会议论文详细信息
1st International Postgraduate Conference on Mechanical Engineering
Numerical analysis on thermal and hydraulic performance of diverging-converging minichannel heat sink using Al2O3-H2O nanofluid
工业技术(总论);机械制造
Muhammad, N.M.^1^2 ; Sidik, N.A.C.^1
Faculty of Engineering, Universiti Teknologi Malaysia, Skudai, Johor
81310, Malaysia^1
Department of Mechanical Engineering, Kano University of Science and Technology, Wudil Nigeria
3244, Nigeria^2
关键词: Channel configuration;    Convection coefficients;    Electronic device;    Enhancement of heat transfer;    Heat flux densities;    Passive technique;    Performance factors;    Thermal and hydraulic performance;   
Others  :  https://iopscience.iop.org/article/10.1088/1757-899X/469/1/012046/pdf
DOI  :  10.1088/1757-899X/469/1/012046
学科分类:工业工程学
来源: IOP
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【 摘 要 】

Miniaturization as a size reduction of electronic devices components lead to high performance, but with increase in heat flux density which reduce the efficiency of these devices. Minichannel has been considered to improve the heat dissipation with minimal pressure drop through regulation of the channel configurations. In this study, a divergent-convergent minichannel heat sink (DCMCHS) was investigated numerically using Finite volume method to model single-phase forced convection for nanofluid cooling as a passive means to enhance the heat transfer performance for Reynolds number range of 2000 to 2300 and using Aqueous Alumina as nanofluid with concentrations of 0.1 - 0.8%. The effect of Reynolds number, the convection coefficient and pressure drop in relation to the heat flux were investigated and discussed. The results show that, Nusselt number increases with increase in volume fraction and Reynolds number, whereas friction factor decreased with increasing Reynolds number. Heat removal by the nanofluid is higher near the walls than in the central part of the minichannel, and the performance factor is between 1.00 - 1.01 and it increases with increase in concentration and flow velocity. Thus, combine passive techniques of DCMCHS and nanofluid provides better enhancement of heat transfer and hydraulic attributes of the minichannel heat sink for cooling purposes.

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