INTERNATIONAL JOURNAL OF COMPUTER SCIENCE AND MATHEMATICAL THEORY (IJCSMT )

E-ISSN 2545-5699
P-ISSN 2695-1924
VOL. 9 NO. 2 2023


Energy and Specie Transfer of Oscillatory MHD Convection AgWater Nanofluid through an Inclined Permeable Channel

Achogo Wisdom Hezekiah(PhD) & Offor Temple Daniel(PhD)


Abstract


Energy and Specie Transfer of oscillatory MHD convection of Ag-Water nanofluid is examined over an inclined porous channel. Coupled partial differential equations were obtained for the momentum and temperature in view of the problem. These equations were analytically solved. The equations were converted to ordinary differential equations through a one term perturbation technique. The exact solutions for the ordinary differential equations were obtained and plotted to ascertain the effects of parameters variations on the velocity and temperature profiles. The effects of parameters variations were noted from the plots. It noted that increasing the magnetic field parameter and solutal Grashof number reduces and increases the velocity of the nanofluid respectively. Increase in the thermal radiation reduces the temperature while increase in the Peclet number correspondingly increases the temperature of the nanofluid.


keywords:

Natural Convection, Porosity, Magnetohydrodynamics, Nanofluid


References:


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nanofluid containing different shapes of nanoparticles in a channel filled with saturated
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Achogo W. H. & Adikabu I. N.(2020). Mutual influences of heat and mass transfer on
mhd flow through a channel with periodic wall concentration and temperature.
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Achogo W. H., Okereke I. C. Ofomata A. I. & Amadi O. F.(2020) .Magnetohydrodynamic
convective periodic flow through a porous medium in an inclined channel with thermal
radiation and chemical reaction. International Journal of Innovative Science and
Research Technology,5(1):1129-1139


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