Mass Transfer of a Thermally Radiative MHD Cattaneo-Christov Nanofluid between Two Stretchable Spinning Disks

The investigation on the impacts of magnetic field, thermal radiation, generation heat and mass transfer in a porous-medium-embedded homogenous nanofluid flow between two stretchable spinning disks is crucial since are prevalent many engineering technological applications. objective this research was to analyze influences these parameters using Cattaneo-Christov flux model against flow’s temperature, velocity concentration profiles. Temperature profile decreasing function relaxation time parameter due particles require longer period next particles. rates at both decrease as values generation, Eckert number, Prandtl Brownian diffusion, thermophoresis diffusion rotation ratio increase. disks’ with more dissipation, momentum diffusivity, but they increase radiation parameter. current work attempts include transport Buongiorno’s embedded Darcian porous medium dual Cattaneo-Christov’s. Von Karman transformations utilized transform nonlinear partial differential equations fluid dynamics into coupled ordinary (ODEs). These ODEs later solved by employing shooting method MATLAB bvp4c algorithm. All numerical evidences from conferred through tables figures after validation present computations.