Particle separation in microfluidic devices - SPLITT fractionation and microfluidics

In the case of neglecting inter-particle collision, small-inertia particles tend to accumulate in the near-wall region and especially the concentration of lycopodium particles is

The main objective of this study was to determine the effects of different process parameters such as flow rate, carrier fluid viscosity, particle type, particle concentration, and

effect of background electrolyte solutions with divalent cation on particle transport behavior, for both large and small particle; (2) the effect of concentration and

MRFs with guar gum coated CIPs provided higher yield stress and stability due to improved particle compatibility with carrier fluid and reduced density

To study fluid particle interaction in sediment transport problems, LES turbulent modelling have been utilised to capture small and large turbulence scales in

It implies that by reducing the size of the carrier pipe, the particle deposition rate increases in the diffusion region as a result of Brownian motion

A reduction in base width will causes the gradient in minority carrier concentration to increase, which in turn causes an increased in the diffusion current.. This effect si known

Reynolds Stress Turbulence Model (RSM) and Discrete Phase Model (DPM) were employed in Computational Fluid Dynamics (CFD) 3D simulation to draw the motion trace of single particle