Abstract
A detailed examination of the effects of double stratification on the magnetized second grade nanofluid created by a stretching sheet within the porous medium has been carried out in this study. The CBC (convective boundary conditions) and NH (Newtonian heating) conditions are utilized for the analysis. The relevant similarity transformations are defined in order to transform the governing nonlinear PDEs into dimensionless ODEs. The transformed equations are numerically treated with bvp4c in Matlab software package. The computations are expressed in tabular and graphical forms. The flow parameters involved in the modeling are demonstrated on temperature, velocity, and concentration of nanofluid. The calculations of Nusselt number [Formula: see text], Sherwood number [Formula: see text] and skin-friction coefficient [Formula: see text] against the distinct values ofconstraints for general, CBC and NH are expressed to examine the flow situation. The numeric computations are matched with the literature published earlier for particular cases which shows the validity of current computations. It is noted that the skin friction is decreasing with an increment in second grade parameter. Flow velocity is increased by rising the second grade parameter.
Published Version
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