Homogenization of the Navier-Stokes equations in perforated domains in the inviscid limit

Abstract

We study the solution u to the Navier-Stokes equations in R3 perforated by small particles centered at ( Z)3 with no-slip boundary conditions at the particles. We study the behavior of u for small , depending on the diameter α, α > 1, of the particles and the viscosity γ, γ > 0, of the fluid. We prove quantitative convergence results for u in all regimes when the local Reynolds number at the particles is negligible. Then, the particles approximately exert a linear friction force on the fluid. The obtained effective macroscopic equations depend on the order of magnitude of the collective friction. We obtain a) the Euler-Brinkman equations in the critical regime, b) the Euler equations in the subcritical regime and c) Darcy's law in the supercritical regime.