Recent developments in the computation of compressible low Mach number flows

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

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

Computational aeroacoustics equations are developed using a Janzen-Rayleigh expansion of the compressible flow equations. Separate expansions are applied to an inner region characterized to lowest order by an incompressible flow field and an outer region characterized by propagating acoustic waves.