Fractional computations for free convective flow of Casson-hybrid nanofluid flow with sodium alginate and water as based materials

The hybrid nanofluid is the modified class of nanomaterials with impressive thermal impact and preserves significant applications in extrusion systems, thermal management systems, engineering processes, cooling and heating materials and many more. The aim of this research is to communicate the thermal enhancement of water (H2O) and sodium alginate (C6H9NaO7) base fluids with interaction of hybrid nanofluids. The Casson fluid model is used to endorse the properties of such base liquids. The titanium dioxide and silver nanoparticles incorporate the thermal impact of hybrid nanofluid properties. The fractional simulations are performed by using the Caputo-Fabrizio (CF) time-fractional derivatives. The integration of problem is computed via Laplace technique. It is observed that the velocity profile enhanced the Grashof number. The increasing observations for Nusselt number and wall shear force due to fractional parameters are obtained.

Automated summary

The aim of this research is to investigate the thermal enhancement of hybrid nanofluids. By incorporating titanium dioxide and silver nanoparticles, the thermal properties of the nanofluids are improved. The Casson fluid model is used to describe the base fluids, and fractional simulations are performed using the Caputo-Fabrizio time-fractional derivatives and Laplace technique. The results show that the Grashof number, Nusselt number, and wall shear force increase with the fractional parameters.