Analysis of Non-Linear on the House Convection Stream of Couple Stress Micro-Polar Nano-Fluids Past Vertical Cone with Non-Fourier's Heat and Non-Fick's Mass Fluxes

The main goal of this study is to analyze the effects of different governing parameters such as buoyancy forces, and thermal relaxation time parameter in non-linear convection flow on the combined two fluids couple stress and micro-polar nano-fluid over a vertical cone with non-isothermal surface with heat and mass transfer with non-Fourier's heat and non-Fick's Mass fluxes numerically. The mathematical modeling for the stream difficulty has been made with fitting similarity transformation by non-dimension variable. Major non-linear boundary value difficulties were hooked on combined high regulates non-linear ordinary differential equations. The significance of constraints on velocities, thermal and solutal profiles are evaluated and revealed through the graphs and tables. The convergence test has been maintained; on behalf of spots number larger than apposite web, the meticulousness isn't influenced. The novelty of the study lies in the analysis on combined two fluids with different constitutive equations over a cone with non-isothermal surface which has little attentions. Findings indicate that enlarging the values of couple stress parameter A permit boost to characteristic measure polarity of fluid that decline velocity profile k'(alpha), Nusselt, and Sherwood numbers (H') , p' ()), but it upsurges angular velocity l(alpha), skin friction coefficient and wall pair stress.