Experimental Investigation of the Effect of Heat Spreading on Boiling of a Dielectric Liquid for Immersion Cooling of Electronics

IF 2.2 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Electronic Packaging Pub Date : 2021-12-01 DOI:10.1115/1.4051943

Omidreza Ghaffari, W. Tong, Y. N. Larimi, C. A. Sayed, Alireza Ganjali, J. Morissette, Francis Grenier, Simon Jasmin, L. Fréchette, J. Sylvestre

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引用次数: 7

Abstract

This paper investigated the effect of heat spreading on the boiling of the Novec 649™ for two-phase immersion cooling of electronics. Reference pool boiling tests were performed by attaching a 25.4 mm by 25.4 mm square copper plate to a same-sized heater, thus minimizing lateral heat spreading. Experimental measurements showed that the critical heat flux (CHF) happened at a heat flux of 17.4±0.8 W/cm2. Then, lateral heat spreading through the heat spreader was studied by attaching larger (47 mm by 47 mm) spreaders with four different thicknesses to the copper plate. With an increase in the integrated heat spreader (IHS) thickness from 1 mm to 6 mm, the CHF increased by more than 60% at the saturation condition. One plate was a 1 mm-thick IHS removed from a commercial microprocessor. In this case, the CHF happens at 8.6 W/cm2 (50% lower compared to the reference case) in the saturation condition. At CHF, the boiling can be observed on the whole surface, with columns and slugs regime at the center and the fully developed nucleate boiling regime at the edges. This nonuniform boiling was more pronounced in subcooled conditions, in which the CHF occurred at the center while there were regions at the edges that had no boiling. Finally, the performance of a microporous-coated IHS (with 3.15 mm thickness) was compared to the 6 mm thick IHS. The thermal resistance was almost equal for powers above 200 W. This indicates that lateral heat spreading is a critical parameter for the thermal design of immersion cooling along with microporous coating.

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热传导对电子设备浸没冷却介质液体沸腾影响的实验研究

本文研究了热传导对电子设备两相浸没冷却Novec 649™沸腾的影响。参考池沸腾试验是通过将25.4 mm × 25.4 mm的方形铜板贴在相同尺寸的加热器上进行的，从而最大限度地减少了侧向热量传播。实验测量表明，临界热流密度(CHF)为17.4±0.8 W/cm2。然后，通过将四种不同厚度的较大(47mm × 47mm)的散热器连接到铜板上，研究了通过散热器的侧向散热。饱和条件下，随着集成散热器(IHS)厚度从1 mm增加到6 mm, CHF增加了60%以上。一块板是从商用微处理器上拆下来的1毫米厚的IHS。在这种情况下，CHF在饱和条件下发生在8.6 W/cm2(比参考情况低50%)。在高温下，整个表面都可以观察到沸腾，中心为柱状和段塞状，边缘为充分发展的核状沸腾。这种不均匀沸腾在过冷条件下更为明显，在过冷条件下，CHF发生在中心，而边缘区域没有沸腾。最后，将微孔涂层的IHS(厚度为3.15 mm)与6 mm厚的IHS进行了性能比较。当功率大于200w时，热阻几乎相等。这表明横向传热是微孔涂层浸没冷却热设计的关键参数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Electronic Packaging 工程技术-工程：电子与电气

CiteScore

4.90

自引率

6.20%

发文量

审稿时长

3 months

期刊介绍： The Journal of Electronic Packaging publishes papers that use experimental and theoretical (analytical and computer-aided) methods, approaches, and techniques to address and solve various mechanical, materials, and reliability problems encountered in the analysis, design, manufacturing, testing, and operation of electronic and photonics components, devices, and systems. Scope: Microsystems packaging; Systems integration; Flexible electronics; Materials with nano structures and in general small scale systems.