Alexandria Engineering Journal (May 2023)
Thermodynamic study of radiative chemically reactive flow of induced MHD sutterby nanofluid over a nonlinear stretching cylinder
Abstract
Incompressible two dimensional steady flow of Sutterby fluid over a nonlinear stretching cylinder. The fluid properties are variable under the Buongiorno model of nanofluid. The effect of induced magnetic field applied on the sutterby fluid using the heat generation and chemical reaction. The nonlinear radiative with thermal and concentration slip have been studied. Under the above expectations, the mathematical model established using the governing equations. These equations are become partial differential equations by means of boundary layer approximation. The partial differential equations reduced in the form of ordinary differential equations by implementing the transformations. The dimensionless system solved through numerical approach. The impression of governing physical parameters are reported in graphically as well as tabular form. The temperature of fluid boosted up due to larger values of variable thermal conductivity. As the thermal conductivity of liquid enhanced due to thermal conductivity increasing which increased the fluid temperature. The fluid temperature enlarged due to increment of Brownian motion. Physically, the fluid temperature boosted for different values of Brownian motion because increment of Brownian motion means increment in kinematic energy which improved the fluid temperature.