Optimisation of a submarine's resonance changer using the method of moving asymptotes

Sascha Merz, Nicole Kessissoglou, Roger Kinns, Steffen Marburg

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

4 Scopus citations

Abstract

In order to reduce the sound power radiated by a submarine, the transmission of fluctuating forces from the propeller to the hull can be reduced by implementation of a resonance changer in the propulsion system. A resonance changer acts as a hydraulic vibration absorber and can be modelled as a single degree-of-freedom system with virtual mass, stiffness and damping parameters. However, changing the dynamics of the propeller/shafting system can lead to increased sound radiation from the propeller. A numerical finite element / boundary element model of a submarine has been developed in order to find optimum design parameters for the resonance changer, such that the overall sound power radiated from the hull as well as the propeller is reduced. The global optimum virtual stiffness, damping and mass parameters of the resonance changer have been found by applying the method of moving asymptotes. It is shown that the influence of sound radiation from the propeller is only relevant, if higher harmonics of the blade passing frequency are assumed to have a similar amplitude as the fundamental harmonic of the blade passing frequency.

Original languageEnglish
Title of host publicationAnnual Conference of the Australian Acoustical Society 2009 - Acoustics 2009
Subtitle of host publicationResearch to Consulting
Pages340-346
Number of pages7
StatePublished - 2009
Externally publishedYes
EventAnnual Conference of the Australian Acoustical Society 2009 - Acoustics 2009: Research to Consulting - Adelaide, SA, Australia
Duration: 23 Nov 200925 Nov 2009

Publication series

NameAnnual Conference of the Australian Acoustical Society 2009 - Acoustics 2009: Research to Consulting

Conference

ConferenceAnnual Conference of the Australian Acoustical Society 2009 - Acoustics 2009: Research to Consulting
Country/TerritoryAustralia
CityAdelaide, SA
Period23/11/0925/11/09

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