Thermal control of electronic equipment by heat pipes

Revue Générale de Thermique Pub Date : 1998-05-01 DOI:10.1016/S0035-3159(98)80089-5

Manfred Groll , Marcus Schneider , Valérie Sartre , Mohamed Chaker Zaghdoudi , Monique Lallemand

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引用次数: 88

Abstract

In the frame of the BRITE-EURAM european programme (KHIEPCOOL project), a literature survey on the main heat pipe and micro heat pipe technologies developed for thermal control of electronic equipment has been carried out. The conventional heat pipes are cylindrical, flat or bellow tubes, using wicks or axial grooves as capillary structures. In the field of micro heat pipes, three and four corner tubes have been developed. The pipes are mounted on single chips, in-line chip arrays or integrated into the component interconnection substrate. The best performances were achieved with Plesch's axially grooved flat miniature heat pipe [1], which is able to transfer a heat flux of about 60 W·cm⁻². Theoretical models have shown that the performance of micro heat pipe arrays increase with increasing tube diameter, decreasing tube length and increasing heat pipe density. The heat pipe technologies are classified and compared according to their geometry and location in the system. A list of about 150 references, classified according to their subjects, is presented.

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热管对电子设备的热控制

在BRITE-EURAM欧洲计划(KHIEPCOOL项目)框架下，对电子设备热控制的主热管和微热管技术进行了文献综述。传统的热管是圆柱形、扁平或波纹管，采用芯或轴向槽作为毛细管结构。在微热管领域，已经发展了三角管和四角管。管道安装在单芯片上，在线芯片阵列或集成到组件互连基板上。Plesch的轴向沟槽扁平微型热管达到了最佳性能[1]，其传热通量约为60 W·cm−2。理论模型表明，微热管阵列的性能随管径的增大、管长的减小和热管密度的增大而增大。根据热管技术的几何形状和在系统中的位置，对热管技术进行了分类和比较。提供了一份约150篇参考文献的清单，根据它们的主题分类。

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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Revue Générale de Thermique

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