EXPLORING ACTIVATION ENERGY EFFECT ON NON-DARCY HYDROMAGNETIC CONVECTIVE HEAT AND MASS TRANSFER FLOW OF THERMALLY RADIATING ETHYLENE GLYCOL BASED TIO2 AND AG NANOFLUIDS IN CYLINDRICAL ANNULUS WITH THERMO-DIFFUSION
Keywords:
Non-Uniform heat sources, TiO2 and Ag-nanofluids, thermal Radiation, Soret effect, Circular annulusAbstract
An examination was carried out by analyzing the movement of water-titanium dioxide and silver nanofluids in a coordinate annulated zone while being subjected to the impact of heat sources for non-uniform. The non-linear equations have been explained by employing quadratic polynomials and the Galerkine finite detail technique. Both of these methods have been successfully utilized. When analyzing different parametric values, it has been shown that greater temperatures and concentrations are created with lower velocities, whereas larger velocities are produced with higher radiative heat flux (Rd)/ nanoparticle volume fraction (f). This phenomenon has been seen for a significant number of parameters.
