Three-Dimensional Viscous Dissipative Flow of Nano fluids Over a Riga Plate

The current work is carried out to establish the characteristics of H_2 O / NaC_6 H_9 O_7 basis fluids with Fe_3 O_4 / Al_2 O_3 nanoparticles confined by a Riga plate. The mathematical model is defined as partial differential equations (PDE) and then transmuted into ordinary differential equations (ODE) with the aid of the transformations of similarities. Usage of Runge Kutta method, backed by the shooting technique, is adapted to deal the resulting system of nonlinear differential equations numerically. Flow field and thermal field highlights are demonstrated in plots quantitatively. Results are recorded and tabularly examined for local skin friction coefficients and local Nusselt numbers. In relation with existing writing the accuracy of current results is tested and we have identified an astounding understanding. Modified Hartmann number and stretching ratio parameter improve the velocity profile. In particular, the H_2 OAl_2 O_3 nanofluid has high skin friction values and is also more suitable for the rate of heat transfer.