Thermo-dynamical random Brownian motion in a slip flow of thermophoretic fluid over a wedge under the influence of variable viscosity and conductivity

Abstract

Abstract The article exhibited the impact of variable fluid possessions (temperature dependent viscosity) on nanofluid over a wedge in the presence of heat generation and absorption. We also incorporated the magnetic field, Buogirnio model and nonlinear chemical reaction in this study. It is accepted to take viscosity and thermal conductivity as a reverse capacity and straight capacity of temperature, separately. The governing physical partial differential system (PDE) is transformed into ordinary differential equations (ODEs) and then the subsequent nonlinear ordinary differential conditions are measured numerically utilizing the fourth order of the Runge-Kutta technique jointly with the shooting method. The effect of appropriate parameters concerning the stream capacity has been talked about through charts and tables, together with the necessary disputations/discussion. The friction between the particles is higher in  β= 1/6 compared to β= 0. This help us to conclude that, for higher friction we can use the β= 1/6 case. The heat and mass transmission rate is very low in β= 0 case compared to β= 1/6 case. So, we can conclude that the β=0case useful in cooling and more concentration transferred systems.