Our researchers Elissa Eggenweiler and Iryna Rybak (research project A03 "Development of interface concepts using averaging techniques") have published the new SFB 1313 paper "Unsuitability of the Beavers-Joseph interface condition for filtration problems" in theJournal of Fluid Mechanics.
Abstract
Coupled free-flow and porous-medium systems appear in a variety of industrial and environmental applications. Fluid flow in the free-flow domain is typically described by the (Navier-)Stokes equations while Darcy's law is applied in the porous medium.
The correct choice of coupling conditions on the fluid-porous interface is crucial for accurate numerical simulations of coupled problems. We found out that the Beavers-Joseph interface condition, which is widely used not only for fluid flow parallel to the porous layer but also for filtration problems, is unsuitable for arbitrary flow directions. To validate our statement, we provide several examples and compare numerical simulation results for the coupled Stokes-Darcy problems to the pore-scale resolved models. We show also that the Beavers-Joseph parameter cannot be fitted for arbitrary flow directions.
Publication "Unsuitability of the Beavers-Joseph interface condition for filtration problems"
Contact
Elissa Eggenweiler
Doctoral Researcher, Research Project A03