Numerical simulation of the fluid flow and heat transfer characteristics of microchannel heat exchangers with different reentrant cavities

微通道 微型热交换器 压力降 板翅式换热器 材料科学 传热 板式换热器 传热系数 机械 热交换器 热力学 NTU法 热撒布器 动态刮削表面换热器 强化传热 散热片 对流换热 临界热流密度 物理 纳米技术
作者
Minqiang Pan,Hongqing Wang,Yujian Zhong,Tianyu Fang,Xineng Zhong
出处
期刊:International Journal of Numerical Methods for Heat & Fluid Flow [Emerald Publishing Limited]
卷期号:29 (11): 4334-4348 被引量:28
标识
DOI:10.1108/hff-03-2019-0252
摘要

Purpose With the increasing heat dissipation of electronic devices, the cooling demand of electronic products is increasing gradually. A water-cooled microchannel heat exchanger is an effective cooling technology for electronic equipment. The structure of a microchannel has great impact on the heat transfer performance of a microchannel heat exchanger. The purpose of this paper is to analyze and compare the fluid flow and heat transfer characteristic of a microchannel heat exchanger with different reentrant cavities. Design/methodology/approach The three-dimensional steady, laminar developing flow and conjugate heat transfer governing equations of a plate microchannel heat exchanger are solved using the finite volume method. Findings At the flow rate range studied in this paper, the microchannel heat exchangers with reentrant cavities present better heat transfer performance and smaller pressure drop. A microchannel heat exchanger with trapezoidal-shaped cavities has best heat transfer performance, and a microchannel heat exchanger with fan-shaped cavities has the smallest pressure drop. Research limitations/implications The fluid is incompressible and the inlet temperature is constant. Practical implications It is an effective way to enhance heat transfer and reduce pressure drop by adding cavities in microchannels and the data will be helpful as guidelines in the selection of reentrant cavities. Originality/value This paper provides the pressure drop and heat transfer performance analysis of microchannel heat exchangers with various reentrant cavities, which can provide reference for heat transfer augmentation of an existing microchannel heat exchanger in a thermal design.
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