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Information Journal Paper

Title

NUMERICAL SIMULATION OF FORCED CONVECTION OF NANOFLUIDS BY A TWO-COMPONENT NONHOMOGENEOUS MODEL

Author(s)

HEYHAT M.M. | KOUSARI F.

Pages

  89-99

Abstract

NANOFLUIDS, in which nano-sized particles (typically less than 100 nm) are suspended in liquids, have emerged as a possible effective way of improving the heat transfer performance of common fluids. In this paper a numerical study is performed to analyze the wall shear stress and heat transfer coefficient of gAl2O3-water NANOFLUIDS under laminar forced convection through a circular pipe. It is assumed that the distribution of nanoparticles in the flow field is nonhomogeneous. The results obtained show that addition of gAl2O3 nanoparticles to pure water effectively enhances the convective heat transfer. Moreover, the wall shear stresses are increased. The increasing rate of heat transfer depends on the volume concentration such that for the lowest and highest values of particle volume concentration 0.03 and 0.05, considered in this study, the HEAT TRANSFER ENHANCEMENT is approximately 23% and 40%, respectively. Also, compared with the available experimental data, the model used in this work is capable to predict the increasing rate of heat transfer of NANOFLUIDS properly.

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    APA: Copy

    HEYHAT, M.M., & KOUSARI, F.. (2010). NUMERICAL SIMULATION OF FORCED CONVECTION OF NANOFLUIDS BY A TWO-COMPONENT NONHOMOGENEOUS MODEL. INTERNATIONAL JOURNAL OF ENGINEERING, 23(1 (TRANSACTIONS A: BASICS)), 89-99. SID. https://sid.ir/paper/574787/en

    Vancouver: Copy

    HEYHAT M.M., KOUSARI F.. NUMERICAL SIMULATION OF FORCED CONVECTION OF NANOFLUIDS BY A TWO-COMPONENT NONHOMOGENEOUS MODEL. INTERNATIONAL JOURNAL OF ENGINEERING[Internet]. 2010;23(1 (TRANSACTIONS A: BASICS)):89-99. Available from: https://sid.ir/paper/574787/en

    IEEE: Copy

    M.M. HEYHAT, and F. KOUSARI, “NUMERICAL SIMULATION OF FORCED CONVECTION OF NANOFLUIDS BY A TWO-COMPONENT NONHOMOGENEOUS MODEL,” INTERNATIONAL JOURNAL OF ENGINEERING, vol. 23, no. 1 (TRANSACTIONS A: BASICS), pp. 89–99, 2010, [Online]. Available: https://sid.ir/paper/574787/en

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