Numerical heat featuring in Blasius/Sakiadis flow of advanced nanofluid under dissipation and convective heat condition effects

The study of advanced nanofluids termed as Tetra nanofluid is of potential interest now a days. These fluids are upgraded generation of conventional nano to ternary hybrid nanofluids with outstanding characteristics. Applications of this class frequently occur in applied thermal engineering, nano-lubrication, chemo-therapy, chemical engineering, oil paint industry, coolant of nuclear plant and many other applied research areas. This study concerns with the development of innovative thermophysical rules for Tetra Hybrid nanofluid and their utilization in advanced heat transfer model. The governing laws updated through addition of thermal condition, dissipation effects, thermal radiations and upgraded nanofluid properties. Finally, the Blasius and Sakiadis model achieved and analyzed the heat transfer trends through numerical technique. Keen analysis of the drawn results show that Blasius model has much ability to transfer the heat than Sakiadis model. Induction of thermal radiations, dissipation effects and thermal convective condition is like a catalysis in the study of advanced tetra nanofluid model and boosts the temperature.