Analysis of boundary layer nanofluid flow over a stretching permeable wedge-shaped surface with magnetic effect

The problem of steady two-dimensional boundary layer flow momentum, heat and mass transfer over a stretching permeable wedge-shaped surface in nanofluid presence magnetic field has been studied. In this respect, the governing partial differential equations have converted into ordinary by using local similarity transformation. transformed then solved numerically bvp4c MATLAB software. effects pertinent parameters, namely wedge angle parameter (β), Brownian motion (Nb), thermophoresis (Nt), (M), moving (λ), permeability (K*), Prandtl number (Pr), Lewis (Le) on fluid velocity, thermal concentration within analyzed. numerical results obtained skin friction coefficients, Nusselt Sherwood number, as well temperature profiles presented graphically also tabular form. indicate that momentum thickness increases with increasing values but reduces for effects. rate angle, wedge, decreases thermoporesis parameters. Finally, compared previously published research found to be good agreement.