利用正弦曲线鳍片增强微通道散热器的传热效果

IF 1.1 4区 工程技术 Q4 ENGINEERING, MECHANICAL
Ping Liu, Ruiqi Sun, Lianghong Hu, Weihua Wang, Jiadong Ji
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引用次数: 0

摘要

本研究进行了数值模拟,以研究使用间断翅片的初始模型(平行布置和对称布置)对微通道散热器(MHS)的流动和传热特性的影响。结果表明,对称翅片排列的 MHS 具有更高的努塞尔特数和更低的热阻。垂直于流道的涡流是影响传热特性的主要因素。由于涡度较高,对称翅片的通道具有更高的传热性能。为了进一步提高传热性能,分别采用交错布置、减少翅片数量和增加针状翅片的方法得到了三种改进模型(模型 III-V)。交错布置鳍片可以加深通道中的二次流,增加针形鳍片可以形成额外的涡流,从而提高模型 III 和模型 V 的传热能力。值得注意的是,交错翅片和针状翅片都会显著增加通道的压降,而减少翅片数量则会明显降低压降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Heat Transfer Enhancement of Microchannel Heat Sink Using Sine Curve Fins
In this study, numerical simulations are conducted to investigate the effects of initial models (parallel and symmetrical arrangement) using interruption fins on the flow and heat transfer characteristics of microchannel heat sink (MHS). The results indicate that MHS with symmetrical fin arrangement has a higher Nusselt number and lower thermal resistance. The vortices perpendicular to the flowpath is the main factor of affecting the heat transfer characteristics. Because of the higher vorticity, the channel with symmetrical fins achieves higher heat transfer performance. To further improve the heat transfer performance, three modified models (models III–V) are obtained by adopting the methods of staggered, reducing fin quantity, and adding pin fins, respectively. The staggered arrangement of fins can deepen the secondary flow in the channel, and the additional vortices are formed with adding pin fins, which can enhance heat transfer capacity in models III and V. On the other hand, reducing the number of fins can damage some vortices, which can actually reduce heat transfer performance. It is worth noting that both the staggered fins and the pin fins significantly increase the pressure drops of the channel, while reducing the fins number leads to an obvious decrease in the pressure drop.
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来源期刊
Journal of Thermophysics and Heat Transfer
Journal of Thermophysics and Heat Transfer 工程技术-工程:机械
CiteScore
3.50
自引率
19.00%
发文量
95
审稿时长
3 months
期刊介绍: This Journal is devoted to the advancement of the science and technology of thermophysics and heat transfer through the dissemination of original research papers disclosing new technical knowledge and exploratory developments and applications based on new knowledge. The Journal publishes qualified papers that deal with the properties and mechanisms involved in thermal energy transfer and storage in gases, liquids, and solids or combinations thereof. These studies include aerothermodynamics; conductive, convective, radiative, and multiphase modes of heat transfer; micro- and nano-scale heat transfer; nonintrusive diagnostics; numerical and experimental techniques; plasma excitation and flow interactions; thermal systems; and thermophysical properties. Papers that review recent research developments in any of the prior topics are also solicited.
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