射流和肋板强化微通道的传热研究

IF 1.1 4区 工程技术 Q4 ENGINEERING, MECHANICAL
Peisheng Li, Guozi Zhu, Y. Zhang, Yan Gao, Jian Hong, Zhaoqing Ke
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引用次数: 0

摘要

在本文中,我们提出了一种新的带肋和射流的微通道散热器,它不仅可以提高传热性能,还可以改善微通道中的流体流动。讨论了在不同雷诺数下,不同形状的肋和入口纵横比对性能评估标准的影响。在入口雷诺数为3000时,改性微通道散热器的最高温度比光滑微通道散热器低8.78%,性能评价标准提高了0.94。在相同条件下,水翼肋微通道射流的底板温差比圆柱形肋微通道喷嘴的底板温差低3.4%;并且三角形肋增加了热传递,并且由于在后部区域中形成更大的涡流区而导致更大的压力损失损失。射流入口参数可以有效地提高微通道的传热系数。就传热能力和底板温度的均匀性而言,当射流入口参数为[公式:见正文]时,带射流的水翼肋微通道具有最佳的散热效果。
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 with Jets and Ribs
In this paper, we propose a new microchannel heat sink with ribs and jets, which can not only increase the heat transfer performance but also improve the fluid flow in the microchannel. The effects of different shapes of ribs and inlet aspect ratios on the performance evaluation criteria at various Reynolds numbers are discussed. At an inlet Reynolds number of 3000, the maximum temperature of the modified microchannel heat sink is 8.78% lower than that of the smooth microchannel, and the performance evaluation criteria is increased by 0.94. Under the same conditions, the bottom plate temperature difference of the hydrofoil rib microchannel jets is 3.4% lower than that of the cylindrical rib microchannel jets; and the triangular-shaped ribs increase the heat transfer and cause greater pressure loss penalty due to the formation of a larger swirl zone in the back area. The jet inlet parameters can effectively improve the heat transfer coefficient of the microchannel. In terms of the heat transfer capability and the uniformity of the bottom plate temperature, the hydrofoil rib microchannel with jets has the best heat dissipation effect when the jet inlet parameter is [Formula: see text].
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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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