Features of Radiative Mixed Convective Heat Transfer on the Slip Flow of Nanofluid Past a Stretching Bended Sheet with Activation Energy and Binary Reaction

The current exploration aims to inspect the features of thermal radiation on buoyancy or mixed convective fluid flow induced by nanofluid through a stretching permeable bended sheet. impact activation energy and binary reaction along with slip migration is taken into account discuss fine points water-based alumina nanoparticle flow. structure curved sheet assumed be stretchable texture coiled within circular section radius Rb. similarity technique utilized reduce leading partial differential equations ordinary equations. These reduced are then deciphered numerically employing bvp4c method. outcomes model were constructed in form several figures bar graphs for case opposing assisting flows varying distinct embedded control parameters. results display that velocity field curves escalate higher curvature parameter while temperature concentration profiles shrink. More precisely, show distribution profile increases increase nanoparticle’s volume fraction as well parameter. Meanwhile, fields decelerated impacts fraction. In addition, heat mass transfer rates significantly improved value Schmidt number. On other hand, growing values factor decrease shear stress. Furthermore, compared previous limiting cases observed tremendous harmony.