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纳米流体对流传热的研究进展 被引量:5

Progress in research on convective heat transfer of nanofluids
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摘要 将纳米颗粒加入到传统换热介质中形成的纳米流体是一种新型的强化传热介质。它不仅具有较高的单相对流传热系数,而且分散稳定,不容易磨损和堵塞管道。文中综述了纳米流体在对流条件下强化传热的实验研究进展及强化传热模型,并对实验结果和强化传热的机理及模型进行了简要分析。发现:纳米流体强化对流传热的效果与颗粒和基液的属性等有关;强化传热主要是由于导热系数的增加和纳米颗粒的运动及重新分布引起的物性变化等影响。同时提出了纳米流体对流传热研究中存在及有待改进的一些问题。 Nanofluids formed by adding nanoparticles into traditional fluid is a new category of heat transfer fluid. It has higher single-phase convective heat transfer performance, excellent stability and less pipe-jam and wall-abrasion. A comprehensive review for convective heat transfer experiment and enhancement model of nanofluids were presented. The experimental results, enhancement mechanisms and model of nanofluids were analyzed. The results show that the heat transfer effect of nanofluids is concerned with the characteristics of nanoparticle and base fluid. Enhancement mechanisms mainly include the increase of thermal conductivity and the change of physical properties that is induced by the movement of nanoparticles. Some existent problems and possible research subjects for further improvement of nanofluids heat transfer were suggested and discussed.
作者 强爱红 许春建 周明
机构地区 天津大学化学工程研究所
出处 《化学工程》 EI CAS CSCD 北大核心 2007年第11期74-78,共5页 Chemical Engineering(China)
关键词 纳米流体 对流传热 强化 传热机理 模型 nanofluids convective heat transfer enhancement mechanisms of heat transfer model
分类号 TQ021.3 [化学工程] TK124 [动力工程及工程热物理—工程热物理]
  • 相关文献

参考文献25

  • 1Lee S, Choi S U S, Li S, et al. Measuring thermal conductivity of fluids containing oxide nanofluids [ J ]. Journal of Heat Transfer, 1999, 121 (2) : 280-289.
  • 2Wang X, Xu X. Thermal conductivity of nanoparticlefluid mixture [ J ]. Journal of Thermal Physics and Heat Transfer, 1999, 13(4) : 474-480.
  • 3李强,宣益民.纳米流体对流换热的实验研究[J].工程热物理学报,2002,23(6):721-723. 被引量:32
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  • 5Wen D S, Ding Y L. Experimental investigation into convection heat transfer of nanofluids at the entrance region under laminar flow conditions [ J ]. International Journal of Heat and Transfer, 2004,47 ( 2-4 ) : 5181-5188.
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  • 8陈骁,李俊明,戴闻亭,王补宣.细圆管内纳米颗粒悬浮液强化对流换热的探讨[J].工程热物理学报,2004,25(4):643-645. 被引量:6
  • 9Yang Y, Zhang Z G, Grulke E A, et al. Heat transfer properties of nanopartiele-in-fluid dispersions (nanofluids) in laminar flow [ J]. International Journal of Heat and Mass Transfer, 2005, 48(6) : 1107-1116.
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二级参考文献14

  • 1Choi S U S. Enhancing Thermal Conductivity of Fluids with Nanoparticles, In: Springer D A, Wang H.P. Developments and Applications of Non-Newtonian Fluids.New York, ASME FED-Vol.231/MD-Vol.66, 1995. 6-12
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  • 3Lee S P, Choi S U S. Application of Metallic Nanoparticle Suspensions in Advanced Cooling Systems. In: Kwon Y,Davis D, Chung H. Recent Advances in Solids/Structures and Application of Metallic Materials. New York, ASME PVP-Vol.342/MD-Vol.72, 1996. 227-234
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  • 5Li Junming, Li Zeliang, Wang Buxuan. Experimental Experimental Viscosity Measurements for Copper Oxide Nanoparticle Suspensions. Tsinghua Science and Technology, 2002, 7(2): 198-201
  • 6Lee S, Choi S U S, Li S, et al. Measuring Thermal Conductivity of Fluids Containing Oxide Nano-particles.Journal of Heat Transfer, ASME, 1999, 121(2): 280-289
  • 7Q Li, Y Xuan. Experimental Investigation on Transport Properties of Nanofiuids. In: Wang B X. Heat Transfer Science and Technology 2000. Beijing: High Education Press, 2000. 757-762
  • 8Bock Choon Pak, Young I Cho. Hydrodynamic and Heat Transfer Study of Dispersed Fluids with Submicron Metallic Oxide Particles. Experimental Heat Transfer, 1998, 11:151-170
  • 9Xuan Y, W Roetzel. Conceptions for Heat Transfer Cor relation of Nanofluids. Int. J. of Heat and Mass Transfer, 2000, 43:3701-3707
  • 10U S Choi.Enhancement Thermal Conductivity of Fluids with Nanoparticles[].Developments and Applications of Non-newtonian Flows ASME.1995

共引文献39

同被引文献74

引证文献5

二级引证文献14

化学工程
2007年 第11期

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