Abstract

The formation of an aqueous droplet in an organic continuous phase was studied experimentally inside a flow-focusing microchannel (190 μm × 195 μm: depth × width) in the presence of surfactants. A low viscosity silicone oil (0.0046 Pa s) was used as the continuous phase and a mixture of 48% w/w water and 52% w/w glycerol was the dispersed phase. Two ionic surfactants, C12TAB (50 mM) and C16TAB (5 mM) were added in the aqueous phase, at concentrations above the CMC values. Four regimes of drop formation were identified, namely squeezing, dripping, jetting and threading, whose boundaries changed when the surfactants were present. The drop formation process and the velocity profiles in both phases in the squeezing and dripping regimes were studied in more detail using a two-colour Particle Image Velocimetry technique. For all solutions studied, three distinct drop formation stages were identified, expansion, necking and pinch-off. The surfactant-laden solutions produced smaller drops. Considering the dynamic interfacial tension, rather than the equilibrium one, it was possible to explain differences in the drop formation between the two surfactant systems in the expansion stage. The forces acting on the forming drops were estimated and showed that the drag force overcomes the interfacial tension force at the transition between the expansion and necking stages. During this transition, the curvature of the neck changed while its thinning rate was increased. The transition from the necking to the pinch-off stage was signified by a flow reversal at the bottom part of the drop.

Highlights

  • For a better understanding of the drop formation process, knowledge of the velocity fields in the continuous and dispersed phases would be necessary to evaluate the effects of surfactants

  • The surfactants were dissolved in the aqueous phase and one concentration of each surfactant was used in the current experiments: 50 mM for C12TAB and 5 mM for C16TAB

  • 1.5 Conclusions The flow patterns and drop formation process were studied in a flow focusing microfluidic device using silicone oil as the continuous phase and water/glycerol aqueous solutions that contained different concentrations of surfactants as the dispersed phase

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Summary

University of Birmingham

Evangelia; Kovalchuk, Nina M.; Chinaud, Maxime; Nowak, Emilia; Simmons, Mark J.h.; Angeli, Panagiota. Document Version Peer reviewed version Citation for published version (Harvard): Roumpea, E, Kovalchuk, NM, Chinaud, M, Nowak, E, Simmons, MJH & Angeli, P 2018, 'Experimental studies on droplet formation in a flow-focusing microchannel in the presence of surfactants', Chemical Engineering Science.

Introduction
Silicone oil
Dispersed phase
Drag Interfacial tension

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