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Research on the Heat-Conduction Enhancement for Liquid with Nano-Particle Suspensions 被引量:2

Research on the Heat-Conduction Enhancement for Liquid with Nano-Particle Suspensions
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摘要 By measuring the effective thermal conductivity, taking photos of the distribution of the nano-particles in the fluids and photos that reflect the interfacial phenomena between nano-particles and fluids, we try to explain the possible mechanism for heat conductive enhancement. By measuring the effective thermal conductivity, taking photos of the distribution of the nano-particles in the fluids and photos that reflect the interfacial phenomena between nano-particles and fluids, we try to explain the possible mechanism for heat conductive enhancement.
作者 B.X.Wang H.Li X.F.Peng
出处 《Journal of Thermal Science》 SCIE EI CAS CSCD 2002年第3期214-219,共6页 热科学学报(英文版)
基金 The project is financially supported by the National Nature Science Foundation of China with Grant number(No.59995550-3) Thanks also for the valuable suggestions from Prof Yuqin Gu of the Department of Engineering Mechanics, Tsinghua University and Pr
关键词 NANO-PARTICLE suspension effective thermal conductivity BROWNIAN motion AFFINITY HEAT-CONDUCTION enhancement. Nano-particle suspension effective thermal conductivity Brownian motion affinity heat-conduction enhancement
分类号 TK124 [动力工程及工程热物理—工程热物理]
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参考文献5

  • 1R. H. Davis.The effective thermal conductivity of a composite material with spherical inclusions[J].International Journal of Thermophysics.1986(3)
  • 2Lu,S,Lin,H.Effective Conductivity of CompositesContaining Aligned Spherical Inclusions of FiniteConductivity[].Journal of Applied Physics.1996
  • 3Chongming Cai.Brownian Motion[]..1992
  • 4Tiren Gu.Physical Chemistry on the Surface[]..1984
  • 5Stephen,U S Choi.Enhancing Thermal Conductivity ofFluids with Nanoparticles[]..1995

同被引文献28

  • 1C.H.Sohn,B.S.Kim,S.Y.Moon,K.I.Ahn.A Numerical Study on the Heat Transfer Enhancement Behavior of Water-Microparticles Suspension[J].Journal of Thermal Science,2002,11(2):128-133. 被引量:1
  • 2李泽梁,李俊明,胡海滔,王补宣.CuO纳米颗粒悬浮液中各组分对悬浮液稳定性及黏度的影响[J].热科学与技术,2005,4(2):157-163. 被引量:9
  • 3Kazuhisa YUKI,Jun ABEI,Hidetoshi HASHIZUME,Saburo TODA.Super-High Heat Flux Removal Using Sintered Metal Porous Media[J].Journal of Thermal Science,2005,14(3):272-280. 被引量:3
  • 4Choi S U S. Enhancing Thermal Conductivity of Fluids with Nanoparticles [R]. Energy Technology Division, Argonne National Laboratory, USA, 1995.
  • 5Masuda H, Ebata A, Teramae K, et al. Alternation of thermal conductivity and viscosity of liquid by dispersing ultra-fine particles (dispersion of γ-Al2O3, SiO2 and TiO2 ultra-fine particles) [J]. Netsu Bussei, 1993, 4:227 - 233. (in Japanese).
  • 6Eastman J A, Choi S U S, Li S, et al. Enhanced thermal conductivity through the development of nanofluids [C]// Proceedings of the Symposium on Nanophase and Nanocomposite Materials II. Boston, USA: Materials Research Society, 1997, 457: 3- 11.
  • 7Eastman J, Choi S U S, Li S, et al. Anomalously increased effective thermal conductivities of ethylene glycol-based nanofluids containing copper nanoparticles [J]. Applied Physics Letters, 2001, 78:718 - 720.
  • 8Xuan Y M, Li Q. Heat transfer enhancement of nanofluids [J]. International Journal of Heat Fluid Flow, 2000, 21: 58-64.
  • 9Chopkar M, Kumar S, Bhandari D R, et al. Development and characterization of AI2Cu and AgzA1 nanoparticle dispersed water and ethylene glycol based nanofluid [J]. Materials Science and Engineering B, 2007, 139 : 141 - 148.
  • 10Jiang W T, Ding G L, Peng H, et al. Experimental and Model Research on Nanorefrigerant Thermal Conductvity [J]. HVAC&R Research, 2003, 15(3): 651-669.

引证文献2

二级引证文献4

Journal of Thermal Science
2002年 第3期

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