S. Baag scite author profile

An attempt has been made to study the heat and mass transfer effect in a boundary layer flow of an electrically conducting viscous fluid subject to transverse magnetic field past over a moving vertical plate through porous medium in the presence of heat source and chemical reaction. The governing non-linear partial differential equations have been transformed into a two-point boundary value problem using similarity variables and then solved numerically by fourth order RungeKutta fourth order method with shooting technique. Graphical results are discussed for nondimensional velocity, temperature and concentration profiles while numerical values of the skin friction, Nusselt number and Sherwood number are presented in tabular form for various values of parameters controlling the flow system. ª 2015 Production and hosting by Elsevier B.V. on behalf of Faculty of Engineering, Alexandria University. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/ licenses/by-nc-nd/4.0/).

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Chemical reaction and Soret effects on hydromagnetic micropolar fluid along a stretching sheet

Mishra

Baag

Mohapatra

2016

Engineering Science and Technology, an International Journal

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Numerical investigation on MHD micropolar fluid flow toward a stagnation point on a vertical surface with heat source and chemical reaction

Baag¹,

Mishra

Dash

et al. 2017

Journal of King Saud University - Engineering Sciences

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In this paper, the steady magnetohydrodynamic (MHD) mixed convection stagnation point flow of an incompressible and electrically conducting micropolar fluid past a vertical flat plate is investigated. The effects of induced magnetic field, heat generation/absorption and chemical reaction have been taken into account during the present study. Numerical solutions are obtained by using the Runge-Kutta fourth order scheme with shooting technique. The skin friction and rate of heat and mass transfer at the bounding surface are also calculated. The generality of the present study is assured of by discussing the works of Ramachandran et al. (1988), Lok et al. (2005 and Ishak et al. (2008) as particular cases. It is interesting to note that the results of the previous authors are in good agreement with the results of the present study tabulated which is evident from the tabular values. Further, the novelty of the present analysis is to account for the effects of first order chemical reaction in a flow of reactive diffusing species in the presence of heat source/sink. The discussion of the present study takes care of both assisting and opposing flows. From the computational aspect, it is remarked that results of finite difference (Ishak et al. (2008)) and Runge-Kutta associated with shooting technique (present method) yield same numerical results with a certain degree of accuracy. It is important to note that the thermal buoyancy parameter in opposing flow acts as a controlling parameter to prevent back flow. Diffusion of lighter foreign species, suitable for initiating a destructive reaction, is a suggestive measure for reducing skin friction. ª 2014 Production and hosting by Elsevier B.V. on behalf of King Saud University.

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Dissipation effect on MHD mixed convection flow over a stretching sheet through porous medium with non-uniform heat source/sink

Bhukta

Dash

Mishra

et al. 2017

Ain Shams Engineering Journal

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S. Baag

Entropy generation analysis for viscoelastic MHD flow over a stretching sheet embedded in a porous medium

Chemical reaction effect on MHD free convective surface over a moving vertical plate through porous medium

Chemical reaction and Soret effects on hydromagnetic micropolar fluid along a stretching sheet

Numerical investigation on MHD micropolar fluid flow toward a stagnation point on a vertical surface with heat source and chemical reaction

Dissipation effect on MHD mixed convection flow over a stretching sheet through porous medium with non-uniform heat source/sink

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