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Article Dans Une Revue Ocean Engineering Année : 2023

Forced vibroacoustic response of a cylindrical shell in an underwater acoustic waveguide

Résumé

An analytical approach is proposed to analyze vibroacoustics of an infinitely long thin cylindrical shell under line-distributed harmonic excitation immersed in an underwater waveguide formed by a free surface and a rigid floor. Equations of motion of the thin shell are modeled using Flügge's shell theory, the fluid-structure coupling is implemented with the image source method to account for the infinite reflections of acoustic waves off the waveguide boundaries and Graf's addition theorem is used to reconcile the coordinate systems of the image sources in the analytical expressions. The vibroacoustic response from the proposed analytical model is verified by numerical results obtained from a finite element model, showing excellent agreement. The analytical approach provides a computationally efficient tool for parametric investigation into the relative effects of the proximity of the free surface and/or rigid floor on the vibroacoustic behavior of the shell.
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Dates et versions

hal-04001785 , version 1 (23-02-2023)

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Jamie Kha, Mahmoud Karimi, Laurent Maxit, Alex Skvortsov, Ray Kirby. Forced vibroacoustic response of a cylindrical shell in an underwater acoustic waveguide. Ocean Engineering, 2023, 273, pp.113899. ⟨10.1016/j.oceaneng.2023.113899⟩. ⟨hal-04001785⟩
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