DDES of Wetted and Cavitating Marine Propeller for CHA Underwater Noise Assessment

DDES of Wetted and Cavitating Marine Propeller for CHA Underwater Noise Assessment

In this paper we present results of delayed detached eddy simulation (DDES) and computational hydroacoustics (CHA) simulations of a marine propeller operating in a cavitation tunnel. DDES is carried out in both wetted and cavitating conditions, and we perform the investigation at several propeller l...

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Main Authors: Ville M. Viitanen, Antti Hynninen, Tuomas Sipilä, Timo Siikonen
Format: Article
Language:English
Published: MDPI AG 2018-05-01
Series:Journal of Marine Science and Engineering
Subjects:
marine propeller
cavitation simulation
DDES
SST k-ω model
turbulence modelling
hydroacoustics
Online Access:http://www.mdpi.com/2077-1312/6/2/56
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spelling doaj-e048984044bb43debab1207cdf3451cf2021-04-02T03:28:02ZengMDPI AGJournal of Marine Science and Engineering2077-13122018-05-01625610.3390/jmse6020056jmse6020056DDES of Wetted and Cavitating Marine Propeller for CHA Underwater Noise AssessmentVille M. Viitanen0Antti Hynninen1Tuomas Sipilä2Timo Siikonen3VTT Technical Research Centre of Finland Ltd., 02150 Espoo, FinlandVTT Technical Research Centre of Finland Ltd., 02150 Espoo, FinlandVTT Technical Research Centre of Finland Ltd., 02150 Espoo, FinlandDepartment of Mechanical Engineering, Aalto University, 02150 Espoo, FinlandIn this paper we present results of delayed detached eddy simulation (DDES) and computational hydroacoustics (CHA) simulations of a marine propeller operating in a cavitation tunnel. DDES is carried out in both wetted and cavitating conditions, and we perform the investigation at several propeller loadings. CHA analyses are done for one propeller loading both in wetted and cavitating conditions. The simulations are validated against experiments conducted in the cavitation tunnel. Propeller global forces, local flow phenomena, as well as cavitation patterns are compared to the cavitation tunnel tests. Hydroacoustic sources due to the propeller are evaluated from the flow solution, and corresponding acoustic simulations utilizing an acoustic analogy are made. The propeller wake flow structures are investigated for the wetted and cavitating operating conditions, and the acoustic excitation and output of the same cases are discussed.http://www.mdpi.com/2077-1312/6/2/56marine propellercavitation simulationDDESSST k-ω modelturbulence modellinghydroacoustics
collection DOAJ
language English
format Article
sources DOAJ
author Ville M. Viitanen
Antti Hynninen
Tuomas Sipilä
Timo Siikonen
spellingShingle Ville M. Viitanen
Antti Hynninen
Tuomas Sipilä
Timo Siikonen
DDES of Wetted and Cavitating Marine Propeller for CHA Underwater Noise Assessment
Journal of Marine Science and Engineering
marine propeller
cavitation simulation
DDES
SST k-ω model
turbulence modelling
hydroacoustics
author_facet Ville M. Viitanen
Antti Hynninen
Tuomas Sipilä
Timo Siikonen
author_sort Ville M. Viitanen
title DDES of Wetted and Cavitating Marine Propeller for CHA Underwater Noise Assessment
title_short DDES of Wetted and Cavitating Marine Propeller for CHA Underwater Noise Assessment
title_full DDES of Wetted and Cavitating Marine Propeller for CHA Underwater Noise Assessment
title_fullStr DDES of Wetted and Cavitating Marine Propeller for CHA Underwater Noise Assessment
title_full_unstemmed DDES of Wetted and Cavitating Marine Propeller for CHA Underwater Noise Assessment
title_sort ddes of wetted and cavitating marine propeller for cha underwater noise assessment
publisher MDPI AG
series Journal of Marine Science and Engineering
issn 2077-1312
publishDate 2018-05-01
description In this paper we present results of delayed detached eddy simulation (DDES) and computational hydroacoustics (CHA) simulations of a marine propeller operating in a cavitation tunnel. DDES is carried out in both wetted and cavitating conditions, and we perform the investigation at several propeller loadings. CHA analyses are done for one propeller loading both in wetted and cavitating conditions. The simulations are validated against experiments conducted in the cavitation tunnel. Propeller global forces, local flow phenomena, as well as cavitation patterns are compared to the cavitation tunnel tests. Hydroacoustic sources due to the propeller are evaluated from the flow solution, and corresponding acoustic simulations utilizing an acoustic analogy are made. The propeller wake flow structures are investigated for the wetted and cavitating operating conditions, and the acoustic excitation and output of the same cases are discussed.
topic marine propeller
cavitation simulation
DDES
SST k-ω model
turbulence modelling
hydroacoustics
url http://www.mdpi.com/2077-1312/6/2/56
work_keys_str_mv AT villemviitanen ddesofwettedandcavitatingmarinepropellerforchaunderwaternoiseassessment
AT anttihynninen ddesofwettedandcavitatingmarinepropellerforchaunderwaternoiseassessment
AT tuomassipila ddesofwettedandcavitatingmarinepropellerforchaunderwaternoiseassessment
AT timosiikonen ddesofwettedandcavitatingmarinepropellerforchaunderwaternoiseassessment
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