Highly rotating viscous compressible fluids in presence of capillarity effects

Abstract

In this paper we study a singular limit problem for a Navier-Stokes-Korteweg system with Coriolis force, in the domain 2×\,]0,1[\, and for general ill-prepared initial data. Taking the Mach and the Rossby numbers to be proportional to a small parameter going to 0, we perform the incompressible and high rotation limits simultaneously. Moreover, we consider both the constant capillarity and vanishing capillarity regimes. In this last case, the limit problem is identified as a 2-D incompressible Navier-Stokes equation in the variables orthogonal to the rotation axis. If the capillarity is constant, instead, the limit equation slightly changes, keeping however a similar structure. Various rates at which the capillarity coefficient can vanish are also considered: in most cases this will produce an anisotropic scaling in the system, for which a different analysis is needed. The proof of the results is based on suitable applications of the RAGE theorem.