A. Arutchelvi scite author profile

This computational work explores the heat and mass transfer of copper water nanofluid flowing along an inclined plate with varying surface temperature and concentration in the presence of a magnetic field and radiation through a permeable medium. The dimensionless governing equations are solved numerically using an efficient finite-difference technique, which is fast convergent and unconditionally stable. The findings are reviewed and illustrated through graphs for pertinent parameters.

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Heat and Mass Transfer Effects on MHD Nanofluids Past Over an Inclined Plate

Palani¹,

Arutchelvi²

2018

IJET

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This paper highlights the effects of radiation and MHD nanofluid flowing over a permeable medium that undergoes chemical reaction in first order. The nanoparticles used in the study are copper, aluminium oxide, titanium oxide and silver. The governing partial differential equations are solved by Laplace transform technique. The influences of several values of the physical parameters on velocity, temperature, concentration profiles are analyzed in an extensive way. The derived findings are depicted in graphs. The numerical results are found for Skin friction coefficient, Nusselt and Sherwood numbers that are revealed in tabular form.

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A. Arutchelvi

Heat transfer effects on free convection viscous dissipation flow past an inclined plate

Radiation and Magnetohydrodynamic Effects on Convective Nanofluid Past an Inclined Plate in the Presence of a Chemical Reaction

Heat and Mass Transfer Effects on MHD Nanofluids Past Over an Inclined Plate

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