The scope of this review enlightens the experimental and numerical investigations
conducted on the convective heat transfer of various nanofluids, particularly hybrid …

Through a vertically shrinking sheet, a two-dimensional magnetic nanofluid is numerically
analyzed for convection, heat generation and absorption, and the slip velocity effect. In this …

The flow past a stretching sheet has been explored by many scientists for its application in
metal spinning, drawing of plastic films, glass blowing, crystal growing, and cooling of …

In recent years, there has been a lot of interest in studying stagnation point flow. This is
because stagnation point flow is used in many technological applications, such as cooling …

The present research investigates the effect of a heat source/sink on nanofluid flow through
a cone, wedge, and plate when using a suspension of aluminium alloys (AA7072 and …

The authors scrutinize the steady, MHD flow of SiO 2− MoS 2/water hybrid nanofluid towards
two different geometries ie a wedge and a cone. The Tiwari and Das model is implemented …

Hybrid nanofluids have attracted burgeoning attention owing to their outstanding capacity to
improve heat transfer. The influence of velocity and temperature slip parameter and …

The essence of this study is to explore the nonlinearly stretching/shrinking hybrid nanofluid
in terms of its steady flow and heat transfer with the effects of magnetohydrodynamics …

The magnetohydrodynamic (MHD) radiative flow of a hybrid alumina-copper/water nanofluid
past a permeable vertical plate with mixed convection is the focal interest in this present …

Hybrid nanofluids, which are made by suspending non-identical nanoparticles, have been a
prominent research area because of their high efficiency in heat transfer. The analysis of the …