MHD Nanofluid over a stretching surface immersed in double stratified media with radiation and partial slip conditions
Abstract
The basic numerical study on MHD boundary layer flow of a Nanofluid over a stretching surface immersed in double stratified media. The similarity variables are considered to a presiding over converted a ordinary differential equations, these equations solved by using finite difference method implicitly. The impact of the physical parameters, skin-friction, Nusselt number and Sherwood number a careful study is carried out. The results of velocity, temperature and nanoparticle volume fraction expressed graphical form and tabular form for different flow parameters in thermal and concentration stratified media. A relative results study between the earlier and the present are made and they shown good in agreement.