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    Local Heat Transfer Characteristics in Simulated Electronic Modules

    Source: Journal of Electronic Packaging:;2003:;volume( 125 ):;issue: 003::page 362
    Author:
    Seong-Yeon Yoo
    ,
    Jong-Hark Park
    ,
    Min-Ho Chung
    DOI: 10.1115/1.1602478
    Publisher: The American Society of Mechanical Engineers (ASME)
    Abstract: When heat is released by forced convection from electronic modules in a narrow printed circuit board channel, complex flow phenomena—such as stagnation and acceleration on the front surface, separation and reattachment on the top surface, wake or cavity flow near the rear surface—affect the heat transfer characteristics. The purpose of this study is to investigate how these flow conditions influence the local heat transfer from electronic modules. Experiments are performed on a three-dimensional array of hexahedral elements as well as on a two-dimensional array of rectangular elements. Naphthalene sublimation technique is employed to measure three-dimensional local mass transfer, and the mass transfer data are converted to their counterparts of the heat transfer process using the analogy equation between heat and mass transfer. Module location and streamwise module spacing are varied, and the effect of vortex generators on heat transfer enhancement is also examined. Dramatic change of local heat transfer coefficients is found on each surface of the module, and three-dimensional modules have a little higher heat transfer value than two-dimensional modules because of bypass flow. Longitudinal vortices formed by vortex generator enhance the mixing of fluids and thereby heat transfer, and the rectangular wing type vortex generator is found to be more effective than the delta wing type vortex generator.
    keyword(s): Flow (Dynamics) , Heat transfer , Vortices , Generators , Heat transfer coefficients , Mass transfer , Channels (Hydraulic engineering) AND Heat ,
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      Local Heat Transfer Characteristics in Simulated Electronic Modules

    URI
    http://yetl.yabesh.ir/yetl1/handle/yetl/128196
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    contributor authorSeong-Yeon Yoo
    contributor authorJong-Hark Park
    contributor authorMin-Ho Chung
    date accessioned2017-05-09T00:09:52Z
    date available2017-05-09T00:09:52Z
    date copyrightSeptember, 2003
    date issued2003
    identifier issn1528-9044
    identifier otherJEPAE4-26221#362_1.pdf
    identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/128196
    description abstractWhen heat is released by forced convection from electronic modules in a narrow printed circuit board channel, complex flow phenomena—such as stagnation and acceleration on the front surface, separation and reattachment on the top surface, wake or cavity flow near the rear surface—affect the heat transfer characteristics. The purpose of this study is to investigate how these flow conditions influence the local heat transfer from electronic modules. Experiments are performed on a three-dimensional array of hexahedral elements as well as on a two-dimensional array of rectangular elements. Naphthalene sublimation technique is employed to measure three-dimensional local mass transfer, and the mass transfer data are converted to their counterparts of the heat transfer process using the analogy equation between heat and mass transfer. Module location and streamwise module spacing are varied, and the effect of vortex generators on heat transfer enhancement is also examined. Dramatic change of local heat transfer coefficients is found on each surface of the module, and three-dimensional modules have a little higher heat transfer value than two-dimensional modules because of bypass flow. Longitudinal vortices formed by vortex generator enhance the mixing of fluids and thereby heat transfer, and the rectangular wing type vortex generator is found to be more effective than the delta wing type vortex generator.
    publisherThe American Society of Mechanical Engineers (ASME)
    titleLocal Heat Transfer Characteristics in Simulated Electronic Modules
    typeJournal Paper
    journal volume125
    journal issue3
    journal titleJournal of Electronic Packaging
    identifier doi10.1115/1.1602478
    journal fristpage362
    journal lastpage368
    identifier eissn1043-7398
    keywordsFlow (Dynamics)
    keywordsHeat transfer
    keywordsVortices
    keywordsGenerators
    keywordsHeat transfer coefficients
    keywordsMass transfer
    keywordsChannels (Hydraulic engineering) AND Heat
    treeJournal of Electronic Packaging:;2003:;volume( 125 ):;issue: 003
    contenttypeFulltext
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