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Motion of Small Solid Particles in a Viscous Fluid Enclosed in a Cavity

L. Hedhili, A. Sellier, L. Elasmi, F. Feuillebois

Computer Modeling in Engineering & Sciences 2011, 73(2), 137-170. https://doi.org/10.3970/cmes.2011.073.137

Abstract

The motion of a solid particle embedded in a viscous fluid in a closed container requires a precise account of wall effects when in creeping flow. The boundary integral method, which amounts to solving a Fredholm integral equation for the stress on the particle and walls, is used here. The accuracy of the method is improved by using curvilinear six-node triangular boundary elements, the size of which is specially adapted to the particle shape and position with respect to walls. The method is applied to resolve the case of a moving particle in a parallelepiped container. It is validated by comparing with earlier analytical results for a sphere interacting with two parallel or perpendicular walls and with numerical results for a sphere in the center of a cubic container. Results are then provided for a spherical and an ellipsoidal particle, both either with imposed motion or settling in a cubic container.

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Hedhili, L., Sellier, A., Elasmi, L., Feuillebois, F. (2011). Motion of Small Solid Particles in a Viscous Fluid Enclosed in a Cavity. CMES-Computer Modeling in Engineering & Sciences, 73(2), 137–170.



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