淡江大學機構典藏:Item 987654321/52789
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    Please use this identifier to cite or link to this item: https://tkuir.lib.tku.edu.tw/dspace/handle/987654321/52789


    Title: Experimental Investigation of Fluid Flow and Heat Transfer in Microchannels
    Authors: 康尚文;Kang, Shung-wen;陳育堂;Chen, Yu-Tang;杜文謙;Tu, Wen-chien;蕭聰鑫;Hsiao, Tsung-Hsin
    Contributors: 淡江大學機械與機電工程學系
    Keywords: Microchannel;Mechanism of Bubble Nucleation;Hydraulic Diameters;Critical Nucleate Heat Flux
    Date: 2004-03-01
    Issue Date: 2010-12-01 10:31:09 (UTC+8)
    Publisher: 臺北縣:淡江大學
    Abstract: Due to the high performance of electronic components, the heat generation is increasing dramatically. Heat dissipation becomes a significant issue in efficiency promotion and stable operation. Silicon based microchannel heat sink fabricated using semiconductor production technique plays an important role in cooling devices. Experimental tests and theoretical analyses were conducted to investigate the characteristics of fluid flow and heat transfer in microchannel heat sink in this paper, especially in the mechanism of bubble nucleation.
    Methanol was used as the working fluid and flowed through microchannels with different hydraulic diameters ranging from 57−267 μm in the experiments. Experimental results of flow characteristics indicated that the flow behavior was in the laminar regime when Re = 50−850, the phenomena of early transition didn't exist. The phenomenon shows that the surface roughness, viscosity, and channel geometry have great effects on flow characteristics in microchannels.
    Experimental results in heat transfer indicted that forced convection in microchannel heat sink exhibited excellent cooling
    performance, especially in the phase change regime. It will be applied as heat removal and temperature control devices in high power electronic components. When the critical nucleate heat flux condition appeared, flow mechanism changed into fully developed nucleate boiling and accompanied with wall temperature decreased rapidly and pressure drop increased sharply. Experimental results also indicated that the critical bubble size of methanol was between 57−83 μm.
    Relation: 淡江理工學刊=Tamkang journal of science and engineering 7(1),頁11-16
    DOI: 10.6180/jase.2004.7.1.03
    Appears in Collections:[Graduate Institute & Department of Mechanical and Electro-Mechanical Engineering] Journal Article

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