Contact problems for particles in a shear flow

Nicolas Verdon; Aline Lefebvre-Lepot; Laurent Lobry; Patrice Laure

doi:10.3166/ejcm.19.513-531

Contact problems for particles in a shear flow

Nicolas Verdon
, Aline Lefebvre-Lepot
, Laurent Lobry
, Patrice Laure

Université de Nice
Université Côte D’Azur

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

This paper focuses on improving the description of the contact between solid particles in a fluid flow. The numerical approach used is related to the fictitious domain method for the fluid-solid problem. It is associated to a gluey particle model in order to improve the behaviour of the particles during their contacts as a Lagrangian method is applied for their displacement. The numerical methodology is validated through 2D and 3D computations describing interactions of two particles in a shear flow. The results obtained show the ability of the scheme to recover the reversibility of the Stokes equations, even for 3D configurations. Finally, another example is studied with larger number of particles.

langue originale	Anglais
Pages (de - à)	513-531
Nombre de pages	19
journal	European Journal of Computational Mechanics
Volume	19
Numéro de publication	5-7
Les DOIs	https://doi.org/10.3166/ejcm.19.513-531
état	Publié - 1 janv. 2010

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title = "Contact problems for particles in a shear flow",

abstract = "This paper focuses on improving the description of the contact between solid particles in a fluid flow. The numerical approach used is related to the fictitious domain method for the fluid-solid problem. It is associated to a gluey particle model in order to improve the behaviour of the particles during their contacts as a Lagrangian method is applied for their displacement. The numerical methodology is validated through 2D and 3D computations describing interactions of two particles in a shear flow. The results obtained show the ability of the scheme to recover the reversibility of the Stokes equations, even for 3D configurations. Finally, another example is studied with larger number of particles.",

keywords = "Contact, Fictitious domain method, Gluey model, Level-set, Stokes equation, Suspension",

author = "Nicolas Verdon and Aline Lefebvre-Lepot and Laurent Lobry and Patrice Laure",

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AU - Verdon, Nicolas

AU - Lefebvre-Lepot, Aline

AU - Lobry, Laurent

AU - Laure, Patrice

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Y1 - 2010/1/1

N2 - This paper focuses on improving the description of the contact between solid particles in a fluid flow. The numerical approach used is related to the fictitious domain method for the fluid-solid problem. It is associated to a gluey particle model in order to improve the behaviour of the particles during their contacts as a Lagrangian method is applied for their displacement. The numerical methodology is validated through 2D and 3D computations describing interactions of two particles in a shear flow. The results obtained show the ability of the scheme to recover the reversibility of the Stokes equations, even for 3D configurations. Finally, another example is studied with larger number of particles.

AB - This paper focuses on improving the description of the contact between solid particles in a fluid flow. The numerical approach used is related to the fictitious domain method for the fluid-solid problem. It is associated to a gluey particle model in order to improve the behaviour of the particles during their contacts as a Lagrangian method is applied for their displacement. The numerical methodology is validated through 2D and 3D computations describing interactions of two particles in a shear flow. The results obtained show the ability of the scheme to recover the reversibility of the Stokes equations, even for 3D configurations. Finally, another example is studied with larger number of particles.

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KW - Fictitious domain method

KW - Gluey model

KW - Level-set

KW - Stokes equation

KW - Suspension

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SP - 513

EP - 531

JO - European Journal of Computational Mechanics

JF - European Journal of Computational Mechanics

IS - 5-7

ER -

Contact problems for particles in a shear flow

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