Semi-numerical Scheme for Mixed Convection Flow of Hybrid Nanofluids with Viscous Dissipation and Dynamic Viscosity.

The current research paper investigates semi numerical study of steady incompressible viscous two-dimension, boundary layer flow for hybrid nanofluids with the influence of viscous dissipation and dynamic viscosity. The three types of nanoparticles ( T i O 2 , A g , G O ) are considered, and engine oil is taken as a base fluid. To convert a collection of PDEs to nonlinear ODEs, we applied appropriate transformations. The authors used the Homotopy analysis approach (HAM) to solve this set of equations. The influence of different parameters on temperature, and velocity is intended, and the results are planned with the help of graphs, involving the magnetic field, nanoparticle volume concentration, dynamic viscosity, Eckert's number, and Prandtl's number. From the current analysis, we see that the magnetic field, nanoparticle volume concentration, and dynamic viscosity are inversely related to the velocity field; similarly, the Prandtl number is inversely related to the temperature field, and the Eckert number is directly related to the temperature profile. A physical description is used to simulate and evaluate the structures of flow features such as temperature and velocity profiles in response to changes in developing factors. [ABSTRACT FROM AUTHOR]