A note on Hamiltonian structures for compressible, stratified and incompressible fluids

This paper presents a simple justification of the classical low Mach number limit in critical Besov spaces for compressible Euler equations with prepared initial data. As the first step of this justification, we formulate a continuation principle for general hyperbolic singular limit problems in the

Using the generalized variable formulation of the Euler equations of fluid dynamics, we develop a numerical method that is capable of simulating the flow of fluids with widely differing thermodynamic behavior: ideal and real gases can be treated with the same method as an incompressible fluid. The w

The macroscopic porous media theory consists of the mixture theory\ restricted by the volume fraction concept[ The incorporation of this concept leads to major di.culties in constructing a consistent macroscopic theory[ With the help of thermodynamic restrictions\ in addition with the multiplicative

A new finite element formulation designed for both compressible and nearly incompressible viscous flows is presented. The formulation combines conservative and non-conservative dependent variables, namely, the mass-velocity (densityvelocity), internal energy and pressure. The central feature of the