Hybrid nanofluids have received remarkable attention due their promising thermal
performance compared to conventional nanofluids. The use of hybrid nanofluids is widely …

Many physical aspects emerging from the local structure and micromotions of liquid particles
can be studied by utilizing the governing model of micropolar liquid. It has the ability to …

This research is innovative in that it investigates the flow of a Maxwell nanofluid that exhibits
non-Newtonian behavior over a horizontally stretching sheet, using a boundary layer …

This paper proposes a numerical scheme for solving linear and nonlinear differential
equations obtained from the mathematical modeling of a flow phenomenon. The scheme is …

This paper examines the impacts of heat radiation and Soret effects on nanofluid flow in a
micropolar magnetohydrodynamic (MHD) framework over an inclined sheet that is …

The reasons why the model of non-Newtonian nanofluids is more applicable than other
models, particularly those that take the porous medium into account, are studied here. Thus …

This study delves into the complex rheological properties of Williamson nanofluid and their
effects on flow dynamics around a stretching cylinder. This study's significance lies in its …

This article's primary goal is to use Soret and Dufour impact to control the mixed convective
flow and heat transfer of a non-Newtonian Maxwell nanofluid via a vertically slippery …

This paper explains the importance and benefits of using AI in fluid mechanics, emphasizing
its capability of finding the solution of fluid flow systems through iterative optimization …

This study explores the rheological properties of Williamson nanofluids and their effects on
flow dynamics within stretching cylinders and plates, aiming to enhance heat transfer …