Nanofluids are often able to provide a method to increase the possible heat transfer of a
system, with relatively few detrimental factors created by its inclusion. The use of nanofluids …

Heat enhancement and heat storage are becoming important engineering topics related to
renewable energy. Different fluid classes have been proposed, and various types of phase …

In this paper, we have presented an innovative model for coupled vibrations of nanotubes
conveying fluid by considering the small-size effects on the flow field. By this model, we have …

The analytical heat transfer performance study (ie HTP, introduced as the ratio of the heat
transfer rate enhancement to the pressure drop increment) for microchannels enhanced by a …

An analytic solution on fully developed forced convection, in parallel plates porous micro-
channels is accomplished in Local Thermal Non-Equilibrium (LTNE) condition. The analysis …

Efficiency improvements in systems are essential for reducing energy loss. One effective
approach involves utilizing micro-and nanoscale devices that outperform conventional …

Forced convection heat transfer in a micro-channel filled with a porous material saturated
with rarefied gas with internal heat generation is studied analytically in this work. The study …

In this paper, we investigate the effect of nano-size of both fluid flow and elastic structure
simultaneously on the vibrational behavior of a pinned–pinned and a clamped–clamped …

The paper outlines results of a study of mixed free and forced convection in vertical flat and
circular microchannels occupied with porous medium subject to slip boundary conditions …

The aim of this study is to examine the influence of several porous layer configurations on
the hydrodynamics and thermal performance in a channel or microchannel. Various …