Experimental study on a hybrid liquid/air cooling system

Twenty-Second Annual IEEE Semiconductor Thermal Measurement And Management Symposium Pub Date : 2006-03-14 DOI:10.1109/STHERM.2006.1625199

D. Xiong, K. Azar, B. Tavassoli

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Abstract

A high capacity hybrid liquid/air cooling system is proposed and partially tested in this paper. The cooling system is a compact sized package, including a forced thermal spreader with a small pump, a manifold minichannel air heat sink and an air mover. The forced thermal spreader can greatly reduce the spreading thermal resistance and bring more uniform temperature distribution on the top surface. The manifold minichannel air heat sink has a very low thermal resistance while keeping reasonable pressure drop. The heat is first transported from the chip to the liquid inside the forced thermal spreader, and then the liquid spreads to the surface of the heat sink, via circulating in the microchannels and minichannels inside the spreader. Following that, by uniquely designed manifold heat sink, the heat is transferred into ambient environment. The cooling system inherits the advantages from both liquid and air, and at the same time, it avoids problems from liquid cooling like size, leakage and high thermal resistance of air cooling side of the overall loop. A prototype has been manufactured and tested to verify the design

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液/空混合冷却系统的实验研究

本文提出了一种高容量液空混合冷却系统，并进行了部分试验。冷却系统是一个紧凑的尺寸包，包括一个强制散热器与一个小泵，一个流形小通道空气散热器和一个空气动器。采用强制散热器可以大大降低散热阻力，使顶面温度分布更加均匀。在保持合理的压降的情况下，歧管式小通道空气散热器具有很低的热阻。热量首先从芯片传递到强制散热片内部的液体，然后液体通过散热片内部的微通道和小通道循环扩散到散热器表面。然后，通过独特设计的流形散热器，将热量传递到周围环境中。该冷却系统继承了液体和空气的优点，同时避免了液体冷却带来的整体回路空冷侧体积大、泄漏、热阻高等问题。已经制造了一个原型并进行了测试以验证该设计

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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Twenty-Second Annual IEEE Semiconductor Thermal Measurement And Management Symposium

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