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Acoustics of thermoviscous fluids: the Kirchhoff–Helmholtz representation in generalized form

Acoustics of thermoviscous fluids: the Kirchhoff–Helmholtz representation in generalized form
Acoustics of thermoviscous fluids: the Kirchhoff–Helmholtz representation in generalized form

The Kirchhoff-Helmholtz representation of linear acoustics is generalized to thermoviscous fluids, by deriving separate bounded-region equations for the acoustic, entropy, and vorticity modes in a uniform fluid at rest. For the acoustic and entropy modes we introduce modal variables in terms of pressure and entropy perturbations, and develop asymptotic approximations to the mode equations that are valid to specified orders in two thermoviscous parameters. The introduction of spatial windowing for the mode variables leads to surface source and dipole distributions as a way of representing boundary conditions for each mode. For the acoustic mode the boundary source distribution is expressible in terms of the fluid normal velocity, the normal heat flux, and the vector ω × n ̂ , where ω is the vorticity on the boundary and n ̂ is the unit normal; only the first of these is present in the usual lossless-fluid version of the Kirchhoff-Helmholtz representation. Use of the generalized thermoviscous representation to project exterior sound fields from surface data, where the data may contain contributions from all three linear modes, is shown to be robust to cross-modal contamination. The asymptotic limitations of the thermoviscous modal equations are discussed in an appendix.

thermoviscous acoustics, sound radiation, Kirchhoff-Helmholtz
0001-4966
3447-3468
Morfey, C.L.
ed145a54-775d-49c9-930b-2c0a430a2602
Wright, M.C.M.
b7209187-993d-4f18-8003-9f41aaf88abf
Morfey, C.L.
ed145a54-775d-49c9-930b-2c0a430a2602
Wright, M.C.M.
b7209187-993d-4f18-8003-9f41aaf88abf

Morfey, C.L. and Wright, M.C.M. (2023) Acoustics of thermoviscous fluids: the Kirchhoff–Helmholtz representation in generalized form. The Journal of The Acoustical Society of America, 153 (6), 3447-3468. (doi:10.1121/10.0019801).

Record type: Article

Abstract

The Kirchhoff-Helmholtz representation of linear acoustics is generalized to thermoviscous fluids, by deriving separate bounded-region equations for the acoustic, entropy, and vorticity modes in a uniform fluid at rest. For the acoustic and entropy modes we introduce modal variables in terms of pressure and entropy perturbations, and develop asymptotic approximations to the mode equations that are valid to specified orders in two thermoviscous parameters. The introduction of spatial windowing for the mode variables leads to surface source and dipole distributions as a way of representing boundary conditions for each mode. For the acoustic mode the boundary source distribution is expressible in terms of the fluid normal velocity, the normal heat flux, and the vector ω × n ̂ , where ω is the vorticity on the boundary and n ̂ is the unit normal; only the first of these is present in the usual lossless-fluid version of the Kirchhoff-Helmholtz representation. Use of the generalized thermoviscous representation to project exterior sound fields from surface data, where the data may contain contributions from all three linear modes, is shown to be robust to cross-modal contamination. The asymptotic limitations of the thermoviscous modal equations are discussed in an appendix.

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Accepted/In Press date: 5 June 2023
Published date: 23 June 2023
Additional Information: Funding Information: The authors thank Gwénaël Gabard for valuable assistance in the early stages of this work and Nicolas Joly for confirming the Trilling (1955) generalization, Eq. (75). Publisher Copyright: © 2023 Author(s).
Keywords: thermoviscous acoustics, sound radiation, Kirchhoff-Helmholtz

Identifiers

Local EPrints ID: 478664
URI: http://eprints.soton.ac.uk/id/eprint/478664
DOI: doi:10.1121/10.0019801
ISSN: 0001-4966
PURE UUID: 23c2b954-bf4a-41b9-a736-236a7d03f386
ORCID for M.C.M. Wright: ORCID iD orcid.org/0000-0001-9393-4918

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Date deposited: 06 Jul 2023 16:51
Last modified: 18 Mar 2024 02:40

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Author: C.L. Morfey
Author: M.C.M. Wright ORCID iD

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