Clogging of a Rectangular Slit by a Spherical Soft Particle

Charles Paul Moore; Julien Husson; Arezki Boudaoud; Gabriel Amselem; Charles N. Baroud

doi:10.1103/PhysRevLett.130.064001

Clogging of a Rectangular Slit by a Spherical Soft Particle

Charles Paul Moore, Julien Husson, Arezki Boudaoud, Gabriel Amselem, Charles N. Baroud

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Abstract

The capture of a soft spherical particle in a rectangular slit leads to a nonmonotonic pressure-flow rate relation at low Reynolds number. Simulations reveal that the flow induced deformations of the trapped particle focus the streamlines and pressure drop to a small region. This increases the resistance to flow by several orders of magnitude as the driving pressure is increased. As a result, two regimes are observed in experiments and simulations: a flow-dominated regime for small particle deformations, where flow rate increases with pressure, and an elastic-dominated regime in which solid deformations block the flow.

Original language	English
Article number	064001
Journal	Physical Review Letters
Volume	130
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevLett.130.064001
Publication status	Published - 10 Feb 2023

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10.1103/PhysRevLett.130.064001

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title = "Clogging of a Rectangular Slit by a Spherical Soft Particle",

abstract = "The capture of a soft spherical particle in a rectangular slit leads to a nonmonotonic pressure-flow rate relation at low Reynolds number. Simulations reveal that the flow induced deformations of the trapped particle focus the streamlines and pressure drop to a small region. This increases the resistance to flow by several orders of magnitude as the driving pressure is increased. As a result, two regimes are observed in experiments and simulations: a flow-dominated regime for small particle deformations, where flow rate increases with pressure, and an elastic-dominated regime in which solid deformations block the flow.",

author = "Moore, \{Charles Paul\} and Julien Husson and Arezki Boudaoud and Gabriel Amselem and Baroud, \{Charles N.\}",

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AU - Husson, Julien

AU - Boudaoud, Arezki

AU - Amselem, Gabriel

AU - Baroud, Charles N.

PY - 2023/2/10

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AB - The capture of a soft spherical particle in a rectangular slit leads to a nonmonotonic pressure-flow rate relation at low Reynolds number. Simulations reveal that the flow induced deformations of the trapped particle focus the streamlines and pressure drop to a small region. This increases the resistance to flow by several orders of magnitude as the driving pressure is increased. As a result, two regimes are observed in experiments and simulations: a flow-dominated regime for small particle deformations, where flow rate increases with pressure, and an elastic-dominated regime in which solid deformations block the flow.

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Clogging of a Rectangular Slit by a Spherical Soft Particle

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