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Laminar mixed convection flow from a vertical surface with induced magnetic field and convective boundary

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The objective of this investigation is to study the influence of thermal radiation and radiation absorption parameter on a mixed convection flow over a continuously moving porous vertical plate under the action of transverse applied magnetic field taking into account the induced magnetic field with convective boundary. Under certain assumptions, the solutions for the velocity field, temperature distribution and induced magnetic field are obtained. The influences of various parameters on the velocity, temperature fields and on induced magnetic fields are studied graphically. It is also found that the dimensionless Prandtl number, Grashof number, Schmidt number and magnetic parameter have an appreciable influence on the independent variables.
Rocznik
Strony
307--326
Opis fizyczny
Biliogr. 36 poz., wykr.
Twórcy
autor
  • Department of Mathematics, University of Rajasthan Jaipur - 302004, INDIA
autor
  • Department of Mathematics, University of Rajasthan Jaipur - 302004, INDIA
autor
  • Department of Mathematics, J.N. College Madhubani Bihar 847211 INDIA
Bibliografia
  • [1] Soundalgekar V.M. (1974): Free convection effects on steady MHD flow past a vertical porous plate. – J. Fluid Mechanics, vol.66, pp.541–551.
  • [2] Soundalgekar V.M. (1975): Free convection effects on the oscillatory flow of an incompressible, electrically conducting, viscous fluid past an infinite, vertical porous plate with constant suction and the transverse magnetic field. – Zeitschrift für Angewandte Mathematik und Mechanik (ZAMM), vol.55, No.5, pp.257–267.
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  • [7] Makinde O.D. (2005): Free convection flow with thermal radiation and mass transfer past a moving vertical porous plate. – Int. Commun. Heat Mass Transfer, pp.1411–1419.
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  • [12] Chaudhary R.C. and Bhupendra K.S. (2006): Combined heat and mass transfer by laminar mixed convection flow from a vertical surface with induced magnetic field. – J. Appl. Phys., vol.99, 349.
  • [13] Md. Alom S. Rahman M.M. and Md. A. Sattar (2007): Similarity solutions for hydromagnetic free convective heat and mass transfer flow along a semi-infinite permeable inclined flat plate with heat generation and thermophoresis. – Nonlinear Analysis Modelling and Control, vol.12, No.4, pp.433-445.
  • [14] Alom M.M., Rafiqul I.M. and Rahman F. (2008): Steady heat and mass transfer by mixed convection flow from a vertical porous plate with induced magnetic field, constant heat and mass fluxes. – Thammasat. Int. J. Sc. Tech., vol.13, No.4, pp.1-13.
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  • [18] Ahmed S. (2012): Mathematical model of induced magnetic field with viscous/magnetic dissipation bounded by a porous vertical plate in the presence of radiation. – Int. J. Appl. Math. Mech., vol.8, No.1, pp.86-104.
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  • [20] Makinde O.D. and Aziz A. (2010): MHD mixed convection from a vertical plate embedded in a porous medium with a convective boundary condition. – Int. J. Therm. Sci., vol.49, pp.1813-20.
  • [21] Yao S., Fang T. and Zhong Y. (2011): Heat transfer of a generalized stretching/shrinking wall problem with convective boundary conditions. – Commun. Nonlin. Sci. Numer. Simulat., vol.16, pp.752-760.
  • [22] Sivraj R. and Rushi Kumar B. (2012): Chemically reacting dusty viscoelastic fluid flow in an irregular channel with convective boundary. – Ain Shams Engineering Journal, vol.4, pp.93-101.
  • [23] Hossain M.A. and Takhar H.S. (1996): Radiation effect on mixed convection along a vertical plate with uniform surface temperature. – J. Heat Mass Transfer, vol.31, pp.243-248.
  • [24] Raptis A. and Massalas C.V. (1998): Magnetohydrodynamic flow past a plate by the presence of radiation. – Heat Mass Transfer, vol.34, pp.107-109.
  • [25] Raptis A. and Perdikis C. (2003): Thermal radiation of an optically thin gray gas. – Int. J. Appl. Mech. Eng., vol.8, pp.131-134.
  • [26] Raptis A., Perdikis C. and Leontitsis A. (2003): Effects of radiation in an optically thin gray gas flowing past a vertical infinite plate in the presence of a magnetic field. – Heat and Mass Transfer, vol.39, pp.771-773.
  • [27] Raptis A., Perdikis C. and Takhar H.S. (2004): Effect of thermal radiation on MHD flow. – J. Appl. Math. Comput., vol.153, pp.645-649.
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  • [30] Takhar H.S., Chamkha A.J. and Nath G. (2000): Flow and mass transfer on a stretching sheet with a magnetic field and chemically reactive species. – Int. J. Engg. Sci., vol.38, 1303.
  • [31] Muthucumarswamy R. and Ganesan P. (2001): First order chemical reaction on flow past an impulsively started vertical plate with uniform heat and mass flux. – Acta Mechanica, vol.147, pp.45-57.
  • [32] Muthucumarswamy R. and Ganesan P. (2002): Effects of suction on heat and mass transfer along a moving vertical surface in the presence of chemical reaction. – Forsch. Ingenieurwes, vol.67, 129.
  • [33] Kandasamy R., Periasamy K. and Prabhu K.K.S. (2005): Chemical reaction, heat and mass transfer on MHD flow over a vertical stretching surface with heat source and thermal stratification effects. – Int. J. Heat Mass Transfer, vol.48, No.21-22, pp.4557-4561.
  • [34] Ibrahim F.S., Elaiw A.M. and Bakr A.A. (2008): Effect of the chemical reaction and radiation absorption on the unsteady MHD free convection flow past a semi-infinite vertical permeable moving plate with heat source and suction. – Commu. Nonlinear Sci. Numer. Simulat., vol.13, No.6, pp.1056-1066.
  • [35] Prakash J., Sivaraj R. and Rushi Kumar B. (2011): Influence of chemical reaction on unsteady MHD mixed convective flow over a moving vertical porous plate. – Int. J. Fluid. Mech., vol.3, pp.1-14.
  • [36] Pal D. and Talukdar B. (2011): Combined effects of Joule heating and chemical reaction on unsteady magnetohydrodynamic mixed convection of a viscous dissipating fluid over a vertical plate in porous media with thermal radiation. – Math. Comput. Model., vol.54, pp.3016-3036.
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Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a781a472-6092-48d4-9926-54577cdc824b
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