Numerical simulation of nonlinear sound propagation from a finite exponential horn using immersed boundary method
Numerical simulation of nonlinear sound propagation from a finite exponential horn using immersed boundary method
Nonlinear propagation of finite-amplitude sound waves both inside and outside a finite exponential horn with a circular cross section, which is driven by a vibrating piston, are investigated in this paper. The finite-amplitude vibration of the piston is simplified as a velocity boundary condition. Euler equations are numerically solved on a Cartesian grid in the cylindrical coordinates to study the nonlinear sound propagation. The high-order, low-dispersion, and low-dissipation finite difference schemes are employed. An immersed boundary method is applied to deal with the curved boundary of the exponential horn. Nonlinear perfectly matched layer method is applied to get rid of reflected waves from the opening boundary. Results show the sound radiation field of the exponential horn. Nonlinear distortion of the sound pressure at the horn mouth is observed in the numerical simulation. The proposed approach can also be applied to simulate nonlinear sound propagation in a horn of arbitrary profile.
1456-1463
International Institute of Acoustics and Vibration
Wu, Long
9787473b-a81a-47ce-a696-22afa8c2204b
Hou, Wei
c0f4430a-98ad-4ad5-a204-4de66b0088ab
Jing, Xiaodong
9bd7313a-4ab2-4387-839e-4c1583f61531
Sun, Xiaofeng
87a75751-8d01-440e-a234-02d4a6436ef6
2015
Wu, Long
9787473b-a81a-47ce-a696-22afa8c2204b
Hou, Wei
c0f4430a-98ad-4ad5-a204-4de66b0088ab
Jing, Xiaodong
9bd7313a-4ab2-4387-839e-4c1583f61531
Sun, Xiaofeng
87a75751-8d01-440e-a234-02d4a6436ef6
Wu, Long, Hou, Wei, Jing, Xiaodong and Sun, Xiaofeng
(2015)
Numerical simulation of nonlinear sound propagation from a finite exponential horn using immersed boundary method.
In 22nd International Congress on Sound and Vibration (ICSV 2015).
International Institute of Acoustics and Vibration.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Nonlinear propagation of finite-amplitude sound waves both inside and outside a finite exponential horn with a circular cross section, which is driven by a vibrating piston, are investigated in this paper. The finite-amplitude vibration of the piston is simplified as a velocity boundary condition. Euler equations are numerically solved on a Cartesian grid in the cylindrical coordinates to study the nonlinear sound propagation. The high-order, low-dispersion, and low-dissipation finite difference schemes are employed. An immersed boundary method is applied to deal with the curved boundary of the exponential horn. Nonlinear perfectly matched layer method is applied to get rid of reflected waves from the opening boundary. Results show the sound radiation field of the exponential horn. Nonlinear distortion of the sound pressure at the horn mouth is observed in the numerical simulation. The proposed approach can also be applied to simulate nonlinear sound propagation in a horn of arbitrary profile.
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Published date: 2015
Venue - Dates:
22nd International Congress on Sound and Vibration, Florence, Florence, Italy, 2015-07-12 - 2015-07-16
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Local EPrints ID: 485988
URI: http://eprints.soton.ac.uk/id/eprint/485988
PURE UUID: f048e6bb-f82b-4ff7-8db2-d16cd9c184fa
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Date deposited: 04 Jan 2024 19:27
Last modified: 07 Mar 2024 02:58
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Contributors
Author:
Long Wu
Author:
Wei Hou
Author:
Xiaodong Jing
Author:
Xiaofeng Sun
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