The Zero-Mach Limit of Compressible Flows

## Communicated by S. Jiang The low Mach number limit for classical solutions of the compressible magnetohydrodynamic equations without thermal conductivity is, here, studied. A uniform existence result for the Cauchy problem in R 3 is proved under the assumption that the initial data are uniforml

When attempting to compute unsteady, variable density flows at very small or zero Mach number using a standard finite volume compressible flow solver one faces at least the following difficulties: (i) Spatial pressure variations vanish as the Mach number M → 0, but they do affect the velocity field

Based upon the operator-splitting method designed by the authors to solve the Navier-Stokes equations with variable density and viscosity, a segregated time-marching solution scheme is proposed for solving the low-Machnumber flow model with the acoustic waves being filtered out. This solution scheme

In calculating low Mach number flows one faces the stiffness problem in two different facets: • the applicable time steps become very small • the constants of the cancellation errors become very large (1/γ M 2 ). Usually the first point receives attention. Here we want to concentrate on the cancel