Immersion-cooled heat sinks for electronics: insight from high-speed photography

ITHERM 2000. The Seventh Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (Cat. No.00CH37069) Pub Date : 2000-05-23 DOI:10.1109/ITHERM.2000.866208

S. Bhavnani, Gilbert Fournelle, R. Jaeger

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引用次数: 24

Abstract

The development of effective heat sinks for the primary heat-dissipating component of a typical portable electronics device is an ongoing challenge. Thermal management using air-cooling is limited by the inherently poor thermal properties of the coolant. Other alternatives, including liquid immersion cooling, phase-change materials, and heat pipes, may merit consideration if the basic mechanisms can be reliably predicted. This study sheds light on the nucleation characteristics of an etched cavity-enhanced surface for use in an immersion-cooled heat sink. The target application is a high-density multi-chip module with several heat dissipating sources. High-speed photography was used to record parameters such as bubble interactions, bubble size, departure frequency and active site density while varying the cavity spacing and heat flux. The cavities, which are approximately 40 /spl mu/m, are arranged in a square cluster 12.7 mm on each side. It was determined that the contribution of latent heat as a heat dissipation mechanism is only minor (less than 16%). In addition, it is proposed that the latent heat dissipation percentage may be used as a thermal performance indicator. Interactions between neighboring heat sources were also studied. These interactions decreased the bubble departure frequency and thereby affected the latent heat contribution.

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浸没冷却散热器的电子产品:从高速摄影的见解

为典型便携式电子设备的主要散热部件开发有效的散热器是一个持续的挑战。使用空气冷却的热管理受到冷却剂固有的不良热性能的限制。如果基本机制能够可靠地预测，其他替代方案，包括液体浸没冷却、相变材料和热管，可能值得考虑。本研究揭示了用于浸没冷却散热器的蚀刻腔增强表面的成核特性。目标应用是具有多个散热源的高密度多芯片模块。利用高速摄影技术记录了不同空腔间距和热流密度下的气泡相互作用、气泡大小、离开频率和活性位点密度等参数。这些空腔约为40 /spl mu/m，每侧12.7 mm排列成方形簇。确定潜热作为散热机制的贡献很小(小于16%)。此外，还提出可以将潜热耗散率作为热性能指标。研究了相邻热源之间的相互作用。这些相互作用降低了气泡离开频率，从而影响了潜热贡献。

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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ITHERM 2000. The Seventh Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (Cat. No.00CH37069)

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