Influence of Radiative Magnetic Field on a Convective Flow of a Chemically Reactive Hybrid Nanofluid over a Vertical Plate

This study pitch into the three different types of hybrids nanofluids flow across a semi-infinite moving vertical plate exposed to radiative magnetic field and are also implanted in porous medium. The governing equations corresponding problem is linear partial differential equation which simplified by appropriate non-dimensional quantities solved using Laplace transform technique. Exact general solutions for dimensionless velocity temperature, concentration fields as well accompanying skin friction, Nusselt number Sherwood graphically derived. Increase parameters like permeability, Grashof heat mass elevates hybrid profile. When parameter increases there retardation speed. Heat transfer rate slows down when radiation increase. It reveals that Prandtl lowers thermal boundary layer thickness. Intensification chemical reaction lowering concentration. Elevation Schmidt number, accelerates transfer. study, have keen interest determining type nanofluid provides greatest enhancement temperature.