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Coupling of compressible and incompressible flow regions using the multiple pressure variables approach
Authors:Markus Boger  Felix Jaegle  Rupert Klein  Claus‐Dieter Munz
Affiliation:1. Institute of Aerodynamics and Gas Dynamics, University of Stuttgart, 70569 Stuttgart, Germany;2. Institut für Mathematik, Freie Universit?t Berlin, 14195 Berlin, Germany
Abstract:In many cases, multiphase flows are simulated on the basis of the incompressible Navier–Stokes equations. This assumption is valid as long as the density changes in the gas phase can be neglected. Yet, for certain technical applications such as fuel injection, this is no longer the case, and at least the gaseous phase has to be treated as a compressible fluid. In this paper, we consider the coupling of a compressible flow region to an incompressible one based on a splitting of the pressure into a thermodynamic and a hydrodynamic part. The compressible Euler equations are then connected to the Mach number zero limit equations in the other region. These limit equations can be solved analytically in one space dimension that allows to couple them to the solution of a half‐Riemann problem on the compressible side with the help of velocity and pressure jump conditions across the interface. At the interface location, the flux terms for the compressible flow solver are provided by the coupling algorithms. The coupling is demonstrated in a one‐dimensional framework by use of a discontinuous Galerkin scheme for compressible two‐phase flow with a sharp interface tracking via a ghost‐fluid type method. The coupling schemes are applied to two generic test cases. The computational results are compared with those obtained with the fully compressible two‐phase flow solver, where the Mach number zero limit is approached by a weakly compressible fluid. For all cases, we obtain a very good agreement between the coupling approaches and the fully compressible solver. Copyright © 2014 John Wiley & Sons, Ltd.
Keywords:compressible flow  incompressible flow  multiple pressure variables  iterative coupling procedures  half‐Riemann problem
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