Rotational effect of parabolic flow past in a vertical plate through porous medium with variable temperature and uniform mass diffusion

In this research paper, we have study about the heat and mass transfer effects of rotation and porosity of the medium on unsteady convection flow of a viscous, incompressible, and electrically conducting flow past a started vertical plate under the influence of transversely applied uniform mass diffusion. The Laplace-transform technique is used to solve the governing equations in this investigation. The results are described using graphs for various factors such as the thermal Grashof number, the mass Grashof number, the Prandtl number, the permeability parameter, and the Schmidt number. The goal of this research is to look at the rotation and porosity of the medium in a flow model. The velocity in the boundary layer was found to be higher in the study. The non-dimensional equations are solved and programmed in MATLAB R2020. Finally, it can be shown that the speed increases when warm Grashof or mass value evaluations are made. The significance of the problem can be observed in the cooling of nuclear reactor electronic components.