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Conference Papers Year : 2010

Methods for the coupled Stokes-Darcy problem

Antoine Sellier
• Function : Author

Abstract

The motion of particles in a viscous fluid close to a porous membrane is modelled for the case when particles are large compared with the size of pores of the membrane. The hydrodynamic interactions of one particle with the membrane are detailed here. The model involves Stokes equations for the fluid motion around the particle together with Darcy equations for the flow in the porous membrane and Stokes equations for the flow on the other side of the membrane. Boundary conditions at the fluid-membrane interface are the continuity of pressure and velocity in the normal direction and the Beavers and Joseph slip condition on the fluid side in the tangential directions. The no-slip condition applies on the particle. This problem is solved here by two different methods. The first one is an extended boundary integral method (EBIM). A Green function is derived for the flow close to a porous membrane. This function is non-symmetric, leading to difficulties hindering the application of the classical boundary integral method (BIM). Thus, an extended method is proposed, in which the unknown distribution of singularities on the particle surface is not the stress, like in the classical boundary integral method. Yet, the hydrodynamic force and torque on the particle are obtained by integrals of this distribution on the particle surface. The second method consists in searching the solution as an asymptotic expansion in term of a small parameter that is the ratio of the typical pore size to the particle size. The various boundary conditions are taken into account at successive orders: order (0) simply represents an impermeable wall without slip and order (1) an impermeable wall with a peculiar slip prescribed by order (0); at least the 3rd order is necessary to enforce all boundary conditions. The methods are applied numerically to a spherical particle and comparisons are made with earlier works in particular cases. © 2010 American Institute of Physics.

Dates and versions

hal-01025981 , version 1 (21-07-2014)

Identifiers

• HAL Id : hal-01025981 , version 1
• DOI :

Cite

F. Feuillebois, S. Khabthani, L. Elasmi, Antoine Sellier. Methods for the coupled Stokes-Darcy problem. 2nd International Conference on Application of mathemaics in technical and natural sciences, Jun 2006, Sozopol, Bulgaria. pp.14-25, ⟨10.1063/1.3526609⟩. ⟨hal-01025981⟩

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