利用流动网络模型(FNM)分析旁路对散热器性能的影响

Fifteenth Annual IEEE Semiconductor Thermal Measurement and Management Symposium (Cat. No.99CH36306) Pub Date : 1999-03-09 DOI:10.1109/STHERM.1999.762427

A. Radmehr, K. Kelkar, P. Kelly, S. Patankar, S.S. Kang

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引用次数: 11

摘要

散热器用于电子冷却系统中，为半导体设备散发的热量提供额外的传输面积。然而，在散热器周围存在间隙区域时，原本会通过散热器的气流会绕过它。本文采用流动网络建模技术(FNM)分析了流动旁通对板翅式散热器传热性能的影响。所分析的物理情况对应于用于表征散热器性能的典型风洞试验单元。网络分析结果表明，增加旁通面积对降低散热器流量有较强的作用。因此，当周围存在较大的间隙区域时，散热器的有效性就会降低。网络分析是非常容易、快速和准确的。它可以用于分析实际冷却系统中散热器的位置。

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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Analysis of the effect of bypass on the performance of heat sinks using flow network modeling (FNM)

Heat sinks are used in electronics cooling systems to provide extra area for transfer of the heat dissipated by semiconductor devices. However, in presence of clearance regions around the heat sink, flow that would otherwise go through the heat sink bypasses it. This study uses the technique of flow network modeling (FNM) to analyze the effect of flow bypass on the heat transfer performance of a plate fin heat sink. The physical situation analyzed corresponds to a typical wind tunnel test cell used for characterization of the heat sink performance. Results of network analysis predict that increasing the bypass region has a strong effect on decreasing the flow rate through the heat sink. Therefore, the effectiveness of the heat sink is reduced when large clearance regions are present around it. The network analysis is shown to be very easy, quick, and accurate. It can be used for analysis of the placement of heat sinks in practical cooling systems.

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Fifteenth Annual IEEE Semiconductor Thermal Measurement and Management Symposium (Cat. No.99CH36306)

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