Thermal Flow for Radiative Ternary Hybrid Nanofluid over Nonlinear Stretching Sheet Subject to Darcy–Forchheimer Phenomenon

This study examines the bidimensional nonlinear convective flow of ternary hybrid nanofluid upon a stretching sheet. Three types nanoparticles, namely Cu , TiO 2 Al O 3 , are suspended in base fluid taken as water with new composition id="M2"> + / H which is termed nanofluid. To stabilize and thermal properties composition, Brownian well thermophoresis incorporated into energy mass equations. The radiations heat absorption/generation terms included equation. effects Darcy–Forchheimer phenomenon also induced momentum set model equations has shifted to dimension-free form by employing suitable variables. It concluded this that characteristics have been declined augmenting values volumetric fractions solid porosity, inertia factors upsurge higher Grashof numbers. Thermal observed be augmented growth radiation, motion, thermophoresis, generation/absorption, temperature ratio factors, fraction nanoparticles. These more significant for Concentration profiles motion factor, Lewis number, factor. deduced investigation rate trihybrid than or traditional nanofluids, percentage Nusselt number shown through statistical chart support work. Current results compared established found fine agreement amongst all results.