Magneto-Bioconvection Flow of Williamson Nanofluid over an Inclined Plate with Gyrotactic Microorganisms and Entropy Generation

The fluid flow through inclined plates has several applications in magneto-aerodynamics, materials processing and magnetohydrodynamic propulsion thermo-fluid dynamics. Inspired by these applications, the rate of entropy production a bio-convective Williamson nanoliquid over an convectively heated stretchy plate with influence thermal radiation, porous chemical reaction been deliberated this paper. presence microorganisms aids stabilizing suspended nanoparticles bioconvection process. Also, radiation assumed optically thick limit approximation. With help similarity transformations, coupled partial differential equations are converted to nonlinear ordinary resulting model is numerically tackled using shooting method. influences determining thermo-physical parameters on field incorporated extensively discussed. major relevant outcomes present analysis that upsurge values Schmidt number decays mass transfer characteristics, but converse trend depicted for boost up thermophoresis parameter. Enhancement Peclet numbers deteriorates microorganism density characteristics. Further, parameter declines Bejan irreversibility ratio.