4.6 Article

Effect of surfactant addition and viscosity of the continuous phase on flow fields and kinetics of drop formation in a flow-focusing microfluidic device

Journal

CHEMICAL ENGINEERING SCIENCE
Volume 248, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ces.2021.117183

Keywords

Microfluidics; Ghost Particle Velocimetry; Droplet formation; Surfactants; Marangoni phenomena

Funding

  1. EPSRC PhD studentship in the School of Chemical Engineering [MEMPHIS EP/K003976/1]
  2. EPSRC [PREMIERE EP/T000414/1]
  3. EPSRC [EP/T000414/1, EP/K003976/1] Funding Source: UKRI

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The study investigated droplet formation in a flow focusing microfluidic device for capillary numbers between 10^(-4) and 10^(-1). Results showed that droplet size decreased with an increase of the capillary number, and the neck thinning rate during necking depended on surfactant concentration. During necking, velocities along the neck interface were smaller for surfactant laden cases due to Marangoni phenomena.
Droplet formation in a flow focusing microfluidic device was studied for capillary numbers between 10(-4) and 10(-1). The addition of a cationic surfactant to the dispersed phase and the effect of the continuous phase viscosity on droplet size, neck kinetics and flow fields inside the drop was investigated. Droplet size decreased with an increase of the capillary number following a power law with an exponent dependent on drop confinement. At 1-3 ms before pinch-off, the neck thinning rate is dependent on surfactant concentration and increases closer to pinch-off. For the 96 mPa s continuous phase, the two-fluid Stokes regime is observed with an effective interfacial tension smaller than the equilibrium value, suggesting a negative contribution of Marangoni stresses. During necking, velocities along the neck interface for the surfactant laden cases are smaller due to Marangoni phenomena. During expansion, increased fluid velocities and recirculation are observed. (C) 2021 Elsevier Ltd. All rights reserved.

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