Numerical Simulations of Magnetic Dipole over a Nonlinear Radiative Eyring–Powell Nanofluid considering Viscous and Ohmic Dissipation Effects

This research work interprets the influences of magnetic dipole over a radiative Eyring–Powell fluid flow past stretching sheet while considering impacts viscous and ohmic dissipation that produce quite illustrious effect due to generated dipole. whole analysis is characterized by effects steady, laminar, incompressible flow. The highly nonlinear coupled partial differential equations (PDEs) are remodeled into system ordinary (ODEs) utilizing reliable nondimensional parameters leading momentum, thermal, concentration equations, computationally solved using b v p 4 c on MATLAB, “dsolve” command MAPLE software, in companionship boundary conditions. physical constraints such as many other sundry parametric sketched with their ultimate For sustenance this prior collaboration below mentioned literature review, comprehensive differentiation given, which defines sustainability current work. Buongiorno nanoliquid model elaborates thermophoresis Brownian features deliberately scrutinized within influence activation energy. Also, skin friction coefficient, Nusselt number, Sherwood number illustrated tables. coefficient decreases rise ferromagnetic interaction parameter well Hartmann whereas show variation for varying parameters. It can be observed intensifies rate heat mass transfer.