Inverse Saffman-Taylor Experiments with Particles Lead to Capillarity Driven Fingering Instabilities

Ilyesse Bihi, Michael Baudoin, Jason E. Butler, Christine Faille, and Farzam Zoueshtiagh

Phys. Rev. Lett. 117, 034501 – Published 12 July 2016

Abstract

Using air to displace a viscous fluid contained in a Hele-Shaw cell can create a fingering pattern at the interface between the fluids if the capillary number exceeds a critical value. This Saffman-Taylor instability is revisited for the inverse case of a viscous fluid displacing air when partially wettable hydrophilic particles are lying on the walls. Though the inverse case is otherwise stable, the presence of the particles results in a fingering instability at low capillary number. This capillary-driven instability is driven by the integration of particles into the interface which results from the minimization of the interfacial energy. Both axisymmetric and rectangular geometries are considered in order to quantify this phenomenon.

Received 14 January 2016

DOI:https://doi.org/10.1103/PhysRevLett.117.034501

Physics Subject Headings (PhySH)

Saffman-Taylor instability

Hele-Shaw cell

Fluid Dynamics

Authors & Affiliations

Ilyesse Bihi^1,2, Michael Baudoin^1,*, Jason E. Butler², Christine Faille³, and Farzam Zoueshtiagh^1,†

¹Université Lille, CNRS, ECLille, ISEN, Université Valenciennes, UMR 8520–IEMN, F-59000 Lille, France
²Department of Chemical Engineering, University of Florida, Gainesville, Florida 32611, USA
³INRA, UR638, Villeneuve d’Ascq, France

^*michael.baudoin@univ-lille1.fr
^†farzam.zoueshtiagh@univ-lille1.fr

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Issue

Vol. 117, Iss. 3 — 15 July 2016

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