1. Capillary imbibition of monodisperse emulsions in confined microfluidic channels
- Author
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Darabad, Masoud Norouzi, Singha, Sagnik, Blawzdziewicz, Jerzy, Vanapalli, Siva A., and Vaughn, Mark W.
- Subjects
Condensed Matter - Soft Condensed Matter ,Physics - Fluid Dynamics - Abstract
We investigate imbibition of a monodisperse emulsion into a low-aspect ratio microfluidic channel with the height h comparable to the droplet diameter d. For confinement ratio d/h = 1.2, the tightly confined disk-like droplets in the channel move more slowly compared to the average suspension velocity. Behind the meniscus that drives the imbibition, there is a droplet-free region, separated from the suspension region by a sharp concentration front. The suspension exhibits strong droplet density and velocity fluctuations, but on average, the suspension domain remains uniform. For weaker confinement, d/h = 0.65, the spherical droplets move faster than the average suspension flow, resulting in the formation of a dynamically unstable high-concentration region near the meniscus. We describe the macroscopic suspension dynamics using linear transport equations for the particle-phase flux and suspension flux that are driven by the local pressure gradient. A dipolar particle interaction model explains the observed large density and velocity fluctuations in terms of the dynamics of elongated particle clusters with different orientations.
- Published
- 2021