Analytic Simulation for Magnetohydrodynamic Unsteady Buongiorno Model Hybrid Nanofluid Flow over Stretching

In this work, we inspect and analyze a two dimensional, unsteady mixed convectional hybrid nanofluid hydromagnetic flow (Al2O3-Cu/H2O) over heated an extending/contracting surface with the influence of thermal radiation. Hybrid flows magnetohydrodynamic heat source or sink. Brownian motion thermophoresis were incorporated using Buongiorno model. vol. fraction range limited to 1.5% within higher temperature 50°C 70°C is considered for conductivity viscosity analysis. The proposed model then converted into ODEs through similarity transformation help homotopy effect embedded input factors on temperature, velocity, concentration profiles visually demonstrated explained. magnetic field has inverse impact velocity profiles. Velocity profile increases both convection buoyancy ratio parameters. It been noticed that For increasing values Lewis number, nanoparticles considerably lowered. Moreover, observed increase in destructive chemical reaction, whereas generative reaction reverse effect. proved skin friction function ε , M decreasing id="M2"> λ 1 N r . On other hand, Nusselt number increased id="M3"> R Q b t while Sherwood decreased, id="M4"> L e