Unsteady mhd free convective fluid flow embedded in a porous medium with heat source in the presence of soret and radiation effects

The present research paper aims to study the effect of soret and radiation effects on an MHD convective fluid flow embedded in a porous medium with heat source. Dimensional non-linear coupled differential equations transformed into dimensional less by introducing similarity variables Time-dependent suction is assumed and the radiative flux is described using the differential approximation for radiation. The Galerkin finet element method is used to solve the equations governing flow. The flow phenomenon has been characterized with the help of flow parameters such as velocity, temperature and concentration profiles for different parameters such as. Schmidt number, Prandtl number, Magnetic field, Heat source, Permeability parameter, Thermal radiation, Chemical reaction, Modified Grashof number, Soret number, Eckert number and Grashof number. The velocity, temperature and concentration are shown graphically. The coefficient of skin-friction, Nusselt number and Sherwood number are shown in tables.