Heat transfer improvement in microchannel heat sink by topology design and optimization for high heat flux chip cooling

IF 5.8 2区工程技术 Q1 ENGINEERING, MECHANICAL

International Journal of Heat and Mass Transfer Pub Date : 2019-02-01 DOI:10.1016/j.ijheatmasstransfer.2018.09.092

Hui Tan, Longwen Wu, Mingyang Wang, Zihao Yang, Pingan Du

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引用次数: 80

Abstract

To meet the demand of ever-increasing heat flux of electronic chips, the influence of topology structure of microchannels on its heat transfer performance in chip cooling was investigated in this paper. First, four topologies were designed, including ternate veiny, lateral veiny, snowflake shaped and spider netted. Then fluid-thermal coupling numerical simulations were employed and the results showed that the spider netted microchannel yield the best heat transfer performance among the proposed structures. Furthermore, the geometrical parameters of the spider netted microchannel were optimized. Finally, the straight and spider netted microchannel were made by 3D printing technique and the experiment was conducted. The experimental results indicated that the heat transfer performance of the spider netted microchannel was better than the straight, the difference of the maximum heat source temperature reached 9.9 °C in the heat flux of 100 W/cm², and get larger and larger with the increase of heat flux. It was concluded that the topology structure of microchannel had a significant impact on its heat transfer performance, especially in high heat flux.

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高热流密度芯片冷却微通道散热器的拓扑设计与优化

为了满足电子芯片不断增大的热流密度的需求，本文研究了微通道拓扑结构对芯片散热传热性能的影响。首先，设计了三脉状、侧脉状、雪花状和蜘蛛网状四种拓扑结构。然后进行了流热耦合数值模拟，结果表明蜘蛛网微通道的传热性能最好。此外，还对网状微通道的几何参数进行了优化。最后，利用3D打印技术制作了直网微通道和蜘蛛网微通道，并进行了实验。实验结果表明，网状微通道的换热性能优于直线型微通道，在100 W/cm2的热流密度下，最大热源温度差值达到9.9 °C，且随着热流密度的增大而越来越大。结果表明，微通道的拓扑结构对其传热性能有显著影响，特别是在高热流密度下。

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来源期刊

International Journal of Heat and Mass Transfer 工程技术-工程：机械

CiteScore

10.30

自引率

13.50%

发文量

1319

审稿时长

41 days

期刊介绍： International Journal of Heat and Mass Transfer is the vehicle for the exchange of basic ideas in heat and mass transfer between research workers and engineers throughout the world. It focuses on both analytical and experimental research, with an emphasis on contributions which increase the basic understanding of transfer processes and their application to engineering problems. Topics include: -New methods of measuring and/or correlating transport-property data -Energy engineering -Environmental applications of heat and/or mass transfer