We present a pseudopotential lattice Boltzmann method to simulate liquid–liquid emulsions with a slightly soluble surfactant.
The model is investigated in 2-D, over a wide parameter space for a single, stationary, immiscible droplet, and surface
tension reduction by up to 15% is described in terms of a surfactant strength Λ (which roughly follows a Langmuir
isotherm). The basic surfactant model is shown to be insufficient for arresting phase segregation—which is then achieved
by changing the liquid–liquid interaction strength locally as a function of the surfactant density. 3-D spinodal decomposition
(phase separation) is simulated, where the surfactant is seen to adapt rapidly to the evolving interfaces. Finally, for
pendent droplet formation in an immiscible liquid, the addition of surfactant is shown to alter the droplet-size distribution
and dynamics of newly formed droplets.
History
Publication
AIChE Journal;65 (2), pp. 811-828
Publisher
Wiley Periodicals, Inc. on behalf of American Institute of Chemical Engineers