Maintaining a continuous thermal convective power supply is very essential in many
industries and thermal systems, this is because it helps in improving the efficiency of …

The limited availability of fossil fuel, ecosystem consideration and economic factor stimulates
interest in alternative energy provision and thermal energy enhancement. Utilization of solar …

Nanofluids are a very productive etymology of intensifying the process of heat and mass
transport systems linked with the industrial and thermal engineering systems. Nanomaterials …

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 …

Most concentrated thermal solar power uses convectional liquids as its working fluid for
power generation. These fluids have a low heat conduction strength that cannot keep up …

In this study, entropy production in flow along with heat transport of non-Newtonian fluid via
porous medium, is analyzed. For fluid flow via porous medium, a modified Darcy resistance …

In this study we investigated unsteady mixed convection flow and heat transfer of radiating
and reacting nanofluid with variable transport properties in a microchannel filed with a …

This study investigates the current density and branch-chain thermal criticality for a non-
Newtonian hydromagnetic second-grade fluid flow in a Poiseuille device with varying …

Boundary layer analysis is invoked to clarify the aspects of variable thermal conductivity and
thermophoretic forces on a steady state of MHD micropolar fluid flow in the existence of a …

Nanofluids flow and heat transfer in micro-channels have a wide range of attributes in
industrial process as well as engineering and biomedical applications. Therefore, the aim of …