The present paper examines magnetohydrodynamic (MHD) three-dimensional (3D) flow of viscous nanoliquid in the presence of heat and mass flux conditions. A bidirectional nonlinearly stretching surface has been employed to create the flow. Heat and mass transfer attribute analyzed via thermophoresis and Brownian diffusion aspects. Viscous liquid is electrically conducted subject to applied magnetic field. Problem formulation is made through the boundary layer approximation under small magnetic Reynolds number. Appropriate transformations yield the strong nonlinear ordinary differential system. The obtained nonlinear system has been solved for the convergent homotopic solutions. Effects of different pertinent parameters with respect to temperature and concentration are sketched and discussed. The coefficients of skin friction and heat and mass transfer rates are computed numerically.

Issue Section:
Research Papers
Keywords:
Conduction, Heat and mass transfer, Heat transfer enhancement, MHD, Thermophysical properties, Two-phase flow , Heat transfer
Topics:
Boundary-value problems, Flow (Dynamics), Heat, Magnetohydrodynamics, Mass transfer, Nanofluids, Skin friction (Fluid dynamics), Temperature, Diffusion (Physics)

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