Effect of Thermal Radiation on Burgers Nano Fluid Flow Between Two Parallel Plates with Porous Medium in the Presence of Gyrotactic Micro-Organisms and Heat Generation/Absorption

This research deals with Burgers nanofluid flow between two parallel and horizontal plates in the presence of gyrotactic microorganisms and under the impact of thermal radiation. The nanofluid flow is assumed in a steady state and medium between the plates is kept porous. The effects of the heat generation/absorption and nanoparticles on the flow are considered. The significant influences of Brownian motion and thermophores is have been taken in Nano-fluids model. The governing nonlinear PDEs of Burgers nanofluid relation are rendered into nonlinear ODEs using appropriate transformations and elucidated by the HAM (Homotopy analysis method). HAM is used to achieve the required goal. The convergence of the HAM technique is illustrated numerically. The features of the dimensionless velocity, temperature, concentration and nanoparticle motile microorganisms density with numerous thermo-physical, non-dimensional parameters are graphed and detailed investigation of these parameters are conducted. The current research specifies that the temperature profile of the nanofluid enhances for the augmented values of Brownian motion and thermophoresis parameters. Graphs for the local Nusselt number, Sherwood numbers and local density number of motile microorganisms are computed and analyzed. Moreover, the influence of various embedded parameters are shown and studied graphically in detail. Finally, we find some final key interpretations in the light of this research work.