Abstract
The boundary layer of a non-Newtonian Casson fluid flow over inclined porous magnetized surfaces with radiation and convective boundary conditions have been considered. The effects of the magnetic field, thermal radiation, convection with temperature fields at the boundaries of the surface are considered. The governing models have been transformed to ordinary differential equations imploying the similarity approach. The effects of surface magnetization along with bulk parameters on the flow are presented in tables. The thickness of the thermal boundary layer has been enhanced due to the induced magnetic field leading to considerable improvement in the rate of heat transfer. The induced magnetized surface showed a similar influence on the skin friction, Nusselt number, and the Sherwood number. The study, therefore, recommends the incorporation of magnetized surfaces in MHD flows for efficient flows control.
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