包含三个气缸体的通道中MHD强制对流纳米液体的熵生成

2022 13th International Renewable Energy Congress (IREC) Pub Date : 2022-12-13 DOI:10.1109/IREC56325.2022.10002020

Rached Miri, M. A. Abbassi, M. Ferhi, R. Djebali

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摘要

本文研究了纳米液体(Cu- water) MHD在包含三个缸体的通道内强制对流的数值模拟。在50≤Re≤200,0≤Ha≤50，纳米颗粒体积分数在0% ~ 4%之间进行模拟。在计算纳米液体的有效导热系数和粘度时考虑了布朗运动。采用格-玻尔兹曼方法求解了连续方程、动量方程和能量方程。研究了雷诺数和纳米颗粒体积分数对传热和贝让数的影响。结果表明，雷诺数、哈特曼数的增加和纳米粒子的加入均能提高平均努塞尔数。贝让数随雷诺数和哈特曼数的增加而减小，而随纳米颗粒体积分数的增加而增大。

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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Entropy generation of MHD forced convection nanoliquid in a channel containing three cylinder blocks

The present study is a numerical simulation of nanoliquid (Cu- water) MHD forced convection in a channel containing three cylinder blocks. The simulations were made at 50 ≤Re≤200, 0≤Ha≤50, nanoparticles volume fraction between 0%and 4%. The Brownian motion was considered in calculating the effective nanoliquid thermal conductivity and viscosity. The lattice-Boltzmann method is used to solve the continuity, momentum and energy equations. The effects of Reynolds number and nanoparticles volume fraction on heat transfer and Bejan number were studied. The results demonstrate that average Nusselt number is enhanced by increase of Reynolds number, Hartmann number and addition of nanoparticles. Bejan number decrease with Reynolds number and Hartmann number but it is increase with addition of nanoparticles volume fraction.

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2022 13th International Renewable Energy Congress (IREC)

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