▎ 摘　　要

In the last few decades, the focus has shifted to hybrid nanomaterial flows because of the growing need for energy and the many ways it can be used. However, there is still a lot to learn about these flows. Viewing this analysis is done to look at the flow to study the incompressible flow and heat transfer toward a moving surface with nonlinear radiation. The scaling similarity transformations are employing to convert nonlinear partial differential equations to the nonlinear ordinary differential equations. Here, after converting equations from dimensional to non-dimensional, we will use the BVP4C solver (MATLAB) for plotting the graphs to analyze how distinct non-dimensional parameters effecting the Skin friction and Nusselt number transfer rate for both hybrid fluid (Graphene + Magnesium oxide) case and ternary hybrid nanomaterial (Graphene+ Zirconium oxide +Magnesium oxide) case. Additionally, ethylene glycol was used as the basis fluid for both the binary and ternary hybrid nanomaterials in this investigation. The major outcomes disclosed that the Nusselt number, which measures the rate at which heat is transferred, is higher in ternary hybrid nanomaterial when compared to hybrid nanomaterial flow. Furthermore, the rate of heat transfer rate of the ternary hybrid nanomaterial improves more than that of the hybrid nanomaterial fluid. And also the velocity of the fluid decreased when the delta parameter was increased.