Ternary nanofluids due to moving wedge with strong magnetic field and convective condition

Abstract

The control of temperature distribution and management of heat energy are key problems in an industry. In this study, free convective flow with ternary nanoparticles (Cu, Ag, MgO) was equipped to analyze the impact on magnetic field and thermal radiation through a moving wedge surface. This volumetric concentration by Cu, Ag and MgO nanoparticles is selected by the most 4% to prevent the instability on the nanofluid. A set of applicable modifications was expressed as a change in the nonlinear partial differential equations and the nonlinear ordinary differential equations and it was undertaken mathematically for applying bvp4c on MATLAB package. These outcomes on ternary nanoparticles (Cu–Ag–MgO/blood), and hybrid nanoparticles (Cu–Ag/blood) and copper (Cu) nanoparticles had again correlated. The outcomes display that connecting Cu, Ag and MgO nanofluid raises the drug friction to 3.9% than the hybrid nanofluid. Also, the combination of Cu and Ag nanofluid increases skin friction by 19.58% than Cu nanofluid. This analysis was particularly useful in drug transportation and biomedical study.