Abstract
The foremost objective of this study is to examine the heat transport and fluid flow property of hybrid SiO2-MoS2/H2O nanofluid in the existence of the permeability of porous medium, suction parameter, volume fraction of nanoparticles and the velocity slip of a porous stretching/porous shrinking surface. The system of PDE is converted into a system of ODE by utilizing the similarity transformations. The ODE solution describes the PDE's consistent way of acting for the velocity and the temperature fields. It is numerically answered through bvp4c MATLAB platform. The physical constraints are expressed through various diagrams and tabular system. The discussion specify the dual solution until few quantity of of the permeability of a porous medium and the velocity slip boundary condition. The suction constraint increases the heat transport rate and decreases the friction factor. The heat enlarges owing to the permeability and nanoparticles concentration in both results; in contrast the velocity decreases owing to the nanoparticles concentration.