INVESTIGATION ABOUT THE HYDRODYNAMIC COUPLING CHARACTERISTICS OF CONTRA-ROTATING AZIMUTH PROPULSOR

Hou, Lixun; Wang, Qingcai

doi:10.21278/brod73405

Brodogradnja : An International Journal of Naval Architecture and Ocean Engineering for Research and Development, Vol. 73 No. 4, 2022.

Original scientific paper

INVESTIGATION ABOUT THE HYDRODYNAMIC COUPLING CHARACTERISTICS OF CONTRA-ROTATING AZIMUTH PROPULSOR

Lixun Hou ; Dalian Maritime University, School of Naval Architecture and Ocean Engineering
Qingcai Wang ; Dalian Maritime University, School of Naval Architecture and Ocean Engineering

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APA 6th Edition

Hou, L. & Wang, Q. (2022). INVESTIGATION ABOUT THE HYDRODYNAMIC COUPLING CHARACTERISTICS OF CONTRA-ROTATING AZIMUTH PROPULSOR. Brodogradnja, 73 (4), 79-105. https://doi.org/10.21278/brod73405

MLA 8th Edition

Hou, Lixun and Qingcai Wang. "INVESTIGATION ABOUT THE HYDRODYNAMIC COUPLING CHARACTERISTICS OF CONTRA-ROTATING AZIMUTH PROPULSOR." Brodogradnja, vol. 73, no. 4, 2022, pp. 79-105. https://doi.org/10.21278/brod73405. Accessed 21 Nov. 2024.

Chicago 17th Edition

Hou, Lixun and Qingcai Wang. "INVESTIGATION ABOUT THE HYDRODYNAMIC COUPLING CHARACTERISTICS OF CONTRA-ROTATING AZIMUTH PROPULSOR." Brodogradnja 73, no. 4 (2022): 79-105. https://doi.org/10.21278/brod73405

Harvard

Hou, L., and Wang, Q. (2022). 'INVESTIGATION ABOUT THE HYDRODYNAMIC COUPLING CHARACTERISTICS OF CONTRA-ROTATING AZIMUTH PROPULSOR', Brodogradnja, 73(4), pp. 79-105. https://doi.org/10.21278/brod73405

Vancouver

Hou L, Wang Q. INVESTIGATION ABOUT THE HYDRODYNAMIC COUPLING CHARACTERISTICS OF CONTRA-ROTATING AZIMUTH PROPULSOR. Brodogradnja [Internet]. 2022 [cited 2024 November 21];73(4):79-105. https://doi.org/10.21278/brod73405

IEEE

L. Hou and Q. Wang, "INVESTIGATION ABOUT THE HYDRODYNAMIC COUPLING CHARACTERISTICS OF CONTRA-ROTATING AZIMUTH PROPULSOR", Brodogradnja, vol.73, no. 4, pp. 79-105, 2022. [Online]. https://doi.org/10.21278/brod73405

Abstract

A numerical study is conducted to determine the hydrodynamic coupling characteristics of a contra-rotating azimuth propulsor (CRAP) in open-water conditions. The detached-eddy simulation (DES) method is utilized to run simulations. A grid verification is conducted and the numerical results are validated based on a puller-type podded propeller. The hydrodynamic forces (i.e., thrusts and torques) are in accordance with the experimental data. The validated numerical method is utilized for subsequent CRAP simulations. The hydrodynamic performance and hydrodynamic coupling characteristics of CRAP are quantitatively analyzed according to forward propeller (FP), rear propeller (RP), and pod unit (PU) indicators with special focus on the hydrodynamic forces and the corresponding unsteadiness. PU appears to have essentially the same effect on the hydrodynamic performance of FP and RP. RP has a weak effect on the hydrodynamic performance of FP, while FP intensely affects that of RP. In general, the CRAP unsteadiness is dominated by RP, especially under heavy loading conditions.

Keywords

CRAP; Detached eddy simulation; Hydrodynamic performance; Unsteadiness; Vortex structure

Hrčak ID:

284762

URI

https://hrcak.srce.hr/284762

Publication date:

16.9.2022.

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Brodogradnja : An International Journal of Naval Architecture and Ocean Engineering for Research and Development, Vol. 73 No. 4, 2022.

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