Issue 17, 2024

Emergence of preferential flow paths and intermittent dynamics in emulsion transport in porous media

Abstract

We investigate the dynamics of emulsions within a two-dimensional porous medium using an integrated experimental approach that combines pore-level dynamics of single emulsions and bulk transport properties of the medium. Using an on-chip microfluidic drop-maker, we precisely control the concentration and sizes of emulsions injected into the medium. The dynamics of emulsion droplets are highly intermittent despite a small average velocity over the trajectory of an individual emulsion. At low concentrations, emulsions predominantly flow through pores with higher local velocities including pores smaller than the size of emulsion droplets, leading to trapping of emulsions and a decrease in medium porosity. Preferential pathways for the emulsions emerge within the medium once the porosity of the medium decreases significantly, from 55% to 36%. At constant injection flow rates and low concentrations of monodisperse emulsions, these pathways remain the only paths of transport of emulsions within the medium. Introducing a slight polydispersity in emulsion sizes unveiled additional transport pathways. Our pore-level measurements reveal that the average velocity of emulsions scales with the inverse residence time of an emulsion, and this scaling separates the emulsions into distinct groups along the emergent preferential pathways.

Graphical abstract: Emergence of preferential flow paths and intermittent dynamics in emulsion transport in porous media

Supplementary files

Article information

Article type
Paper
Submitted
30 Oct 2023
Accepted
29 Feb 2024
First published
29 Feb 2024
This article is Open Access
Creative Commons BY license

Soft Matter, 2024,20, 3585-3592

Emergence of preferential flow paths and intermittent dynamics in emulsion transport in porous media

M. Izaguirre and S. Parsa, Soft Matter, 2024, 20, 3585 DOI: 10.1039/D3SM01465G

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