Multiple slip effects on time dependent axisymmetric flow of magnetized Carreau nanofluid and motile microorganisms

Abstract

This presented work investigate the bio-convections effects of the magnetized time dependent axisymmetric flow of Carreau-nanomaterial performances with multiple slip effects over a stretching sheet. The momentum, heat, concentration and density of motile micro-organism are renovated into the system of equation via using well known similarity revolution. Well known Mathematical computational techniques and software (i.e. bvp4c and MATLAB) are used to draw graphical and tabular results. Velocity profile equation f^{prime}(zeta ), energy equation theta (zeta ), volumetric nanoparticles phi ,(zeta ), density motile microorganism chi (zeta ).The Carreau viscosity model is use to reduce the viscosity of fluid when W_{e} = 0,,, and ,n = 0. Besides we moderate this into power law index with ,n = 0.5 and ,n = 1.5 partial slip condition of velocity is also instigated at the surface. Gravity dependent gyrotactic nanoparticles are utilized for well observing axisymmetric flow with convective boundary layer condition and comparatively better heat transfer rate result and applicable to maximum realistic approach.