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Heat Transfer and Fluid Flow through Microchannels - a theoretical approach

机译：通过微通道传热和流体流动 - 一种理论方法

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Three dimensional heat transfer and water flow characteristic in a set of rectangular microchannel heat sinks for advanced electronic systems investigated in this paper. The full Navier-Stoke's approach is employed for this kind of narrow channels for the water flow assessments. The complete form of the energy equation accompanying the dissipation terms is also linked to the momentum equations. The calculated thermal distribution show good agreements with the corresponding experimental predictions. Then these results are compared with porous medium approach in small dimensions. In this approach microchannel is modeled as a fluid-saturated porous medium, and is numerically solved based on the Forchheimer-Brinkman-extended Darcy equation for the fluid flow and two equations model for heat transfer between the solid and fluid phase.

机译：本文研究了一组矩形微通道散热器的三维传热和水流量特性。全Navier-Stoke的方法用于这种狭窄的水流量评估通道。伴随耗散术语的完整形式的能量方程也与动量方程相关联。计算的热分布与相应的实验预测显示出良好的协议。然后将这些结果与小尺寸的多孔介质方法进行比较。在该方法中，微通道被建模为流体饱和的多孔介质，并且基于用于流体流动的Forchheimer-Brinkman-延伸的达西方程和用于在固体和流体相之间的热传递的两个方程模型进行数值求解。

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《WSEAS International Conferences》|2007年||共7页
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作者
N. AMANIFARD; M. BORJI; A. K. HAGHI;
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原文格式 PDF
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中图分类 TK124-53;
关键词
Porous medium; Microchannel heat sink; Heat transfer; Velocity profile;

机译：多孔介质;微通道散热;传热;速度概况;

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3. Fluid flow and heat transfer in manifold microchannel heat sinks: A CFD approach [J] . E. Y. K. Ng, S. T. Poh Computer modeling and simulation in engineering . 1999,第4期

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4. Heat Transfer and Fluid Flow through Microchannels - a theoretical approach [C] . N. AMANIFARD, M. BORJI, A. K. HAGHI WSEAS International Conferences . 2007

机译：通过微通道传热和流体流动 - 一种理论方法
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机译：第一节具有均匀指数热量的平板上稳态流动的瞬态传热第二节瞬态传热在含有内部热源的平板上的流体流动的理论分析

Heat Transfer and Fluid Flow through Microchannels - a theoretical approach

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