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2018 | 25 | 2 |

Tytuł artykułu

Propagation of ship-generated noise in shallow sea

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Contamination of sea environment by noise and any energy radiated to water constitutes today a problem to which more and more attention is paid, in view, a.o., of consequences of an impact of these factors onto marine fauna. European Union has introduced a directive by which EU countries are made responsible to undertake efforts aimed at reaching a good envirenmental status of European seas by 2020. A main source of underwater noise is sea transport of any kind. Propagation of underwater acoustic disturbances in the Baltic Sea highly differs from the course of the phenomenon in a deep sea. Model of spherical propagation cannot be applied to this case in view of water environment limitation by seabed and free water surface, i.e. a reduction of the problem to wave propagation in a water layer of the depth comparable with acoustic wave length. This paper is aimed at demonstration of possible assessment of range of acoustic disturbances generated by a ship sailing in shallow sea, by using a method described in the work [13]. The research was made on the basis of results of own measurements of underwater noise produced by ships in the Gdansk Bay area. An important factor which decIdes on a range of underwater disturbances is a kind of seabed sediments. In this paper there are presented results of numerical investigations based on real data dealing with noise produced by a selected floating unit (ship) for selected characteristic spectral components. The simulations were conducted for the shallow sea model of definite physical parameters such as acoustic wave propagation velocity, geometrical dimensions (water depth) and seabed acoustic parameters as well

Słowa kluczowe

Wydawca

-

Rocznik

Tom

25

Numer

2

Opis fizyczny

p.37-46,fig.,ref.

Twórcy

autor
  • Department of Hydromechanics and Hydroacoustics,Faculty of Ocean Engineering and Ship Technology, Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland
  • Department of Hydroacoustics, Faculty of Navigation and Naval Weapons, Polish Naval Academy, Smidowicza 69, 81-127 Gdynia, Poland
autor
  • Department of Hydromechanics and Hydroacoustics,Faculty of Ocean Engineering and Ship Technology, Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland

Bibliografia

  • 1. Bobkowska K., Janowski A., Jasinska K., Kowal P., Przyborski M.: Light pollution in the context of threats to the wildlife corridors, Nano, bio and green – technologies for a sustainable future, Conference proceedings, SGEM 2016, pp. 665 – 670.
  • 2. Briechowskich L. M., Waves in layered media, 2nd Edition, Academic Press, New York 1980.
  • 3. Directive 2008/56/EC of the European Parliament and of the Council of 17 June 2008 establishing a framework for community action in the field of marine environmental policy (Marine Strategy Framework Directive), Official Journal of the European Union 25.6.2008, L 164/19-L164/40.
  • 4. Dymarski C., Dymarski P., Żywicki J.: Design and strength calculations of the tripod support structure for offshore power plant, Polish Maritime Research, Vol. 22, 1, pp. 36–46, 2015.
  • 5. Grelowska G., Kozaczka E., Kozaczka S., Szymczak W.: Gdansk Bay seabed sounding and classification of its results, Polish Maritime Research,Vol 20, 3, pp. 45–50, 2013
  • 6. Grelowska G., Kozaczka E., Kozaczka S., Szymczak W.:, Underwater noise generated by a small ship in the shallow sea, Archives on Acoustics, Vol. 38, 3, pp. 351–356, 2013.
  • 7. Grelowska G.: Study of seasonal acoustic properties of sea water in selected waters of the southern Baltic, Polish Maritime Research, Vol. 23, 1, pp. 25–30, 2016.
  • 8. Grelowska G., Kozaczka E.: Underwater acoustic imaging of the sea, Archives of Acoustics, Vol. 39, 4, pp. 439–452, 2014.
  • 9. Hamilton E.L., Bachman R.T.: Sound velocity and related properties of marine sediments, The Journal of the Acoustical Society of America 72, 6, pp. 1891–1906, 1982.
  • 10. Kozaczka E., Gloza I.: Determination of the ship signature in the very shallow water, Proceedings of the 14th International Congress on Sound and Vibration, Cairns, June 25-29, 2007.
  • 11. Kozaczka E.,, Domagalski J., Gloza I.: Investigation of the underwater noise produced by ships by means of intensity method, Polish Maritime Research, Vol. 17, 3, pp. 26–36, 2010.
  • 12. Kozaczka E., Grelowska G., Szymczak W., Kozaczka S.: The examination of the upper layer of the seabed by means of the acoustic methods, Acta Physica Polonica A, Vol. 119, 6A, pp. 1091–1094, 2011.
  • 13. Kozaczka E., Grelowska G.: Theoretical model of acoustic wave propagation in shallow water, Polish Maritime Research, Vol. 24, 2, pp. 48–55, 2017.
  • 14. Kozaczka E.: The propagation of the acoustic disturbances in the shallow water, in Hydroacoustics of Shallow Water, eds. E. Kozaczka and G. Grelowska, Institute of Fundamental Technological Research, Polish Academy of Sciences, Warszawa, 2013, pp. 31–52.
  • 15. Kozaczka E., Grelowska G.: Shipping low frequency noise and its propagation in shallow water, Acta Physica Polonica A, Vol. 119, 6A, pp. 1009–1012, 2011.
  • 16. McKenna M. F., Ross D., Wiggins S. M., Hildebrand J. A.: Underwater radiated noise from modern commercial ships, J. Acoust. Soc. Am. Vol. 131, 1, pp. 92–103, 2012.
  • 17. Kuperman W. A., Lynch J. F.: Shallow-Water Acoustics, Physics Today, October 2004, pp. 55–61
  • 18. MSFD Technical Subgroup on Underwater Noise: Monitoring Guidance for Underwater Noise in European Seas, Report EUR 26557 EN, European Commission 2014.
  • 19. Tęgowski J.: Acoustic classification of bottom sediments (in Polish), Rozprawy i monografie (Treatises and monographs), Oceanology Institute, Polish Academy of Sciences, Sopot 2006.
  • 20. Weryk M., Kozaczka E., Grelowska G.: Study of noise propagation for small vessels, Archives of Acoustics, Vol. 40, 2, pp. 267–272, 2015.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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