Flow dynamics and convective transport analysis of two-layered dissipative Casson hybrid nanofluid flow in a vertical channel

Abstract: This paper undertakes a thorough study to examine heat and mass transfer of two-layer hybrid nanofluid flow in a vertical channel. Casson fluid model is used to investigate the non-Newtonian nature of blood flow (base fluid) in this study. The problem is formulated which includes laminar, incompressible flow with additional viscous dissipation effects. Titanium dioxide and Graphene nanoparticles are employed in this study for the hybrid notion. At the interface, it is considered that the velocity and temperatu… Show more

“…Pay attention to micropolar viscous fluids and slip effects. Amin et al [3] The study thoroughly examines heat and mass transfer in a vertical channel with bipartite hybrid fluid motion. Smooth, non-compressing fluid flow with viscous energy loss is the challenge.…”

Numerical Analysis of Slip Phenomena on Heat and Mass Transfer in a Vertical Channel with immiscible Micropolar and Viscous Fluids with variable viscosity

“…Pay attention to micropolar viscous fluids and slip effects. Amin et al [3] The study thoroughly examines heat and mass transfer in a vertical channel with bipartite hybrid fluid motion. Smooth, non-compressing fluid flow with viscous energy loss is the challenge.…”

Numerical Analysis of Slip Phenomena on Heat and Mass Transfer in a Vertical Channel with immiscible Micropolar and Viscous Fluids with variable viscosity

Influence of variable viscosity and slip on heat and mass transfer of immiscible fluids in a vertical channel

Sensitivity analysis and optimization of heat transfer in the time-reliant magnetohydrodynamic bioconvective flow of radiative couple-stress hybrid nanofluid through a squeezing channel with viscous dissipation: Entropy analysis