Bioconvection Reiner-Rivlin Nanofluid Flow between Rotating Circular Plates with Induced Magnetic Effects, Activation Energy and Squeezing Phenomena

This article deals with the unsteady flow in rotating circular plates located at a finite distance filled Reiner-Rivlin nanofluid. The nanofluid is electrically conducting and incompressible. Furthermore, also accommodates motile gyrotactic microorganisms under effect of activation energy thermal radiation. mathematical formulation performed by employing transformation variables. finalized formulated equations are solved using semi-numerical technique entitled Differential Transformation Method (DTM). Padé approximation used DTM to present solution nonlinear coupled ordinary differential equations. helps improve accuracy convergence obtained results. impact several physical parameters discussed gives analysis on velocity (axial tangential), magnetic, temperature, concentration field, microorganism functions. torque lower upper deliberated presented through tabular method. numerical values Nusselt number, density Sherwood number given forms. It worth mentioning here that DTM-Padé found be stable accurate From practical point view, these flows can model cases arising geophysics, oceanography, many industrial applications like turbomachinery.