Numerical approach for chemical reaction and suction/injection impacts on magnetic micropolar fluid flow through porous wedge with Hall and ion-slip using Keller Box method
Khilap Singh, Alok Kumar Pandey, Manoj Kumar
Abstract
In the present investigation, influence of the chemical reaction, magnetic field and slip on micropolar fluid flow via a porous wedge in the existence of Hall and ion-slip are examined. The pertinent highly non-linear PDEs are changed into an arrangement of non-linear coupled ODEs by utilizing similarity transformation. The equations were calculated using the ‘Keller Box Method’ (KBM). The numerical data for skin-friction coefficients, Nusselt number, Sherwood number, velocities, thermal and concentration fields are portrayed by graphs for various existing parameters and analyzed in detail. The heat transfer characteristics of working magnetic fluid escalated with acceleration in slip and power-law parameters. Moreover, the mass transfer function escalated with material and chemical reaction parameters.