Influence of second-order slip and multiple convective conditions on magnetized nanofluid flow over a permeable stretching cylinder

Abstract

This paper investigates the second-order slip effect under multiple convective conditions. Nanofluid flow is taken over a permeable stretching cylinder. Suction and injection of nanofluid together with Brownian motion and thermophoresis is also incorporated in this research. Renovation of leading partial differential equations is done with the help of appropriate similarity transfiguration. Obtained nonlinear Ordinary differential equations (ODEs) are solved by Runge–Kutta 4th order (RK-4) method with shooting technique. MAPLE-2019 software is used to simulate the system with a degree of precision of [Formula: see text]. Several graphs and tables are included to showcase the findings in this investigation. Heat transfer allocation was changed by 17.52% for injection to suction of nanofluid in the system but mass transfer is changed by 9% approximately for the same situation. Skin friction co-efficient diminished in case of higher value of Reynolds number by 2.52% for suction of nanofluid and 2.68% for injection of nanofluid. Upshots of several parameters are compared under suction and injection.