Numerical study of thermal and concentration transport in Sisko ternary-nanofluid
Abdulmajeed Almaneea
Abstract
The study of the behavior of generalized Newtonian fluid flows and heat transfer has practical implications. In this study, attention is paid to examining the dynamics of flow, heat, and mass transfer in a siskofluid containing multi-nanoparticles. The governing partial differential equations can be turned into ordinary differential equations using the transformations. FEM numerical scheme is used for the solutions of problems. A free study is performed, and the validity of the results is given. The solutions, that are convergent and mesh-free, are used to explore the facts regarding heat and mass. Both shear-thinning and shear-thickening fluids experience less skin friction as the material parameter is increased. The wall heat transfer rate in ternary nanofluids has the highest value in comparison with that in hybrid and mono nanofluids. Similarly, the wall mass flux in the case of ternary nanofluid is the highest in comparison with that in hybrid and mono nanofluid.