In light of the exciting potential of nanofluids, this work presents a new mathematical model
for enhancing heat transfer using tri-hybrid nanofluids. In this study, the influence of heat …

In this study, the mixed convective stagnation-point flow of a Al 2 O 3-C u/H 2 O hybrid
nanofluid towards a stretched disc with a convective boundary and zero mass flux condition …

One of the topmost challenges of today's industry age is to find an efficient heat transfer fluid
because heat transfer rate in common fluids is unable to provide an efficient heating and …

Within this research, we examined the convective flow of a blend of ternary hybrid nanofluids
and single nanofluids with a stagnation point caused by a stretched cylinder. The purpose of …

Ethanol and biodiesel, which both belong to the first generation of biofuel technology, are
the two most popular forms of biofuels now in use. In order to create next-generation biofuels …

The ternary nanofluids are significantly enhanced the thermal conductivity and heat transfer
performance of conventional nanofluids. These fluids magnify the thermal properties like …

Improving thermal efficiency is one of the most effective ways to optimize energy resources.
Researchers has therefore been extensively working on finding innovative solutions for …

Heat and mass transfer are crucial to numerous technical and commercial operations,
including air conditioning, machinery power collectors, crop damage, processing food, heat …

The novel theoretical ternary hybrid nanofluid (HNF) model presented in this research
focuses on the enhancement of heat transport. In this study, tri-hybrid nanoparticles made of …

The use of hybrid nanofluids in practical applications is pivotal for enhanced heat transfer
efficiency especially for electronics cooling, and manufacturing processes. This study delves …