Measurement of radiated underwater noise from a small research vessel in shallow water
Measurement of radiated underwater noise from a small research vessel in shallow water
The impact of man-made underwater noise on the marine environment has in recent years received increased attention from regulatory authorities, as evidenced by its inclusion in the Marine Strategy Framework Directive (MSFD) of the European Union (EU). Radiated underwater noise from ships, primarily resulting from propeller cavitation, has for many years been understood to be one of the major contributors to ambient ocean noise. Civilian research in this area has to date been relatively limited; standards covering the measurement of radiated noise from ships in deep water and data analysis procedures have only recently been published by national and international standards institutes. Less attention has so far been paid to the measurement of radiated noise from ships in shallow water environments. This is of interest as shallow water areas are more likely to be used by civilian researchers due to the logistical problems involved in undertaking trials in deep water. The issue of shipping noise has been identified as one requiring further research, indicated by the recent funding of several large collaborative projects by the EU (see for example the SILENV, AQUO and SONIC projects). This paper presents ship radiated noise data measured using a three hydrophone array during a recent sea trial undertaken as part of the SONIC project.
underwater radiated noise, SONIC project, shipping noise, propeller cavitation
47-55
Brooker, Alex
697dab16-6ad3-4a73-a69e-028b93e94691
Humphrey, Victor
23c9bd0c-7870-428f-b0dd-5ff158d22590
November 2014
Brooker, Alex
697dab16-6ad3-4a73-a69e-028b93e94691
Humphrey, Victor
23c9bd0c-7870-428f-b0dd-5ff158d22590
Brooker, Alex and Humphrey, Victor
(2014)
Measurement of radiated underwater noise from a small research vessel in shallow water.
In A. Yücel Odabaşı Colloquium Series: 1 st International Meeting - Propeller Noise & Vibration.
.
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Conference or Workshop Item
(Paper)
Abstract
The impact of man-made underwater noise on the marine environment has in recent years received increased attention from regulatory authorities, as evidenced by its inclusion in the Marine Strategy Framework Directive (MSFD) of the European Union (EU). Radiated underwater noise from ships, primarily resulting from propeller cavitation, has for many years been understood to be one of the major contributors to ambient ocean noise. Civilian research in this area has to date been relatively limited; standards covering the measurement of radiated noise from ships in deep water and data analysis procedures have only recently been published by national and international standards institutes. Less attention has so far been paid to the measurement of radiated noise from ships in shallow water environments. This is of interest as shallow water areas are more likely to be used by civilian researchers due to the logistical problems involved in undertaking trials in deep water. The issue of shipping noise has been identified as one requiring further research, indicated by the recent funding of several large collaborative projects by the EU (see for example the SILENV, AQUO and SONIC projects). This paper presents ship radiated noise data measured using a three hydrophone array during a recent sea trial undertaken as part of the SONIC project.
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Published date: November 2014
Keywords:
underwater radiated noise, SONIC project, shipping noise, propeller cavitation
Organisations:
Acoustics Group
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Local EPrints ID: 385638
URI: http://eprints.soton.ac.uk/id/eprint/385638
PURE UUID: ad032974-f7db-448f-8751-5e8b9fe516b5
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Date deposited: 21 Jan 2016 09:00
Last modified: 16 Mar 2024 03:34
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Author:
Alex Brooker
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