Motion of particles in a parabolic flow near a slip wall

F. Feuillebois; N. Ghalya; A. Sellier; L. Elasmi

doi:10.1063/1.3659937

Motion of particles in a parabolic flow near a slip wall

F. Feuillebois
, N. Ghalya
, A. Sellier
, L. Elasmi

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Consider a suspension of dilute spherical particles transported in the flow of a viscous fluid along a wall. A Navier slip condition applies on the wall, in view of applications to hydrophobic walls in microchannels. The Stokes flow problem for a sphere in a quadratic shear flow is solved here by the method of bispherical coordinates. It is shown how the infinite linear system for four coupled series of coefficients may be solved with a cost that is simply proportional to the number of coefficients. Results are the force and torque on a fixed sphere and the velocities of translation and rotation of a freely moving sphere in a quadratic flow near a slip wall. The stresslet, that is the symmetric moment of surface stresses on the sphere, is also derived in view of applications to suspension rheology. Finally, expansions of the various quantities for a large distance from the wall and for a low slip length are performed on the basis of the analytical solutions, using computer algebra. Padé approximants calculated therefrom provide a good approximation.

Original language	English
Title of host publication	Application of Mathematics in Technical and Natural Sciences - 3rd International Conference, AMiTaNS'11
Pages	340-351
Number of pages	12
DOIs	https://doi.org/10.1063/1.3659937
Publication status	Published - 1 Jan 2011
Event	3rd International Conference on Application of Mathematics in Technical and Natural Sciences, AMiTaNS'11 - Albena, Bulgaria Duration: 20 Jun 2011 → 25 Jun 2011

Publication series

Name	AIP Conference Proceedings
Volume	1404
ISSN (Print)	0094-243X
ISSN (Electronic)	1551-7616

Conference

Conference	3rd International Conference on Application of Mathematics in Technical and Natural Sciences, AMiTaNS'11
Country/Territory	Bulgaria
City	Albena
Period	20/06/11 → 25/06/11

Keywords

Creeping flow
slip boundary condition
suspensions

Access to Document

10.1063/1.3659937

Cite this

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title = "Motion of particles in a parabolic flow near a slip wall",

abstract = "Consider a suspension of dilute spherical particles transported in the flow of a viscous fluid along a wall. A Navier slip condition applies on the wall, in view of applications to hydrophobic walls in microchannels. The Stokes flow problem for a sphere in a quadratic shear flow is solved here by the method of bispherical coordinates. It is shown how the infinite linear system for four coupled series of coefficients may be solved with a cost that is simply proportional to the number of coefficients. Results are the force and torque on a fixed sphere and the velocities of translation and rotation of a freely moving sphere in a quadratic flow near a slip wall. The stresslet, that is the symmetric moment of surface stresses on the sphere, is also derived in view of applications to suspension rheology. Finally, expansions of the various quantities for a large distance from the wall and for a low slip length are performed on the basis of the analytical solutions, using computer algebra. Pad{\'e} approximants calculated therefrom provide a good approximation.",

keywords = "Creeping flow, slip boundary condition, suspensions",

author = "F. Feuillebois and N. Ghalya and A. Sellier and L. Elasmi",

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booktitle = "Application of Mathematics in Technical and Natural Sciences - 3rd International Conference, AMiTaNS'11",

note = "3rd International Conference on Application of Mathematics in Technical and Natural Sciences, AMiTaNS'11 ; Conference date: 20-06-2011 Through 25-06-2011",

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Feuillebois, F, Ghalya, N, Sellier, A & Elasmi, L 2011, Motion of particles in a parabolic flow near a slip wall. in Application of Mathematics in Technical and Natural Sciences - 3rd International Conference, AMiTaNS'11. AIP Conference Proceedings, vol. 1404, pp. 340-351, 3rd International Conference on Application of Mathematics in Technical and Natural Sciences, AMiTaNS'11, Albena, Bulgaria, 20/06/11. https://doi.org/10.1063/1.3659937

Motion of particles in a parabolic flow near a slip wall. / Feuillebois, F.; Ghalya, N.; Sellier, A. et al.
Application of Mathematics in Technical and Natural Sciences - 3rd International Conference, AMiTaNS'11. 2011. p. 340-351 (AIP Conference Proceedings; Vol. 1404).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Motion of particles in a parabolic flow near a slip wall

AU - Feuillebois, F.

AU - Ghalya, N.

AU - Sellier, A.

AU - Elasmi, L.

PY - 2011/1/1

Y1 - 2011/1/1

N2 - Consider a suspension of dilute spherical particles transported in the flow of a viscous fluid along a wall. A Navier slip condition applies on the wall, in view of applications to hydrophobic walls in microchannels. The Stokes flow problem for a sphere in a quadratic shear flow is solved here by the method of bispherical coordinates. It is shown how the infinite linear system for four coupled series of coefficients may be solved with a cost that is simply proportional to the number of coefficients. Results are the force and torque on a fixed sphere and the velocities of translation and rotation of a freely moving sphere in a quadratic flow near a slip wall. The stresslet, that is the symmetric moment of surface stresses on the sphere, is also derived in view of applications to suspension rheology. Finally, expansions of the various quantities for a large distance from the wall and for a low slip length are performed on the basis of the analytical solutions, using computer algebra. Padé approximants calculated therefrom provide a good approximation.

AB - Consider a suspension of dilute spherical particles transported in the flow of a viscous fluid along a wall. A Navier slip condition applies on the wall, in view of applications to hydrophobic walls in microchannels. The Stokes flow problem for a sphere in a quadratic shear flow is solved here by the method of bispherical coordinates. It is shown how the infinite linear system for four coupled series of coefficients may be solved with a cost that is simply proportional to the number of coefficients. Results are the force and torque on a fixed sphere and the velocities of translation and rotation of a freely moving sphere in a quadratic flow near a slip wall. The stresslet, that is the symmetric moment of surface stresses on the sphere, is also derived in view of applications to suspension rheology. Finally, expansions of the various quantities for a large distance from the wall and for a low slip length are performed on the basis of the analytical solutions, using computer algebra. Padé approximants calculated therefrom provide a good approximation.

KW - Creeping flow

KW - slip boundary condition

KW - suspensions

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BT - Application of Mathematics in Technical and Natural Sciences - 3rd International Conference, AMiTaNS'11

T2 - 3rd International Conference on Application of Mathematics in Technical and Natural Sciences, AMiTaNS'11

Y2 - 20 June 2011 through 25 June 2011

ER -

Motion of particles in a parabolic flow near a slip wall

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Keywords

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