A low Mach model for time harmonic acoustics in arbitrary flows

Anne-Sophie Bonnet-BenDhia, Jean-François Mercier, Florence Millot and
Sébastien Pernet

2010

Publication type:

Paper in peer-reviewed journals

Journal:

Journal of Computational and Applied Mathematics, vol. 234(6), pp. 1868-1875

DOI:

10.1016/j.cam.2009.08.038

HAL:

hal-00975078

Abstract:

This paper concerns the finite element simulation of the diffraction of a time-harmonic acoustic wave in the presence of an arbitrary mean flow. Considering the equation for the perturbation of displacement (due to Galbrun), we derive a low-Mach number formulation of the problem which is proved to be of Fredholm type and is therefore well suited for discretization by classical Lagrange finite elements. Numerical experiments are done in the case of a potential flow for which an exact approach is available, and a good agreement is observed.

BibTeX:

@article{Bon-Mer-Mil-Per-2010,
    author={Anne-Sophie Bonnet-BenDhia and Jean-François Mercier and 
           Florence Millot and Sébastien Pernet },
    title={A low Mach model for time harmonic acoustics in arbitrary 
           flows },
    doi={10.1016/j.cam.2009.08.038 },
    journal={Journal of Computational and Applied Mathematics },
    year={2010 },
    volume={234(6) },
    pages={1868--1875},
}