Euler equations with non-homogeneous Navier slip boundary condition

Abstract

We consider the flow of an ideal fluid in a 2D-bounded domain, admitting flows through the boundary of this domain. The flow is described by Euler equations with non-homogeneous Navier slip boundary conditions. These conditions can be written in the form v· n=a, 2D(v)n· s+α v% · s=b, where the tensor D(v) is the rate-of-strain of the fluid's velocity v and\ (n,% s) is the pair formed by the normal and tangent vectors to the boundary. We establish the solvability of this problem in the class of solutions with Lp-bounded \ vorticity, p∈ (2,∞ ]. To prove the solvability we realize the passage to the limit in Navier-Stokes equations with vanishing viscosity.