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Optimization of Ship Propellers Under Consideration of the Acoustic Emission Based on Partitioned Fluid–Structure Interaction Simulations
Publikationstyp
Journal Article
Date Issued
2024-09-01
Sprache
English
Author(s)
Journal
Volume
68
Issue
3
Start Page
95
End Page
106
Citation
Journal of Ship Research 68 (3): 95-106 (2024)
Publisher DOI
Scopus ID
Publisher
Society of Naval Architects and Marine Engineers
The focus of this paper is the optimization of a ship propeller with regard to its acoustic emission, taking advantage of its flexible material. For this purpose, an optimization method is developed based on a partitioned approach for the simulation of the fluid–structure problem. A boundary element method is applied on the hydrodynamic side whilst the structural problem is solved via a finite element approximation. The approach is validated referring to the hydrodynamic performance of model propellers at different stiffness values. Two optimization approaches are applied. In the first approach, only the hydrodynamic part of the problem is simulated. The second approach considers the fully coupled fluid–structure interaction. The optimized propeller is simulated using a partially nonlinear model for sheet cavitation to evaluate the noise level. Finally, the results are compared with those of the reference propeller.
Subjects
boundary element method
cavitation
Ffowcs Williams and Hawkings equation
finite element method
hydroacoustics
partitioned fluid–structure interaction
propeller
DDC Class
623: Military Engineering and Marine Engineering
690: Building, Construction