Applied Mathematics and Mechanics >
Influence of magnetic field and thermal radiation by natural convection past vertical cone subjected to variable surface heat flux
Received date: 2011-10-29
Revised date: 2012-01-04
Online published: 2012-05-10
G. PALANI;K.Y.KIM . Influence of magnetic field and thermal radiation by natural convection past vertical cone subjected to variable surface heat flux[J]. Applied Mathematics and Mechanics, 2012 , 33(5) : 605 -620 . DOI: 10.1007/s10483-012-1574-7
[1] Merk, H. J. and Prins, J. A. Thermal convection laminar boundary layer I. Appl. Sci. Res., 4,11-24 (1954)
[2] Merk, H. J. and Prins, J. A. Thermal convection laminar boundary layer II. Appl. Sci. Res., 4,195-206 (1954)
[3] Alamgir, M. Overall heat transfer from vertical cones in laminar free convection: an approximatemethod. ASME Journal of Heat Transfer, 101, 174-176 (1989)
[4] Pop, I. and Takhar, H. S. Compressibility effects in laminar free convection from a vertical cone.Appl. Sci. Res., 48, 71-82 (1991)
[5] Pop, I., Grosan, T., and Kumar, M. Mixed convection along a vertical cone for fluids of anyPrandtl number case of constant wall temperature. International Journal of Numerical Methodsfor Heat Fluid Flow, 13, 815-829 (2003)
[6] Takhar, H. S., Chamkha, A. J., and Nath, G. Effect of thermo-physical quantities on the naturalconvection flow of gases over a vertical cone. Int. J. Eng. Sci., 42, 243-256 (2004)
[7] Lin, F. N. Laminar convection from a vertical cone with uniform surface heat flux. Letters in HeatMass Transfer, 3, 49-58 (1976)
[8] Na, T. Y. and Chiou, J. P. Laminar natural convection over a frustum of a cone. Appl. Sci. Res.,35, 409-421 (1979)
[9] Gorla, R. S. R., Krishnan, V., and Pop, I. Natural convection flow of a power-law fluid over avertical frustum of a cone under uniform heat flux conditions. Mech. Res. Comm., 21, 139-146(1994)
[10] Kumari, M. and Pop, I. Free convection over a vertical rotating cone with constant wall heat flux.Int. J. Appl. Mech. Engg., 3, 451-464 (1998)
[11] Hossain, M. A., Paul, S. C., and Mandal, A. C. Natural convection flow along a vertical circularcone with uniform surface temperature and surface heat flux in a thermally stratified medium.International Journal of Numerical Methods for Heat Fluid Flow, 12, 290-305 (2002)
[12] Bapuji, P. J., Ekambavannan, K., and Pop I. Transient laminar free convection from a verticalcone with non-uniform surface heat flux. Studia Mathematica, 1, 75-99 (2008)
[13] Sparrow, E. M. and Cess, R. D. The effect of a magnetic field on free convection heat transfer.International Journal of Heat and Mass Transfer, 3(4), 267-274 (1961)
[14] Cess, R. D. The interaction of thermal radiation with free convection heat transfer. InternationalJournal of Heat and Mass Transfer, 9(11), 1269-1277 (1966)
[15] Kumari, M. and Nath, G. Development of two dimensional boundary layer with an applied magneticfield due to an impulsive motion. Indian J. Pure Appl. Math., 30, 695-708 (1999)
[16] Takhar, H. S., Chamkha, A. J., and Nath, G. Unsteady mixed convection flow from a rotatingvertical cone with magnetic field. Heat and Mass Transfer, 39, 297-304 (2003)
[17] Ozturk, A. Unsteady laminar mixed convection about a spinning sphere with a magnetic field.Heat and Mass Transfer, 41, 864-874 (2005)
[18] Chamkha, A. J. and Al-Mudhaf, A. Unsteady heat and mass transfer from a rotating vertical conewith a magnetic field and heat generation or absorption effects. Int. J. Therm. Sci., 44, 267-276(2005)
[19] Mehmet, C. E. Free convection flow about a vertical spinning cone under a magnetic field. AppliedMathematics and Computation, 179, 231-242 (2006)
[20] Soundalgekar, V. M. and Takhar, H. S. Radiation effects on free convection flow past a semi-infinitevertical plate. Modelling Measurement and Control, 51, 31-40 (1993)
[21] Hossain, M. A. and Takhar, H. S. Radiation effects on mixed convection along a vertical platewith uniform surface temperature. Heat and Mass Transfer, 31, 243-248 (1996)
[22] Raptis, A. and Perdikis, C. Radiation and free convection flow past a moving plate. Int. J. Appl.Mech. Eng., 4(4), 817-821 (1999)
[23] Muthucumaraswamy, R. and Ganesan, P. Radiation effects on flow past an impulsively startedinfinite vertical plate with variable temperature. Int. J. Appl. Mech. Eng., 8(1), 125-129 (2003)
[24] Raptis, A. and Massalas, C. V. Magnetohydrodynamic flow past a plate by the presence of radiation.Heat and Mass Transfer, 34, 107-109 (1998)
[25] Yih, K. A. Radiation effects on mixed convection over an isothermal cone in porous media. Heatand Mass Transfer, 37, 53-57 (2001)
[26] Takhar, H. S., Beg, O. A., Chamkha, A. J., Filip, D., and Pop, I. Mixed radiation-convectionboundary layer flow of an optically dense fluid along a vertical flat plate in a non-Darcy porousmedium. Int. J. Appl. Mech. Eng., 8(3), 483-496 (2003)
[27] Ahmed, A. A. The effect of radiation on free convective flow and mass transfer past a verticalisothermal cone surface with chemical reaction in the presence of a transverse magnetic field. Can.J. Physics, 82, 447-458 (2004)
[28] Beg, O. A., Zueco, J., Takhar, H. S., and Beg, T. A. Network numerical simulation of impulsivelystartedtransient radiation-convection heat and mass transfer in a saturated darcy-forchheimerporous medium. Nonlinear Analysis: Modelling and Control, 13(3), 281-303 (2008)
[29] Abd El-Naby, M. A., Elbarbary, E. M. E., and AbdElazem, N. Y. Finite difference solutionof radiation effects on MHD unsteady free-convection flow over vertical porous plate. AppliedMathematics and Computation, 151, 327-346 (2004)
[30] Roming, M. F. The influence of electric and magnetic fields on heat transfer to electrically conductingfluid. Advances in Heat Transfer, 1, 267-354 (1964)
[31] Brewester, M. Q. Thermal Radiative Transfer and Properties, John Wiley and Sons, New York(1992)
[32] Carnahan, B., Luther, H. A., and Wilkes, J. O. Applied Numerical Methods, John Wiley and Sons,New York (1969)
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