The stability of a non-Newtonian nanofluid saturated horizontal rotating porous layer
subjected to thermal conductivity and viscosity variation is investigated using linear and …

Heat and mass transfer in microscale flows are limited due to extremely low Reynolds
number (Re). In a curved microchannel, however, complex flow behaviors, such as elastic …

The study of rotating flow with nanoparticles over multiple geometries under substantial
physical implications has frequent applications in engineering and manufacturing fields. The …

Computational fluid dynamic (CFD) simulation is a powerful tool in the design and
implementation of microfluidic systems, especially for systems that involve hydrodynamic …

A compelling solution to the issue of high heat flux generated by flexible electronic devices
has been found in liquid-based microfluidic cooling devices. It has been earlier realized that …

Mixing in numerous medical and chemical applications, involving overly long
microchannels, can be enhanced by inducing flow instabilities. The channel length is thus …

Mixing is a critical process in reagent reactions used in biomedical applications.
Nevertheless, achieving rapid mixing in microfluidics is challenging because of the low …

Purpose The paper aims to consider heat transfer in incompressible flow in a rotating flat
microchannel with allowance for boundary slip conditions of the first and second order. The …

The effect of rotation on the onset of Soret-driven buoyancy convection in an initially
quiescent, horizontal fluid saturated porous layer with nanoparticles suspensions heated …

Centrifugal rotation is one of the most important techniques for separating and purifying
particles or cells, which enables broad applications in biomedicine and chemistry. To study …