Heat Transfer Characteristics of Microencapsulated Phase Change Material Slurry in a Minichannel with Nonuniform Heat Flux

Li Zilong; Wang Zhibin; Jia Lisi; Chen Ying; Mo Songping

doi:10.3969/j.issn.0253-4339.2023.06.100

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Heat Transfer Characteristics of Microencapsulated Phase Change Material Slurry in a Minichannel with Nonuniform Heat Flux

更新时间：2024-07-18

- Heat Transfer Characteristics of Microencapsulated Phase Change Material Slurry in a Minichannel with Nonuniform Heat Flux
- Journal of Refrigeration Vol. 44, Issue 6, (2023)
- 作者机构：
  
  广东工业大学材料与能源学院广东省功能软凝聚态物质重点实验室
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2023.06.100
  CLC：
- Published：2023，
- 稿件说明：
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LI ZILONG, WANG ZHIBIN, JIA LISI, et al. Heat Transfer Characteristics of Microencapsulated Phase Change Material Slurry in a Minichannel with Nonuniform Heat Flux. [J]. Journal of refrigeration, 2023, 44(6).
DOI：

LI ZILONG, WANG ZHIBIN, JIA LISI, et al. Heat Transfer Characteristics of Microencapsulated Phase Change Material Slurry in a Minichannel with Nonuniform Heat Flux. [J]. Journal of refrigeration, 2023, 44(6). DOI： 10.3969/j.issn.0253-4339.2023.06.100.

摘要

相变微胶囊悬浮液（MEPCMS）作为一种新型功能性热流体，在热管理、储能等诸多领域极具发展潜力。本文采用离散相模型（DPM）研究非均匀热流下细小水平矩形通道内MEPCMS的传热特性。结果表明：悬浮液中颗粒相变能够强化传热，在热流密度分布为9-5-5 W/cm2、进口流速为0.40 m/s、质量分数为10%时，悬浮液最高能够使壁面和流体温升分别降低8.79%和15.14%。热泳作用使得颗粒在流动过程中会往低温区域迁移。与均匀热流条件相比，局部热流的分布会影响该区域及后边区域的传热特性。随着进口流速和质量分数提高，流体对壁面的冷却效果得到提高，同时进出口压降也有所增加。

Abstract

As a new functional thermal fluid

microencapsulated phase change material slurry (MEPCMS) has development potential in thermal management and other fields. In this study

the discrete phase model (DPM) was used to investigate the heat transfer characteristics of MEPCMS in a horizontal rectangular minichannel under nonuniform heat flux conditions. The results show that the heat transfer can be enhanced by the phase change of particles in the slurry

and the slurry can reduce the wall temperature rise by 8.79% and the fluid temperature rise by 15.14% at a heat flux distribution of 9–5–5 W/cm2

inlet velocity of 0.40 m/s

and mass fraction of 10%. Thermophoretic force causes the particles to migrate to the low-temperature region during the flow. Compared with the uniform heat flux condition

the region and magnitude of the local heat flux affect the heat transfer characteristics in this and later regions. As the inlet velocity and particle mass fraction increase

the cooling effect of the fluid on the wall improves. However

the pressure drop also increases owing to the influence of the streamwise resistance and two-phase interaction.

关键词

相变微胶囊悬浮液离散相模型非均匀热流强化传热

Keywords

microencapsulated phase change material slurrydiscrete phase modelnon-uniform heat fluxheat transfer enhance

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