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Heat Transfer Research
CHEMICALLY REACTIVE HYDROMAGNETIC FLOW OVER A STRETCHABLE OSCILLATORY ROTATING DISK WITH THERMAL RADIATION AND HEAT SOURCE/SINK: A NUMERICAL STUDY
Department of Mathematics, The Islamia University of Bahawalpur, Bahawalpur, 63100,
Pakistan; Department of Mathematics, COMSATS University Islamabad, Sahiwal Campus 57000,
Department of Mathematics, The Islamia University of Bahawalpur, Bahawalpur 63100, Pakistan
Sabir Ali Shehzad
Department of Mathematics, COMSATS University Islamabad, Sahiwal 57000, Pakistan
A numerical exploration of unsteady oscillatory three-dimensional magnetohydrodynamic (MHD) flow of a viscous liquid over rotating oscillatory disk is presented. The disk stretches in the radial direction with time-based sinusoidal oscillations. Adaptation of thermal radiation with the heat source/sink is made in the energy equation while the mass equation incorporates the impacts of a chemical reaction parameter. The normalized system of partial differential equations is obtained by implementing similarity transformations. Such system of equations is solved then by the finite difference scheme and successive overrelaxation (SOR) method. The analysis is presented to study the effects of dimensionless parameters appearing in the governing equations. The results are presented in the forms of graphs and tables. It is scrutinized that the increase in the magnetic parameter falls off the flow amplitude. The fluid temperature increased with the passage of time for enhancement in radiation parameter. The increase in the Sherwood number is observed for enhanced unsteady parameter and Schmidt number.
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Hayat, T., Waqas, M., Shehzad, S.A., and Alsaedi, A. Chemically Reactive Flow of Third Grade Fluid by an Exponentially Convected Stretching Sheet, J. Mol. Liq, vol. 223, pp. 853-860, 2016.
Hussain, S.M., Jain, J., Seth, G.S., and Rashidi, M.M., Free Convective Heat Transfer with Hall Effects, Heat Absorption and Chemical Reaction over an Accelerated Moving Plate in a Rotating System, J. Magnet. Magnet. Mater., vol. 422, pp. 112-123, 2017.
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Kumar, R., Sood, S., Sheikholeslami, M., and Shehzad, S.A., Nonlinear Thermal Radiation and Cubic Autocatalysis Chemical Reaction Effects on the Flow of Stretched Nanofluid under Rotational Oscillations, J. Colloid Interface Sci., vol. 505, pp. 253-265, 2017.
Mahanthesh, B., Gireesha, B.J., and Athira, P.R., Radiated Flow of Chemically Reacting Nanoliquid with an Induced Magnetic Field across a Permeable Vertical Plate, Results Phys., vol. 7, pp. 2375-2383, 2017.
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Ramesh, G.K., Prasannakumara, B.C., Gireesha, B.J., Shehzad, S.A., and Abbasi, F.M., Three Dimensional Flow of Maxwell Fluid with Suspended Nanoparticles past a Bidirectional Porous Stretching Surface with Thermal Radiation, Therm. Sci. Eng. Prog., vol. 1, pp. 6-14, 2017.
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Rashidi, M.M., Hayat, T., Erfani, E., Pour, S.A.M., and Hendi, A.A., Simultaneous Effects of Partial Slip and Thermal-Diffusion and Diffusion-Thermo on Steady MHD Convective Flow due to a Rotating Disk, Commun. Nonlinear Sci. Numer. Simulat, vol. 16, no. 11, pp. 4303-4317, 2011.
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Rauf, A., Siddiq, M.K., Abbasi, F.M., Meraj, M.A., Ashraf, M., and Shehzad S.A., Influence of Convective Conditions on Three-Dimensional Mixed Convective Hydromagnetic Boundary Layer Flow of Casson Nanofluid, J. Magnet. Magnet. Mater, vol. 416, pp. 200-207, 2016.
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Sajid, M., Iqbal, S.A., Naveed, M., and Abbas, Z., Effects of Homogeneous-Heterogeneous Reactions and Magnetohydrody- namics on Fe3O4 Nanofluid for the Blasius Flow with Thermal Radiations, J. Mol. Liq., vol. 233, pp. 115-121, 2017.
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Sheikholeslami, M. and Shehzad, S.A., Thermal Radiation of Ferrofluid in Existence of Lorentz Forces considering Variable Viscosity, Int. J. Heat Mass Transf, vol. 109, pp. 82-92, 2017.
Sheikholeslami, M., Magnetic Field Influence on Nanofluid Thermal Radiation in a Cavity with Titled Elliptic Inner Cylinder, J. Mol. Liq, vol. 229, pp. 137-147, 2017.
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Turkyilmazoglu, M., Magnetohydrodynamic Two-Phase Dusty Fluid Flow and Heat Model over Deforming Isothermal Surfaces, Phys. Fluids, vol. 29, no. 1, Article ID 013302, 2017.
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