Detergency and its implications for oil emulsion sieving and separation
Thomas M. Schutzius, Christopher Walker, Tanmoy Maitra, Romy, Sch\"onherr, Christos Stamatopoulos, Stefan Jung, Carlo Antonini, Hadi, Eghlidi, Julie L. Fife, Alessandra Patera, Dominique Derome, Dimos Poulikakos

TL;DR
This paper investigates how surfactant-stabilized oil-water emulsions can be efficiently separated using filters without special surface treatments, by understanding droplet behavior and flow conditions.
Contribution
It reveals that surfactant-stabilized droplets are intrinsically repelled by common materials, enabling effective separation without surface modifications, and identifies optimal flow and pore conditions for filtration.
Findings
Surfactant-stabilized droplets are intrinsically repelled by many materials.
Optimal flow conditions minimize droplet deformation for efficient separation.
Commercial filters can achieve high flux without surface engineering.
Abstract
Separating petroleum hydrocarbons from water is an important problem to address in order to mitigate the disastrous effects of hydrocarbons on aquatic ecosystems. A rational approach to address the problem of marine oil water separation is to disperse the oil with the aid of surfactants in order to minimize the formation of large slicks at the water surface and to maximize the oil-water interfacial area. Here we investigate the fundamental wetting and transport behavior of such surfactant-stabilized droplets and the flow conditions necessary to perform sieving and separation of these stabilized emulsions. We show that, for water soluble surfactants, such droplets are completely repelled by a range of materials (intrinsically underwater superoleophobic) due to the detergency effect; therefore, there is no need for surface micro/nanotexturing or chemical treatment to repel the oil and…
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