Numerical Solution of MHD of Boundary Layer Flow of Nanofluid Fluids Due to Porous Stretching Surface
نویسنده
چکیده
In this study we have explored the numerical solution of MHD flow of an incompressible nanofluid towards a stretching surface. The obtained model of nonlinear partial differential equations is converted into a set of ordinary differential equations using an appropriate transformation. Shooting method is employed to solve the said system of boundary layer equations. Discussion of momentum, temperature and concentration profiles against emerging parameters like Prandtl number , Brownian motion parameter , thermophoresis parameter , Lewis number , stretching parameter , Suction and injection parameter . Tabulated values of local Nusselt number and sherwood number is an added feature with detailed discussion against different pertaining parameters. It is observed that Temperature profile ( ) is higher for large values of Brownian motion parameter thermophoresis parameter and Suction and injection parameter . It is also found that for increasing values of magnetic field parameter and velocity ratio parameter , skin friction coefficient show increasing and decreasing behavior respectively.
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