电子学冷却中基于微结构散热器的空气冲击射流强化传热研究

Conference on High Density Microsystem Design and Packaging and Component Failure Analysis, 2006. HDP'06. Pub Date : 2006-06-27 DOI:10.1109/HDP.2006.1707577

Jing-yu Fan, Yan Zhang, Johan Liu

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引用次数: 2

摘要

分析了一种基于微结构散热器的微尺度冲击射流阵列的电子冷却强化传热方案。讨论了微冲击射流阵列的冷却性能，并与传统的大型射流冲击冷却进行了比较，指出诱导横流引起的压降是影响微冲击射流阵列冷却性能的重要因素。对不同类型的微结构散热器影响微冲击射流阵列换热速率和压降的主要机理进行了实证分析和讨论。无论如何，将微冲击射流阵列与微结构表面相结合，去除高芯片热流通量，需要在增强的传热率和可接受的压降之间做出适当的妥协

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On the heat transfer enhancement based on micro-scale air impinging jets with microstructure heat sink in electronics cooling

A conceptual heat transfer enhancement scheme in electronic cooling is analyzed on the basis of micro-scale impinging jet array with microstructure heat sink. The cooling performance of the micro impinging jet array is discussed and compared with that of conventional large-scale jet impingement cooling, and the pressure drop due to the induced crossflow is a vital factor for the former. The primary mechanisms by which the different types of the microstructure heat sinks affect the heat transfer rate as well as the pressure drop for the micro impinging jet array are empirically analyzed and discussed. In any case, it is necessary to make a proper compromise between the enhanced heat transfer rate and the acceptable pressure drop for the removal of high chip heat fluxes by combining the micro impinging jet array with micro-structured surface

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Conference on High Density Microsystem Design and Packaging and Component Failure Analysis, 2006. HDP'06.

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