Hall Effects on MHD Convective Flow Through a Porous
Medium Between Two Vertical Plates in Slip Flow Regime
Volume 3 - Issue 2
VeeraKrishna M1*, Subba Reddy G1 and Ali J Chamkha2,3
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- 1Department of Mathematics, Rayalaseema University, India
- 2Department of Mechanical Engineering, Prince Mohammad Bin Fahd University, Kingdom of Saudi Arabia
- 3RAK Research and Innovation Center, American University of Ras Al Khaimah, United Arab Emirates
*Corresponding author:
VeeraKrishna M, Department of Mathematics, Rayalaseema University, India
Received: November 21, 2019; Published: December 11, 2019
DOI: 10.32474/MAOPS.2019.03.000158
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Abstract
In this paper, a probe on the impact of Hall effects on the flow of an oscillatory convective MHD viscous, incompressible, radiating
and electrically conducting second-grade fluid in a vertical porous rotating channel in a slip flow regime is carried out. The fluid is
assumed to be gray, absorbing and emitting radiation in a non-scattering medium. It is presupposed that MHD flow is laminar and
fully developed. In order to use the regular perturbation technique, the solutions of velocity and temperature distributions for the
governing flow are obtained. The profiles of velocity and temperature are presented graphically. On the other hand, the skin friction
coefficient and the Nusselt number are evaluated numerically and presented in the form of tables, examined and discussed for
various values of the flow parameters that govern it.
Keywords: Hall effect; radiating fluid; MHD oscillatory flow; rotating channel; slip flow regime
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Formulation and Solution of the Problem|
Results and Discussions|
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