Impact of nanoparticle shape on thermohydraulic performance of a nanofluid in an enhanced microchannel heat sink for utilization in cooling of electronic components  

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作  者:Mehdi Bahiraei Ali Monavari 

机构地区:[1]Institute of Research and Development,Duy Tan University,Da Nang 550000,Vietnam [2]Department of Mechanical Engineering,Razi University,Kermanshah,Iran

出  处:《Chinese Journal of Chemical Engineering》2021年第12期36-47,共12页中国化学工程学报(英文版)

摘  要:In this article,the thermal–hydraulic efficacy of a boehmite nanofluid with various particle shapes is evaluated inside a microchannel heat sink.The study is done for particle shapes of platelet,cylinder,blade,brick,and oblate spheroid at Reynolds numbers(Re)of 300,800,1300,and 1800.The particle volume fraction is assumed invariant for all of the nanoparticle shapes.The heat transfer coefficient(h),flow irregularities,pressure loss,and pumping power heighten by the elevation of the Re for all of the nanoparticle shapes.Also,the nanofluid having the platelet-shaped nanoparticles leads to the greatest h,and the nanofluid having the oblate spheroid particles has the lowest h and smallest pressure loss.In contrast,the nanofluid having the platelet-shaped nanoparticles leads to the highest pressure loss.The mean temperature of the bottom surface,thermal resistance,and temperature distribution uniformity decrease by the rise in the Reynolds number for all of the particle shapes.Also,the best distribution of the temperature and the lowest thermal resistance are observed for the suspension containing the platelet particles.Thereby,the thermal resistance of the nanofluid with the platelet particles shows a 9.5%decrement compared to that with the oblate spheroid particles at Re=300.For all the nanoparticle shapes,the figure of merit(FoM)uplifts by elevating the Re,while the nanofluids containing the brickand oblate spheroid-shaped nanoparticles demonstrate the highest FoM values.

关 键 词:NANOFLUID Thermohydraulic performance Nanoparticle shape Microchannel heat sink Boehmite nanoparticles 

分 类 号:TN03[电子电信—物理电子学] TK124[动力工程及工程热物理—工程热物理] TB383.1[动力工程及工程热物理—热能工程]

 

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