Liquid–Liquid Flows with Non-Newtonian Dispersed Phase in a T-Junction Microchannel

Abstract: Immiscible liquid–liquid flows in microchannels are used extensively in various chemical and biological lab-on-a-chip systems when it is very important to predict the expected flow pattern for a variety of fluids and channel geometries. Commonly, biological and other complex liquids express non-Newtonian properties in a dispersed phase. Features and behavior of such systems are not clear to date. In this paper, immiscible liquid–liquid flow in a T-shaped microchannel was studied by means of high-speed visualiz… Show more

“…This phenomenon is consistent with that reported in the literature. 23 It has been demonstrated in our previous work that there is a sudden increase in the droplet size when the transformation from dripping to jetting occurs due to the variation in the location of the droplet fracture. 21 In this work, at a fixed dispersed phase flow rate, with the increase in the continuous phase flow rate, no sudden increase in the droplet size was observed.…”

A novel observation platform for determining the micro-dispersion performance in practical reaction systems

“…This phenomenon is consistent with that reported in the literature. 23 It has been demonstrated in our previous work that there is a sudden increase in the droplet size when the transformation from dripping to jetting occurs due to the variation in the location of the droplet fracture. 21 In this work, at a fixed dispersed phase flow rate, with the increase in the continuous phase flow rate, no sudden increase in the droplet size was observed.…”

A novel observation platform for determining the micro-dispersion performance in practical reaction systems

Simulation of viscoelastic droplet formation in T-type microchannels using OpenFOAM

Distribution of liquid–liquid two-phase flow in branching T-junction microchannels