Advancing Computational Hydroacoustics for Marine Propellers: Investigating the Limits of Incompressible Solvers in Far-Field Noise Prediction
Author:
Publisher
Galenos Yayinevi
Subject
Engineering (miscellaneous)
Reference18 articles.
1. [1] H. Seol, B. Jung, J. C. Suh, and S. Lee, "Prediction of non-cavitating underwater propeller noise," Journal of Sound and Vibration, vol. 257, pp. 131-156, Oct 2002.
2. [2] ITTC, 2014. "Model scale noise measurements - 7.5-02-01-05". ITTC - Recommended Procedures and Guidelines.
3. [3] S. Sezen, and O. K. Kinaci, "Incompressible flow assumption in hydroacoustic predictions of marine propellers," Ocean Engineering, vol. 186, 106138, Aug 2019.
4. [4] S. E. Belhenniche, O. Imine, and O. K. Kinaci, "Hydrodynamic and hydroacoustic computational prediction of conventional and highly skewed marine propellers operating in non-uniform ship wake," Journal of Marine Science and Application, vol. 19, pp. 28-40, July 2020.
5. [5] Z. Q. Rao, and C. J. Yang, "Numerical prediction of tonal noise for non-cavitating propellers in effective wake," Ships and Offshore Structures, vol. 13, pp. 551-560, 2018.
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