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1. K. Betke, M. Schultz-von Glhan, and R. Matuscheck, “ Underwater noise emissions from offshore wind turbines,” in CFA/DGA’04, Strasbourg, France (March 22–25, 2004), pp. 591592.
2. T. Neumann, J. Gabriel, W.-J. Gerash, K.-H. Elmer, M. Schultz-von Glhan, and K. Betke, “ Standards for the assessment of acoustic emissions of offshore wind farms,” DEWI Mag. 26, 4953 (2005).
3. C.A.F. De Jong and M. A. Ainslie, “ Underwater radiated noise due to the pilling for the Q7 offshore wind park,” in Acoustic’08 Paris Conference (June 29–July 4, 2008), pp. 118122.
4. H. Moller and C. S. Pedrersen, “ Low-frequency noise from large wind turbines,” J. Acoust. Soc. Am. 129, 37273244 (2011).
5. P. T. Madsen, M. Wahlberg, J. Tougaard, K. Lucke, and P. Tyack, “ Wind turbine underwater noise and marine mammals: Implications of current knowledge and data needs,” Mar. Ecol.: Prog. Ser. 309, 279295 (2006).
6. R. Kikuchi, “ Risk formulation for the sonic effects of offshore wind farms on fish in the EU region,” Mar. Pollution Bull. 60, 172177 (2010).
7. L. Shuyu, “ Study on the radiation acoustic field of rectangular radiators in flexural vibration,” J. Sound Vib. 254, 469479 (2002).
8. D. Décultot, R. Lietard, F. Chati, G. Maze, and A. Klauson, “ Acoustic radiation of low frequency flexural vibration modes in submerged plate,” in Acoustics'08 Paris Conference (June 29–July 4, 2008), pp. 441446.
9. Z. Cheng, J. Fan, B. Wang, and W. Tang, “ Radiation efficient of submerged rectangular plates,” Appl. Acoust. 73, 150157 (2012).
10. G. Maze, F. Léon, J. Ripoche, and H. Überall, “ Repulsion phenomena in the phase-velocity dispersion curves of circumferential waves on elastic cylindrical shells,” J. Acoust. Soc. Am. 105, 16951701 (1999).
11. F. Leon, F. Lecroq, D. Décultot, and G. Maze, “ Scattering of an obliquely incident acoustic wave by an infinite hollow cylindrical shell,” J. Acoust. Soc. Am. 91, 13881397 (1992).
12. F. Lecroq, G. Maze, D. Décultot, and J. Ripoche, “ Acoustic scattering from an air-filled cylindrical shell with welded flat plate endcaps: Experimental and theoretical study,” J. Acoust. Soc. Am. 95, 762769 (1994).
13. ansys User's Manual.

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The evaluation of sound pressure levels produced by submerged structures is a part of regulations on underwater noise pollution. The purpose of this work is the study of the underwater acoustic radiation of a stainless steel tube subjected to vibrations generated by a shock obtained by using a hammer. The vibrations of the tube, placed successively in air and in water, are measured by using accelerometers. In water, the acoustic radiation measurements are performed by using a hydrophone. Results are presented as frequency spectra and are confronted with results of the elastic theory.


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Scitation: Acoustic radiation of a submerged cylindrical shell in low frequency