Abstract
In this article, we investigated the heat transfer characteristic of magneto hydrodynamic (MHD) nanofluid towards a stretching surface under the influence of radiation and hybrid nanoparticles. Here, we consider the base fluid is water embedded with Cu-Al2O3 nanoparticles with mixture of SWCNT (Single Wall Carbon Nanotubes). To transform Partial Differential Equations (PDE's) into ordinary differential equations (ODE's) equation by via similarity transformation. The changed equations are numerical solved by R-K with shooting technique in MATLAB package. The tabular and graphical results reveal the effect of miscellaneous appropriate parameters on the velocity and temperature fields along with skin friction and reduced Nusselt number. We found that the Al2O3 /H2O/SWCNT have more friction rate and reduced Nusselt number compared to the Cu/H2O/SWCNT. This result helps us to conclude that depends on manufacturing and industrial we can consider the either Al2O3/ H2O/SWCNT and Cu/H2O/SWCNT mixtures.