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| تعداد مشاهده مقاله | 11,978,948 |
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Fluid Flow and Heat Transfer of Nanofluids over a Flat Plate with Conjugate Heat Transfer | ||
| Challenges in Nano and Micro Scale Science and Technology | ||
| مقاله 3، دوره 2، شماره 2، مهر 2014، صفحه 108-117 اصل مقاله (364.91 K) | ||
| نوع مقاله: Original Research Paper | ||
| شناسه دیجیتال (DOI): 10.7508/tpnms.2014.02.003 | ||
| نویسندگان | ||
| A. Malvandi* 1؛ F. Hedayati2؛ D.D. Ganji2 | ||
| 1Young Researchers and Elite Club, Karaj Branch, Islamic Azad University, Karaj, I.R. Iran | ||
| 2Mechanical Engineering Department, Islamic Azad University, Sari Branch, Sari, I.R.Iran | ||
| چکیده | ||
| The falling and settling of solid particles in gases and liquids is a natural phenomenon happens in many industrial processes. This phenomenon has altered pure forced convection to a combination of heat conduction and heat convection in a flow over a plate. In this paper, the coupling of conduction (inside the plate) and forced convection of a non-homogeneous nanofluid flow (over a flat plate) is investigated, which is classified in conjugate heat transfer problems. Two-component four-equation non-homogeneous equilibrium model for convective transport in nanofluids has been applied that incorporates the effects of nanoparticle migration due to the thermophoresis Nt, Brownian motion Nb, and Lewis number Le simultaneously. Employing similarity variables, we have transformed the basic non-dimensional partial differential equations to ordinary differential ones and then solved numerically. Moreover, variation of the heat transfer and concentration rates with thermal resistance of the plate is studied in detail. Setting the lowest dependency of heat transfer rate to the thermal resistance of the plate as a goal, we have shown that for two nanofluids with similar heat transfer characteristics, the one with higher Brownian motion is desired. | ||
| کلیدواژهها | ||
| Nanofluid؛ Flat plate؛ Conjugate heat transfer؛ Thermophoresis؛ Brownian motion | ||
| مراجع | ||
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[1] H. Blasius, Grenzschichten in Flüssigkeiten mit kleiner Reibung, Z Math Phys 56 (1908) 1–37. [2] W.M. Kays, M.E. Crawford, Convective Heat and Mass Transfer, 2nd ed., McGraw-Hill, New York 1980. [3] T.L. Perelman, On conjugated problems of heat transfer, International Journal of Heat and Mass Transfer 3 (1961) 293-303. [4] A.V. Luikov, V.A. Aleksashenko, A.A. Aleksashenko, Analytical methods of solution of conjugated problems in convective heat transfer, International Journal of Heat and Mass Transfer 14 (1971) 1047-1056. [5] A.V. Luikov, Conjugate convective heat transfer problems, International Journal of Heat and Mass Transfer 17 (1974) 257-265. [6] P. Payvar, Convective heat transfer to laminar flow over a plate of finite thickness, International Journal of Heat and Mass Transfer 20 (1977) 431-433. [7] R. Karvinen, Note on conjugated heat transfer in a flat plate, Letters in Heat and Mass Transfer 5 (1978) 197-202. [8] R. Karvinen, Some new results for conjugated heat transfer in a flat plate, International Journal of Heat and Mass Transfer 21 (1978) 1261-1264. [9] A. Pozzi, M. Lupo, The coupling of conduction with forced convection over a flat plate, International Journal of Heat and Mass Transfer 32 (1989) 1207-1214. [10] I. Pop, D.B. Ingham, A note on conjugate forced convection boundary-layer flow past a flat plate, International Journal of Heat and Mass Transfer 36 (1993) 3873-3876. [11] S.U.S. Choi, Enhancing thermal conductivity of fluids with nanoparticles, in Developments and Applications of Non-Newtonian Flows, D. A. Siginer and H. P. Wang, Eds., ASME 66 (1995) 99-105. [12] H. Masuda, A. Ebata, K. Teramae, N. Hishinuma ,Alteration of