Hall and ion slip impact on magneto-titanium alloy nanoliquid with diffusion thermo and radiation absorption

Abstract

The radiation-absorption, diffusion-thermo and Hall and ion slip effects, on MHD-free convective rotating flow of nanofluid (Ti6Al4V-H2O) past a semi-infinite permeable moving plate with a constant heat source, are discussed. Making use of the Perturbation technique, we found that velocity, temperature and concentration are discussed through graphs. We evaluated the skin friction, Nusselt number and Sherwood number analytically and then discussed computationally. The resultant velocity reduces with increasing rotation parameter, magnetic parameter, suction parameter and enhances with increasing Hall and ion slip parameters and Dufour parameter. Nusselt number decreases with Dufour parameter and Sherwood number increases with chemical reaction parameter.