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Ships and Offshore Structures Volume 12, 2017 - Issue 1
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Original Articles

Analysis of noise behaviour for marine propellers under cavitating and non-cavitating conditions

Mohammad Reza BagheriDepartment of Mechanical Engineering, Centre of Excellence in Hydrodynamic & Dynamic of Marine Vehicles, Sharif University of Technology, Tehran, Iran
,
Mohammad Saeed SeifDepartment of Mechanical Engineering, Centre of Excellence in Hydrodynamic & Dynamic of Marine Vehicles, Sharif University of Technology, Tehran, IranCorrespondence[email protected]
,
Hamid MehdigholiDepartment of Mechanical Engineering, Centre of Excellence in Hydrodynamic & Dynamic of Marine Vehicles, Sharif University of Technology, Tehran, Iran
&
Omar YaakobDepartment Naval Engineering, Marine Technology Centre, Universiti Teknologi Malaysia, UTM Skudai, Johor Bahru, Malaysia
Pages 1-8 | Received 20 Aug 2014, Accepted 21 Sep 2015, Published online: 29 Oct 2015

Citations (23)

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Read on this site (6)

Mehdi Raghebi, Majid Norouzi Keshtan, Majid Malek Jafarian & Mohammad Reza Bagheri. (2022) Numerical study and acoustic analysis of propeller and hull surface vessel in self-propulsion mode. Ships and Offshore Structures 17:11, pages 2488-2497.
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Cheng Yu, Xiao-Qian Dong, Chen-Jun Yang, Wei Li & Francis Noblesse. (2019) Experimental investigation of the effects of blade geometry on pressure fluctuation and noise of tunnel thrusters. Ships and Offshore Structures 14:3, pages 238-248.
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Hassan Ghassemi, Mohsen Gorji & Jalal Mohammadi. (2018) Effect of tip rake angle on the hydrodynamic characteristics and sound pressure level around the marine propeller. Ships and Offshore Structures 13:7, pages 759-768.
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S. M. Alavi, H. Haddadpour & R. D. Firouz-Abadi. (2018) A reduced-order hydroelastic analysis of 2D hydrofoil considering supercavitation effects. Ships and Offshore Structures 13:6, pages 584-593.
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Mortaza Haghparast. (2017) Transient analysis of magnetohydrodynamic seawater thrusters with decaying magnetic field. Ships and Offshore Structures 12:5, pages 591-598.
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Jing Xu, Dongshi Wang, Hui Huang, Menglan Duan, Jijun Gu & Chen An. (2017) A vortex-induced vibration model for the fatigue analysis of a marine drilling riser. Ships and Offshore Structures 12:sup1, pages S280-S287.
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Articles from other publishers (17)

Antonio Posa. (2023) Anisotropy of turbulence at the core of the tip and hub vortices shed by a marine propeller. Journal of Fluid Mechanics 969.
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Sertac Bulut & Selma Ergin. (2022) An investigation on hydro-acoustic characteristics of submerged bodies with different geometric parameters. Continuum Mechanics and Thermodynamics 35:3, pages 1123-1146.
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Md. Iftekharul Alam, Abidur Rahman Adib, Abdullah Al Rifat, Tafsirul Hassan & Md. Mizanur Rahman. (2023) Numerical Analysis on Cavitation-noise and Fluid-structure Interaction of AU-Outline GAWN Series and B-Series Marine Propellers. Journal of Engineering Advancements, pages 25-34.
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A. Ebrahimi, A. Tootian & M.S. Seif. (2023) The effect of different endplate geometries on the hydrodynamic and acoustic performance of the tip-loaded propeller. Ocean Engineering 272, pages 113885.
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Seungnam Kim & Spyros A. Kinnas. (2022) Numerical prediction of propeller-induced noise in open water and ship behind conditions. Ocean Engineering 261, pages 112122.
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Antonio Posa, Riccardo Broglia, Mario Felli, Marta Cianferra & Vincenzo Armenio. (2022) Hydroacoustic analysis of a marine propeller using large-eddy simulation and acoustic analogy. Journal of Fluid Mechanics 947.
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Aibo Wei, Shunhao Wang, Xu Gao, Limin Qiu, Lianyan Yu & Xiaobin Zhang. (2022) Investigation of unsteady cryogenic cavitating flow and induced noise around a three-dimensional hydrofoil. Physics of Fluids 34:4.
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Sertaç Bulut & Selma Ergin. (2020) Numerical investigation of geometrical parameters on the hydrodynamic noise characteristics of submerged bodies and comparisons with experiments. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment 235:4, pages 866-884.
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A. Ebrahimi, A.H. Razaghian, A. Tootian & M.S. Seif. (2021) An experimental investigation of hydrodynamic performance, cavitation, and noise of a normal skew B-series marine propeller in the cavitation tunnel. Ocean Engineering 238, pages 109739.
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Sertaç Bulut & Selma Ergin. (2021) Effects of Temperature, Salinity, and Fluid Type on Acoustic Characteristics of Turbulent Flow Around Circular Cylinder. Journal of Marine Science and Application 20:2, pages 213-228.
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Savas Sezen & Sakir Bal. (2019) A computational investigation of noise spectrum due to cavitating and non-cavitating propellers. Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment 234:2, pages 374-387.
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Savas Sezen & Sakir Bal. (2020) Computational and Empirical Investigation of Propeller Tip Vortex Cavitation Noise. China Ocean Engineering 34:2, pages 232-244.
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S. E. Belhenniche, O. Imine & O. K. Kinaci. (2020) Hydrodynamic and Hydroacoustic Computational Prediction of Conventional and Highly Skewed Marine Propellers Operating in Non-uniform Ship Wake. Journal of Marine Science and Application 19:1, pages 28-40.
Crossref
Abouzar Ebrahimi, Mohammad Saeed Seif & Ali Nouri-Borujerdi. (2019) Hydrodynamic and Acoustic Performance Analysis of Marine Propellers by Combination of Panel Method and FW-H Equations. Mathematical and Computational Applications 24:3, pages 81.
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Denghui Qin, Guang Pan, Seongkyu Lee, Qiaogao Huang & Yao Shi. (2019) Underwater radiated noise reduction technology using sawtooth duct for pumpjet propulsor. Ocean Engineering 188, pages 106228.
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Savas Sezen & Omer Kemal Kinaci. (2019) Incompressible flow assumption in hydroacoustic predictions of marine propellers. Ocean Engineering 186, pages 106138.
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Emre Güngör. (2018) Jenerik Sualtı Aracı Üzerinde Lighthill-Curle Yöntemi ile Hidroakustik İncelemeler. Gazi Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi 2018:18-2.
Crossref

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