A study of fluid coolant with carbon nanotube suspension for microchannel coolers

Yi Fan, Yifeng Fu, Yan Zhang, Teng Wang, Xiaojing Wang, Z. Cheng, J. Liu
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引用次数: 1

Abstract

In this work, silicon microchannel coolers were made using the deep ion reactive etching (DIRE) technique. Stable and homogeneous carbon nanotube (CNT) suspension was also prepared. Meanwhile, a closed-loop cooling test system was developed to investigate the heat removal of the silicon microchannel cooler with different coolants. The experimental setup included a test module, a minipump for providing controllable flow, and a fan system for cooling the circular fluid. Beside the inlet and outlet of the test module, two thermocouples and pressure gauges were set up to measure the temperature and pressure of the fluids. The heat removal of the silicon microchannel cooler using different CNT volume fraction of suspension coolant was studied. The results show that the microchannel cooler with CNT suspension as coolant could strengthen the heat removal capability of microchannel cooler. In addition to heat transfer enhancement, the microchannel cooler with CNT suspension coolant did not produce extra pressure drop in the present study.
微通道冷却器用碳纳米管悬浮液的研究
在这项工作中,硅微通道冷却器采用深离子反应蚀刻(DIRE)技术。制备了稳定均匀的碳纳米管悬浮液。同时,建立了闭环冷却试验系统,研究了不同冷却剂对硅微通道冷却器的散热效果。实验装置包括一个测试模块、一个提供可控流量的微型泵和一个用于冷却循环流体的风扇系统。在测试模块的入口和出口旁边设置了两个热电偶和压力表,用于测量流体的温度和压力。研究了不同碳纳米管体积分数悬浮冷却剂对硅微通道冷却器的散热效果。结果表明,以碳纳米管悬浮液为冷却剂的微通道冷却器可以增强微通道冷却器的散热能力。除了强化传热外,采用碳纳米管悬浮冷却剂的微通道冷却器在本研究中没有产生额外的压降。
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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