Impact of Motile Microorganisms and Chemical Reaction on Viscoelastic Flow of Non-Newtonian Fluid with Thermal Radiation Subjected to Exponentially Stretching Sheet Amalgamated in Darcy-Forchheimer Porous Medium

The significance of this study lies in its exploration of the viscoelastic flow of bioconvected micropolar nanofluid along with three-dimensional geometry subjected to Darcy-Forchheimer porous stretchable sheet, closing a knowledge void in comprehending the intricate fluid dynamics within biological, engineering, and industrial frameworks. The impact of thermal radiation, chemical reaction and thermal conductivity are the part of the investigation. Similarity variables are used to transform the system of nonlinear PDEs in to set of nonlinear ODEs. Shooting method via matlab is used to solve the resultant ODEs numerically. The study concludes by providing detailed insights into the inspiration of prominent parameters such that thermophoresis parameter Nt, the magnetic parameter M, Brownian motion Nb, the porosity parameter K1, chemical reaction, Peclet number Pe, Schmidt number Sc, mixed convection parameter Gr, Rayleigh number Rb, and buoyancy ratio parameter Re are explained in detail and discussed in the form of graphs, tables, and literature. It is noted that the speed of flow profile is decreased for increasing value of magnetic parameters and porosity parameter.