分别为1.26W/(m·K)、1.18W/(m·K)、1.44W/(m·K)和1.88W/(m·K),因此随着泡沫铜填充率的增加,复合相变材料的融化时间先增长后缩短。此外,随着泡沫铜填充率从0.43%增至2.15%,复合相变材料融化时传热机制中导热占比从17.26%上升到86.01%,自然对流占比从82.74%下降到13.99%。

关 键 词:相变蓄热  泡沫金属  相变材料  对流换热强度  综合传热系数
收稿时间:2021-07-05

Experimental research on effect of copper metal foam proportion on paraffin wax melting and heat transfer mechanism under high cell density
ZHU Mengshuai,WANG Zilong,SUN Xiangxin,ZHOU Xiang. Experimental research on effect of copper metal foam proportion on paraffin wax melting and heat transfer mechanism under high cell density[J]. Chemical Industry and Engineering Progress, 2022, 41(6): 3203-3211. DOI: 10.16085/j.issn.1000-6613.2021-1412
Authors:ZHU Mengshuai  WANG Zilong  SUN Xiangxin  ZHOU Xiang
Affiliation:1.Shanghai Key Laboratory of Multiphase Flow and Heat Transfer in Power Engineering, School of Energy and Power Engineering, University of Shanghai for Sciences and Technology, Shanghai 200093, China
2.School of Mechanical and Energy Engineering, Tongji University, Shanghai 201804, China
Abstract:Using paraffin wax and copper metal foam, copper metal foam composite phase change materials were prepared in this study. The effect of the copper metal foam proportion on heat transfer enhancement in the melting process of PCMs was analyzed using visualization heat storage experimental equipment. The integrated heat transfer coefficient of the copper metal foam composite PCMs was obtained. The experimental results showed that when the copper metal foam proportion was 0, 0.43%, 1.29% and 2.15%, the integrated heat transfer coefficient of the composite phase change material first decreased and then increased, which was 1.26W/(m·K), 1.18W/(m·K), 1.44W/(m·K) and 1.88W/(m·K), respectively. Thus, with the increase of copper metal foam proportion, the melting time of composite phase change materials increased first and then decreased. In addition, as the proportion of copper metal foam increased from 0.43% to 2.15%, the proportion of heat conduction in the heat transfer mechanism rose from 17.26% to 86.01% and the proportion of natural convection dropped from 82.74% to 13.99%.
Keywords:phase change heat storage  copper metal foam  phase change materials  natural convection intensity  integrated heat transfer coefficient  
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