A study on the evaporation heat transfer in the cooling of high power electronics

Proceedings of 1994 IEEE/CHMT 10th Semiconductor Thermal Measurement and Management Symposium (SEMI-THERM) Pub Date : 1994-02-01 DOI:10.1109/STHERM.1994.288986

H. Kristiansen, T. Fallet, A. Bjorneklett

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引用次数: 4

Abstract

The cooling of a high power motor controller has been studied for more than two years. The total power dissipation in the controller is estimated to be in the order of 20 kW. We chose to use pool boiling inside a enclosed volume for thermal management. This paper is concerned with the evaporation part of the cooling system. The primary concern has been the cooling of the "hockey puk" GTO's having an expected power dissipation in the order of 1 kW. To increase the effective area for evaporation heat transfer, the components have been clamped between cooling "blocks". We found however that a notable part of the heat was transferred directly from the GTO capsule itself into the liquid. This was dependent on the degree of liquid subcooling and the total pressure. The thermal resistance in the cooling blocks contributed significantly to the total temperature loss. The temperature gradients depended heavily upon the local heat transfer from cooling block to liquid. FEM simulations have been used to model the temperature distribution in the cooling blocks as a function of heat transfer coefficients.<>

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大功率电子设备冷却过程中蒸发传热的研究

对大功率电机控制器的冷却进行了两年多的研究。控制器的总功耗估计在20kw左右。我们选择在一个封闭的体积内使用池沸腾来进行热管理。本文研究的是冷却系统的蒸发部分。主要关注的是“冰球”GTO的冷却，其预期功耗为1千瓦。为了增加蒸发传热的有效面积，组件被夹在冷却“块”之间。然而，我们发现相当一部分热量是直接从GTO舱本身传递到液体中的。这取决于液体过冷程度和总压力。冷却块中的热阻对总温度损失有重要贡献。温度梯度很大程度上取决于从冷却块到液体的局部热传递。用有限元方法模拟了冷却块内温度随传热系数的变化规律

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Proceedings of 1994 IEEE/CHMT 10th Semiconductor Thermal Measurement and Management Symposium (SEMI-THERM)

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