ORIGINAL PAPER
Heat Transfer Effects on Free Convection of Viscous Dissipative Fluid Flow Over an Inclined Plate with Thermal Radiation in the Presence of Induced Magnetic Field
 
More details
Hide details
1
Department of Mathematics, B V Raju Institute of Technology, Narsapur, Telangana, 502313, India
 
2
Department of Mathematics, GITAM University Hyderabad, Telangana, 502329, India
 
3
Department of Mathematics, CMR Technical Campus Kandlakoya, Telangana, 501401, India
 
 
Online publication date: 2021-01-29
 
 
Publication date: 2021-03-01
 
 
International Journal of Applied Mechanics and Engineering 2021;26(1):122-134
 
KEYWORDS
ABSTRACT
The principal objective of the present paper is to know the reaction of thermal radiation and the effects of magnetic fields on a viscous dissipative free convection fluid flow past an inclined infinite plate in the presence of an induced magnetic field. The Galerkin finite element technique is applied to solve the nonlinear coupled partial differential equations and effects of thermal radiation and other physical and flow parameters on velocity, induced magnetic field, along with temperature profiles are explained through graphs. It is noticed that as the thermal radiation increases velocity and temperature profiles decrease and the induced magnetic field profiles increases.
REFERENCES (24)
1.
Chen CH. (2004): Transfer of mass and heat of natural convection through a porous in a MHD flow in an inclined surface with variable concentration and temperature.– Acta Mechanica, vol.172, pp.219-235.
 
2.
Pop I. and Soundalgekar V.M. (1980): Free convection flow of a fluid through an accelerated infinite plate.– Z. Angew. Math. Mech., vol.60, pp.167-168.
 
3.
England W.G. And Emery A.F. (1969): Thermal radiation effects on laminar convection free boundary layer of an heat absorbing gas.– Journal of Heat Transfer, vol.91, pp.37-44.
 
4.
Raptis A.A. and Soundalgekar V.M. (1982): Hydro magnetic fluid flow passing through a constant infinite vertical porous plate with heat flux.– Nuclear Engineering and Design, vol.72, pp.373-379, DOI: 10.1016/0029-5493(82)90050-4.
 
5.
Raptis A.A., Singh A.K. and Rai K.D. (1987): Unsteady flow of a free convective fluid past through a semi infinite plate using finite difference scheme.– Mer. Res. Comm., vol.14, pp.9-16.
 
6.
Rashidi M.M, Momoniat E. and Rostami. B (2012): Approximate solutions for hydro magnetic boundary layer viscoelastic flow over moving stretching surface with two auxiliary parameters.– Journal Applied Math., vol.2012, Article ID 780415, https://doi.org/10.1155/2012/7....
 
7.
Shafie S., Ali F., Khan I. and Samiulhaq (2013): Conjugate effects of mass transfer and heat on hydro magnetic free convection flow of a fluid over an inclined plate in a porous medium.– PLOS One, vol.8, No.6, DOI:10.1371/journal.pone.0065223.39.
 
8.
Raju K.V.S, Sudhakar Reddy T., Raju M.C., Satyanarayana P.V. and Venkataramana S. (2014): MHD free convective flow of a fluid through a porous medium in a horizontal channel with insulated impermeable bottom wall in presence of viscous dissipation and joule heating.– Aim Shams Eng. J., vol.5, No.2, pp.543-551.
 
9.
Prakash J., Vijay Kumar A.G., Kumar B.R. and S. V. K. Varma (2014): The effect of induced magnetic field and radiation on MHD free mixed convection fluid flow past through a porous vertical plate of viscous dissipation.– International Conference on Advances in Marine, Industrial and Mechanical Engineering, April 15-16, Johannesburg, South Africa.
 
10.
M.C. Raju, Varma S.V.K. and Seshaiah B. (2015): Heat transfer effects on a dissipative fluid flow past through a plate in presence of induced magnetic field.– Aims Shams Eng. Journal, vol.6, pp.333-339.
 
11.
Chamkha, A. J. (2000): Thermal radiation and buoyancy effects on MHD flow through an accelerated surface in the presence of heat.– International Journal of Engineering Science, vol.38, No.15, pp.1699-1712.
 
12.
Ahmed S. (2012): Mathematical modeling of induced magnetic field with viscous dissipation surrounded by a vertical porous plate in the presence of radiation.– International Journal of Mathematics and Mechanics, vol.8, No.1, pp.86-104.
 
13.
Ahmed S. and Tridip (2010): Thermal radiation and MHD effects on mass transfer and heat chemically reacting fluid with suction.– International Journal of Applied Mathematics, vol.23, No.5, pp.778-789.
 
14.
Raptis A. A. and Perdikis C. (1999): Radiation and free convection flow of a fluid past through a moving plate.– International Journal of Applied Mechanics and Engineering. vol.4, No.4, pp.817-821.
 
15.
Bhattacharya K., Mukhopadhya S. and Layek G.C. (2013): Similarity solutions of a mixed convective boundary layer slip flow over a flat vertical plate.– Aim Shams Eng. Journal, vol.4, No.2, pp.299-305.
 
16.
Chamkha A.J. and Khaled A. (2001): Solutions of similarity for MHD heat and mass transfer through an inclined plate with heat generation or absorption.– Heat and Mass Transfer, vol.37, pp.117-123.
 
17.
Chamkha A.J. and Issa C. (2000): Effects of heat absorption and thermophoresis on hydro magnetic flow with heat and mass transfer through a flat surface.– International Journal of Numerical Methods Fluid Heat Flow, vol.10, pp.432-448.
 
18.
Siddiqal S. and Hossian M.A. (2012): Mixed convection boundary flow over flat plate with radiative heat transfer.– Applied Mathematics, vol.3, No.7, p.12.
 
19.
Savic L.J. and Steinruck H. (2005): Mixed convection fluid flow passed through a horizontal plate.– Theory App. Mech., vol.32, No.1, pp.1-19.
 
20.
Malga B.S., Kumar P.P., Matta S. and Appidi L. (2020): The consequence of heat transfer on viscous dissipative radiating stream over a permeable medium in presence of induced magnetic field.– Int. J. Innovative Tech. and Exploring Eng. (IJITEE).
 
21.
Ram Mohan S., Bhaskarudu P., Vishwanath Reddy G. and Thajoddin S. (2017): Effect of induced magnetic field on a free viscous dissipative fluid over vertical porous plate in presence of heat source.– Int. J. of Trend and Research and Development. vol.3, ISSN: 2394-9333.
 
22.
Raptis A.A., Perdikis C. and Leontitsis A. (2003): Effect of radiation optically narrow gas over a vertical plate in presence of magnetic field.– Heat and Mass Transfer, vol.39, pp.771-773.
 
23.
Hossian M.A., Wilson M. and Husain S. (2000): Effect of difference surface temperature on natural convection flow over a flat vertical plate.– Engineering Computations vol.17, pp.789-812.
 
24.
Kumar P.P., MalgaB.S., Matta S. and Appidi L. (2020): Effect of viscous dissipation on unsteady MHD free convection mass transfer flow of polar fluid over a vertical porous plate in presence of thermal diffusion and heat source.– International Journal of Advanced Science and Technology vol.29, No.5, pp.10507-10519.
 
eISSN:2353-9003
ISSN:1734-4492
Journals System - logo
Scroll to top