Porous media, Fast diffusion equations and the existence of global weak solution for the quasi-solution of compressible Navier-Stokes equations

Abstract

In arxiv,arxiv1,Kor,cras1,cras2, we have developed a new tool called quasi solutions which approximate in some sense the compressible Navier-Stokes equation. In particular it allows us to obtain global strong solution for the compressible Navier-Stokes equations with large initial data on the irrotational part of the velocity (large in the sense that the smallness assumption is subcritical in terms of scaling, it turns out that in this framework we are able to obtain a family of large initial data in the energy space in dimension N=2). In this paper we are interested in proving the result anounced in cras3 concerning the existence of global weak solution for the quasi-solutions, we also observe that for some choice of initial data (irrotationnal) the quasi solutions verify the porous media, the heat equation or the fast diffusion equations in function of the structure of the viscosity coefficients. In particular it implies that it exists classical quasi-solutions in the sense that they are C∞ on (0,T)×N for any T>0. Finally we show the convergence of the global weak solution of compressible Navier-Stokes equations to the quasi solutions in the case of a vanishing pressure limit process. In particular we show that for highly compressible equations the speed of propagation of the density is quasi finite when the viscosity corresponds to μ()=α with α>1. Furthermore the density is not far from converging asymptotically in time to the Barrenblatt solution of mass the initial density 0.