Couple stress behaviors of nonlinearly radiating hybrid nanofluid over convectively heated Riga plate exploring thermophoretic and Brownian impacts

Abstract

The endeavor toward exploring the significant impacts of modified Hartmann number and the couple stress facts over the nonlinearly radiating hybrid nanofluid flow inclusive of thermophoretic and Brownian effects over the Riga plate subjected to the Newtonian Heating has been analyzed. The model was developed by incorporating the above-mentioned physical aspects. Numerical solutions have been drawn through the RK Feldberg scheme using efficiently modified Matlab code. The outcomes based on the parametrical analysis were portrayed graphically and the key values-based fallouts were tabularized comparatively with traditional nanofluid behavior in those similar conditions. As the modified Hartmann number exerts favorable sustenance, the couple stress exhibits the impeding effects in fluidity, thermal and mass transference deeds. Yet another constructive upshot for hybrid nanofluid’s performance over traditional fluids even in such thought-provoking physical conditions.