Time-harmonic acoustic scattering in a complex flow: A full coupling between acoustics and hydrodynamics

A. S. Bonnet-Ben Dhia; J. F. Mercier; F. Millot; S. Pernet; E. Peynaud

doi:10.4208/cicp.221209.030111s

Time-harmonic acoustic scattering in a complex flow: A full coupling between acoustics and hydrodynamics

A. S. Bonnet-Ben Dhia, J. F. Mercier, F. Millot, S. Pernet, E. Peynaud

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Abstract

For the numerical simulation of time harmonic acoustic scattering in a complex geometry, in presence of an arbitrary mean flow, the main difficulty is the coexistence and the coupling of two very different phenomena: acoustic propagation and convection of vortices. We consider a linearized formulation coupling an augmented Galbrun equation (for the perturbation of displacement) with a time harmonic convection equation (for the vortices). We first establish the well-posedness of this time harmonic convection equation in the appropriate mathematical framework. Then the complete problem, with Perfectly Matched Layers at the artificial boundaries, is proved to be coercive + compact, and a hybrid numerical method for the solution is proposed, coupling finite elements for the Galbrun equation and a Discontinuous Galerkin scheme for the convection equation. Finally a 2D numerical result shows the efficiency of the method.

Original language	English
Pages (from-to)	555-572
Number of pages	18
Journal	Communications in Computational Physics
Volume	11
Issue number	2
DOIs	https://doi.org/10.4208/cicp.221209.030111s
Publication status	Published - 1 Feb 2012

Keywords

Advection equation
Aeroacoustics
Discontinuous galerkin method
Finite elements
Galbrun equation
Scattering of sound in flows

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10.4208/cicp.221209.030111s

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title = "Time-harmonic acoustic scattering in a complex flow: A full coupling between acoustics and hydrodynamics",

abstract = "For the numerical simulation of time harmonic acoustic scattering in a complex geometry, in presence of an arbitrary mean flow, the main difficulty is the coexistence and the coupling of two very different phenomena: acoustic propagation and convection of vortices. We consider a linearized formulation coupling an augmented Galbrun equation (for the perturbation of displacement) with a time harmonic convection equation (for the vortices). We first establish the well-posedness of this time harmonic convection equation in the appropriate mathematical framework. Then the complete problem, with Perfectly Matched Layers at the artificial boundaries, is proved to be coercive + compact, and a hybrid numerical method for the solution is proposed, coupling finite elements for the Galbrun equation and a Discontinuous Galerkin scheme for the convection equation. Finally a 2D numerical result shows the efficiency of the method.",

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doi = "10.4208/cicp.221209.030111s",

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T2 - A full coupling between acoustics and hydrodynamics

AU - Bonnet-Ben Dhia, A. S.

AU - Mercier, J. F.

AU - Millot, F.

AU - Pernet, S.

AU - Peynaud, E.

PY - 2012/2/1

Y1 - 2012/2/1

N2 - For the numerical simulation of time harmonic acoustic scattering in a complex geometry, in presence of an arbitrary mean flow, the main difficulty is the coexistence and the coupling of two very different phenomena: acoustic propagation and convection of vortices. We consider a linearized formulation coupling an augmented Galbrun equation (for the perturbation of displacement) with a time harmonic convection equation (for the vortices). We first establish the well-posedness of this time harmonic convection equation in the appropriate mathematical framework. Then the complete problem, with Perfectly Matched Layers at the artificial boundaries, is proved to be coercive + compact, and a hybrid numerical method for the solution is proposed, coupling finite elements for the Galbrun equation and a Discontinuous Galerkin scheme for the convection equation. Finally a 2D numerical result shows the efficiency of the method.

AB - For the numerical simulation of time harmonic acoustic scattering in a complex geometry, in presence of an arbitrary mean flow, the main difficulty is the coexistence and the coupling of two very different phenomena: acoustic propagation and convection of vortices. We consider a linearized formulation coupling an augmented Galbrun equation (for the perturbation of displacement) with a time harmonic convection equation (for the vortices). We first establish the well-posedness of this time harmonic convection equation in the appropriate mathematical framework. Then the complete problem, with Perfectly Matched Layers at the artificial boundaries, is proved to be coercive + compact, and a hybrid numerical method for the solution is proposed, coupling finite elements for the Galbrun equation and a Discontinuous Galerkin scheme for the convection equation. Finally a 2D numerical result shows the efficiency of the method.

KW - Advection equation

KW - Aeroacoustics

KW - Discontinuous galerkin method

KW - Finite elements

KW - Galbrun equation

KW - Scattering of sound in flows

U2 - 10.4208/cicp.221209.030111s

DO - 10.4208/cicp.221209.030111s

M3 - Article

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SN - 1815-2406

VL - 11

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EP - 572

JO - Communications in Computational Physics

JF - Communications in Computational Physics

IS - 2

ER -

Time-harmonic acoustic scattering in a complex flow: A full coupling between acoustics and hydrodynamics

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Keywords

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