thermalconductivity and viscosity of liquid by dispersing ultra-fine particles, Netsu Bussei 7 (1993). [13] J. Buongiorno, Convective Transport in Nanofluids, Journal of Heat Transfer 128 (2006) 240-250. [14] A.V. Kuznetsov, D.A. Nield, Natural convective boundary-layer flow of a nanofluid past a vertical plate, International Journal of Thermal Sciences 49 (2010) 243-247. [15] M. Sheikholeslami, F. Bani Sheykholeslami, S. Khoshhal, H. Mola-Abasia, D.D. Ganji, H. Rokni, Effect of magnetic field on Cu–water nanofluid heat transfer using GMDH-type neural network, Neural Comput & Applic, (2013) 1-8. [16] M. Sheikholeslami, D.D. Ganji, Heat transfer of Cu-water nanofluid flow between parallel plates, Powder Technology 235 (2013) 873-879. [17] M. Sheikholeslami, D.D. Ganji, H.R. Ashorynejad, Investigation of squeezing unsteady nanofluid flow using ADM, Powder Technology 239 (2013) 259-265. [18] M. Sheikholeslami, M. Gorji-Bandpy, S.M. Seyyedi, D.D. Ganji, H.B. Rokni, S. Soleimani, Application of LBM in simulation of natural convection in a nanofluid filled square cavity with curve boundaries, Powder Technology 247 (2013) 87-94. [19] M. Sheikholeslami, M. Hatami, D.D. Ganji, Analytical investigation of MHD nanofluid flow in a semi-porous channel, Powder Technology 246 (2013) 327-336. [20] M. Sheikholeslami, D.D. Ganji, H.R. Ashorynejad, H.B. Rokni, Analytical investigation of Jeffery-Hamel flow with high magnetic field and nanoparticle by Adomian decomposition method, Appl. Math. Mech.-Engl. Ed 33 (2012) 25-36. [21] S. Soleimani, M. Sheikholeslami, D.D. Ganji, M. Gorji-Bandpay, Natural convection heat transfer in a nanofluid filled semi-annulus enclosure, International Communications in Heat and Mass Transfer 39 (2012) 565-574. [22] M. Sheikholeslami, M. Gorji-Bandpy, D.D. Ganji, S. Soleimani, Natural convection heat transfer in a cavity with sinusoidal wall filled with CuO–water nanofluid in presence of magnetic field, Journal of the Taiwan Institute of Chemical Engineers. [23] M. Sheikholeslami, M. Gorji-Bandpay, D.D. Ganji, Magnetic field effects on natural convection around a horizontal circular cylinder inside a square enclosure filled with nanofluid, International Communications in Heat and Mass Transfer 39 (2012) 978-986. [24] M. Sheikholeslami, M. Gorji-Bandpy, D.D. Ganji, S. Soleimani, S.M. Seyyedi, Natural convection of nanofluids in an enclosure between a circular and a sinusoidal cylinder in the presence of magnetic field, International Communications in Heat and Mass Transfer 39 (2012) 1435-1443. [25] M. Hassani, M. Mohammad Tabar, H. Nemati, G. Domairry, F. Noori, An analytical solution for boundary layer flow of a nanofluid past a stretching sheet, International Journal of Thermal Sciences 50 (2011) 2256-2263. [26] A. Malvandi, F. Hedayati, G. Domairry, Stagnation Point Flow of a Nanofluid toward an Exponentially Stretching Sheet with Nonuniform Heat Generation/Absorption, Journal of Thermodynamics 2013 (2013) 12.
[27] H.R. Ashorynejad, M. Sheikholeslami, I. Pop, D.D. Ganji, Nanofluid flow and heat transfer due to a stretching cylinder in the presence of magnetic field, Heat Mass Transfer 49 (2013) 427-436.
[28] M. Hatami, R. Nouri, D.D. Ganji, Forced convection analysis for MHD Al2O3–water nanofluid flow over a horizontal plate, Journal of Molecular Liquids 187 (2013) 294-301.
[29] A. Malvandi, The Unsteady Flow of a Nanofluid in the Stagnation Point Region of a Time-dependent Rotating Sphere, Thermal Science (2013).
[30] M. Alinia, D.D. Ganji, M. Gorji-Bandpy, 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 (2011) 1428-1435.
[31] A. Bejan, Convection heat transfer, Wiley, Hoboken, N.J 2004.
[32] M.M. MacDevette, T.G. Myers, B. Wetton, Boundary layer analysis and heat transfer of a nanofluid, Microfluid Nanofluid (2014) 1-12. | ||
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