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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 56, 2009 - Issue 4
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Original Articles

Effect of Brownian and Thermophoretic Diffusions of Nanoparticles on Nonequilibrium Heat Conduction in a Nanofluid Layer with Periodic Heat Flux

Yuwen Zhang Department of Mechanical and Aerospace Engineering, University of Missouri, Columbia, Missouri, USACorrespondence[email protected]
,
Ling Li College of Power Engineering, University of Shanghai for Science and Technology, Shanghai, People's Republic of China
,
H. B. Ma Department of Mechanical and Aerospace Engineering, University of Missouri, Columbia, Missouri, USA
&
Mo Yang College of Power Engineering, University of Shanghai for Science and Technology, Shanghai, People's Republic of China
Pages 325-341 | Received 10 Feb 2009, Accepted 17 Jun 2009, Published online: 09 Sep 2009

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K. Narrein, S. Sivasankaran & P. Ganesan. (2015) Two-Phase Analysis of A Helical Microchannel Heat Sink Using Nanofluids. Numerical Heat Transfer, Part A: Applications 68:11, pages 1266-1279.
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Amin Kazemi-Beydokhti, Hamed Azizi Namaghi & Saeed Zeinali Heris. (2013) Identification of the Key Variables on Thermal Conductivity of CuO Nanofluid by a Fractional Factorial Design Approach. Numerical Heat Transfer, Part B: Fundamentals 64:6, pages 480-495.
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M. Rahimi-Esbo, A.A. Ranjbar, A. Ramiar, M. Rahgoshay & A. Arya. (2012) Numerical Study of the Turbulent Forced Convection Jet Flow of Nanofluid in a Converging Duct. Numerical Heat Transfer, Part A: Applications 62:1, pages 60-79.
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Tien-Mo Shih, Martinus Arie & Derrick Ko. (2011) Literature Survey of Numerical Heat Transfer (2000–2009): Part II. Numerical Heat Transfer, Part A: Applications 60:11-12, pages 883-1096.
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S.P. Anjali Devi & S. Mekala. (2019) Role of Brownian Motion and Thermophoresis Effects on Hydromagnetic Flow of Nanofluid Over a Nonlinearly Stretching Sheet with Slip Effects and Solar Radiation. International Journal of Applied Mechanics and Engineering 24:3, pages 489-508.
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Mehdi Bahiraei. (2016) Particle migration in nanofluids: A critical review. International Journal of Thermal Sciences 109, pages 90-113.
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Fakhri Yousefi, Somayeh Mohammadiyan & Hajir Karimi. (2015) Application of artificial neural network and PCA to predict the thermal conductivities of nanofluids. Heat and Mass Transfer 52:10, pages 2141-2154.
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Seyed Alborz Manavi, Abas Ramiar & Ali Akbar Ranjbar. (2013) Turbulent forced convection of nanofluid in a wavy channel using two phase model. Heat and Mass Transfer 50:5, pages 661-671.
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C.S. Oon, Hussein Togun, S.N. Kazi, A. Badarudin & E. Sadeghinezhad. (2013) Computational simulation of heat transfer to separation fluid flow in an annular passage. International Communications in Heat and Mass Transfer 46, pages 92-96.
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C.S. Oon, Hussein Togun, S.N. Kazi, A. Badarudin, M.N.M. Zubir & E. Sadeghinezhad. (2012) Numerical simulation of heat transfer to separation air flow in an annular pipe. International Communications in Heat and Mass Transfer 39:8, pages 1176-1180.
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K.Y. Leong, R. Saidur, T.M.I. Mahlia & Y.H. Yau. (2012) Entropy generation analysis of nanofluid flow in a circular tube subjected to constant wall temperature. International Communications in Heat and Mass Transfer 39:8, pages 1169-1175.
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Rehena Nasrin, M.A. Alim & Ali J. Chamkha. (2012) Combined convection flow in triangular wavy chamber filled with water–CuO nanofluid: Effect of viscosity models. International Communications in Heat and Mass Transfer 39:8, pages 1226-1236.
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M. Rahimi-Esbo, A.A. Ranjbar, A. Ramiar, A. Arya & M. Rahgoshay. (2012) Numerical study of turbulent forced convection jet flow in a converging sinusoidal channel. International Journal of Thermal Sciences 59, pages 176-185.
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K.Y. Leong, R. Saidur, M. Khairulmaini, Z. Michael & A. Kamyar. (2012) Heat transfer and entropy analysis of three different types of heat exchangers operated with nanofluids. International Communications in Heat and Mass Transfer 39:6, pages 838-843.
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Zi-Tao Yu, Xu Xu, Ya-Cai Hu, Li-Wu Fan & Ke-Fa Cen. (2012) A numerical investigation of transient natural convection heat transfer of aqueous nanofluids in a horizontal concentric annulus. International Journal of Heat and Mass Transfer 55:4, pages 1141-1148.
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M.A. Ahmed, N.H. Shuaib, M.Z. Yusoff & A.H. Al-Falahi. (2011) Numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid. International Communications in Heat and Mass Transfer 38:10, pages 1368-1375.
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Mahmoud Reza Khadangi Mahrood, Seyed Gholamreza Etemad & Rouhollah Bagheri. (2011) Free convection heat transfer of non Newtonian nanofluids under constant heat flux condition. International Communications in Heat and Mass Transfer 38:10, pages 1449-1454.
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M. Alinia, D.D. Ganji & M. Gorji-Bandpy. (2011) Numerical study of mixed convection in an inclined two sided lid driven cavity filled with nanofluid using two-phase mixture model. International Communications in Heat and Mass Transfer 38:10, pages 1428-1435.
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Mostafa Keshavarz Moraveji, Mehdi Darabi, Seyyed Mohammad Hossein Haddad & Reza Davarnejad. (2011) Modeling of convective heat transfer of a nanofluid in the developing region of tube flow with computational fluid dynamics. International Communications in Heat and Mass Transfer 38:9, pages 1291-1295.
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Ching-Yang Cheng. (2011) Double diffusion from a horizontal cylinder of elliptic cross section with uniform wall heat and mass fluxes in a porous medium. International Communications in Heat and Mass Transfer 38:9, pages 1201-1205.
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Mina Shahi, Amir Houshang Mahmoudi & Abbas Honarbakhsh Raouf. (2011) Entropy generation due to natural convection cooling of a nanofluid. International Communications in Heat and Mass Transfer 38:7, pages 972-983.
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Zi-Tao Yu, Wei Wang, Xu Xu, Li-Wu Fan, Ya-Cai Hu & Ke-Fa Cen. (2011) A numerical investigation of transient natural convection heat transfer of aqueous nanofluids in a differentially heated square cavity. International Communications in Heat and Mass Transfer 38:5, pages 585-589.
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S.M. Aminossadati & B. Ghasemi. (2011) Natural convection of water–CuO nanofluid in a cavity with two pairs of heat source–sink. International Communications in Heat and Mass Transfer 38:5, pages 672-678.
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Yue-Tzu Yang & Feng-Hsiang Lai. (2011) Numerical study of flow and heat transfer characteristics of alumina-water nanofluids in a microchannel using the lattice Boltzmann method. International Communications in Heat and Mass Transfer 38:5, pages 607-614.
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M. Hojjat, S.Gh. Etemad, R. Bagheri & J. Thibault. (2011) Thermal conductivity of non-Newtonian nanofluids: Experimental data and modeling using neural network. International Journal of Heat and Mass Transfer 54:5-6, pages 1017-1023.
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