多层蜂窝微通道散热器的热性能研究

Yonglu Liu, Xiaobing Luo, W. Liu, Z. Huang
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引用次数: 3

摘要

开发高效、可靠、经济的紧凑型换热器是有效利用热能的关键问题之一。通过多层扁薄矩形板的堆叠,内部蚀刻若干规则的蜂窝细胞,形成设计良好的交错流动通道,以增强传热。针对设计的新型散热器冷却系统,进行了不同流量和输入加热功率下的实验研究。在2.4W的泵浦功率下,15.7W/cm2的热功率密度可以有效去除,基片温升为61.9℃。结果表明,该散热器设计为电子产品的散热应用提供了良好的选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermal Performance of the Multilayered Honeycomb Microchannel Heat Sink
To develop a high effectiveness, reliable, cost-effective compact heat exchanger is one of the key issues for effective use of thermal energy. By stacking multilayered flat thin rectangular plates with a number of regular honeycomb cells etched inside, the well designed staggered fluid flow channels are formed to enhance heat transfer. For the cooling system with the new type design heat sink, experimental investigations were conducted under different flow rates and input heating powers. The heat power density of 15.7W/cm2 can effectively removed with a substrate temperature rise of 61.9¿ under 2.4W pump power. The results show that the heat sink design provides a good choice for electronic products cooling applications.
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