The current investigation is concerned with the study of unsteady laminar flow with heat and
mass transfer of an incompressible and hydromagnetic Cu-Al 2 O 3/H 2 O hybrid nanofluid …

Entropy generation minimization (EGM) and heat transport in nonlinear radiative flow of
nanomaterials over a thin moving needle has been discussed. Nonlinear thermal radiation …

The main objective of the current study is to compute entropy generation impact on heat and
mass transfer characteristics of magnetic nanofluid flow across the heated stretching sheet …

Theoretical study of inherent irreversibility and thermal runaway of an exothermic reactive
Eyring–Powell fluid flow through a saturated porous fixed horizontal channel with thermal …

Magnetohydrodynamic nanofluid technologies are emerging in several areas including
pharmacology, medicine and lubrication (smart tribology). The present study discusses the …

The main focus of present research work is to elaborate magnetohydrodynamic flow of third
grade nanofluid with activation energy and binary chemical reaction. Fluid flow is generated …

Heat and mass transfer behavior of unsteady flow of squeezing nanofluids between two
parallel plates in the sight of uniform magnetic field with slip velocity effect is investigated …

Hybrid nanofluids (HNFs) comprise combinations of different nanoparticles suspended in
base fluid. Applications of such nanofluids are rising in the areas of energy and biomedical …

Hybrid nanofluids have emerged as a promising field of research in recent years, finding
applications in various industries and sectors. The entropy generation and impact of an …

This article is devoted to study sustainability of entropy generation in an incompressible
thermal flow of Newtonian fluids over a thin needle that is moving in a parallel stream. Two …