Heat transfer in MHD flow of Carreau ternary-hybrid nanofluid over a curved surface stretched exponentially

This investigation aims to study Magnetohydrodynamics (MHD)two-dimensional incompressible boundary layer performing non-Newtonian Carreau ternary-hybrid nanofluid flow with heat transfer through an exponential stretching curved surface. The has been synthesized titanium oxide, aluminum and silver dispersionin the base fluid water. TheNavier Stokes equation model govern partial differential equations (PDEs), appropriate similarity transformations are utilized these PDEs into ordinary (ODEs). effects of pertinent parameters on dimensionless velocity temperature profiles analyzed withfigures. provides new insights solutions previously unsolved problems related in MHD a Ternary-Hybrid Nanofluid over surface stretched exponentially, or it could contribute existing knowledge literature by refining models methods. drag force Nusselt numbers studied for different values governing throughgraphs. It is demonstrated that rate skin friction increase from mono, hybrid, ternary nanofluids. Both addition nanoparticles.