Abstract
The investigation of magnetohydrodynamic flow, heat and mass transfer of different non Newtonian nanofluid flow across a stretched sheet is presented in this article. The energy and concentration equations are analyzed with the addition of joule heating and thermophoretic effect. The thermal and solutal stratification boundary conditions are utilized at the boundary of surface. The appropriate similarity variable is used to transfer the flow modelled equations into ODEs, which are numerically solved by the utilization of Matlab bvp4c function. The involved parameters impact on the velocity, temperature, and concentration distribution are scrutinized with graphs. It is found that, the thermal layer thickness shows improved outcomes for rising values of Brownian motion parameter. Furthermore, solutal layer thickness decays for rising and Schmidt number.
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