Innovation modeling and simulation of thermal convective on cross nanofluid flow over exponentially stretchable surface

This work reported to investigate convective flow of non-Newtonian fluid effect on an exponentially stretchable surface. Effect of nanoparticle is considered in heat and mass equation. The transformation technique utilized on dimensionless equations is converted to non-dimensionless equations are solved thought numerical approach Bvp4c. Influence of approatiate analysis of velocities, heat and mass transport are scrutinized through figures. Furthermore, the comparative analysis of drag forces, Nusselt number and Sherwood number are evaluated over and done with tabulated values. It is give details that the temperature field strengthens with intensification in thermophoresis and random diffusions. Similarly, rises in thermophoresis effect parameter both temperature and concentration profile increasing.

Automated summary

This study investigates the convective flow of non-Newtonian fluid on an exponentially stretchable surface, taking into account the effect of nanoparticles in the heat and mass equations. Non-dimensionless equations are solved using the numerical approach Bvp4c after applying transformation techniques. The analysis of velocities, heat and mass transport is conducted through figures, and comparative analysis of drag forces, Nusselt number and Sherwood number is done with tabulated values. The results show that the temperature field strengthens with an increase in thermophoresis and random diffusions, and both temperature and concentration profiles increase with the rise in the thermophoresis effect parameter.