S
S. Baag
Researcher at Orissa University of Agriculture and Technology
Publications - 12
Citations - 189
S. Baag is an academic researcher from Orissa University of Agriculture and Technology. The author has contributed to research in topics: Magnetohydrodynamics & Porous medium. The author has an hindex of 5, co-authored 9 publications receiving 129 citations.
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Entropy generation analysis for viscoelastic MHD flow over a stretching sheet embedded in a porous medium
TL;DR: In this article, the second law of thermodynamics is applied to magnetohydrodynamic flow, heat and mass transfer of an electrically conducting viscoelastic liquid (Walters B ) past on a stretching surface, taking into account the effects of Joule dissipation, viscous dissipation and Darcy dissipation.
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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
TL;DR: In this article, the effects of induced magnetic field, heat generation/absorption and chemical reaction have been taken into account during the present study, and numerical solutions are obtained by using the Runge-Kutta fourth order scheme with shooting technique.
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Dissipation effect on MHD mixed convection flow over a stretching sheet through porous medium with non-uniform heat source/sink
TL;DR: In this article, the authors investigated the dissipative effect on magnetohydrodynamic mixed convective unsteady flow of an electrically conducting fluid over a stretching sheet embedded in a porous medium subject to transverse magnetic field in the presence of non-uniform heat source/sink.
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Numerical treatment of time dependent magnetohydrodynamic nanofluid flow of mass and heat transport subject to chemical reaction and heat source
Yun-Xiang Li,Satyaranjan Mishra,P. K. Pattnaik,S. Baag,Yong-Min Li,M. Ijaz Khan,Niaz B. Khan,M. Kbiri Alaoui,Sami Ullah Khan +8 more
TL;DR: In this paper, a free convection of electrically conducting nanofluid embedding with resistive forces such that the magnetic field and permeability of the medium is augmented by radiative heat energy and absorption diffusion.
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MHD flow of a visco-elastic fluid through a porous medium between infinite parallel plates with time dependent suction
TL;DR: In this paper, the effect of viscoelastic property of the fluid (Walters B′ model) on the flow and heat transfer phenomena when the flow is permeated through a porous medium with uniform porous matrix subject to transverse magnetic field and time dependent fluctuative suction at the boundary surface is investigated.