Abstract:
This study aims to investigate time independent rotating frame of hybrid nanofluid flow-based ethylene glycol consisting of copper (Cu) and copper oxide (CuO) amidst two horizontal parallel plates. The upper plate is porous while lower one is stretching with a variable velocity. The suggested model is analysed with modified Fouriets law under the effect of thermal stratification. Howevers the impact of Corio lis force along with centripetal force is examined for the enhancement of mathematical model. Relevant similarity transfonnation method is supplemented for the conversion of partial differential equations into ordinary differential equations. A software, MATLAB function bvp4c is implemented to visualize the model. Sketches portraying impacts on velocities and temperature versus arising parameters are drawn and deliberated well. One of the notable findings includes that temperature of fluid is reduced by enhancing thermal stratification parameter. Moreover, drag force coefficient is evaluated for upper and lower plate in tabular form. The results demonstrate that drag force coefficient is increasing at upper plate while for lower plate it is decreasing when nanoparti.cles volume fraction, suction and injection values are enhanced
