Fluid-structure interaction calculation method for composite propeller based on BEM−FEM

Chunyu GUO; Shiqi ZHU; Liyu YE; Chao WANG

doi:10.19693/j.issn.1673-3185.03386

Chinese Journal of Ship Research, Volume. 19, Issue 6, 191(2024)

Fluid-structure interaction calculation method for composite propeller based on BEM−FEM

Chunyu GUO1... Shiqi ZHU1,2, Liyu YE1,3 and Chao WANG4 |Show fewer author(s)

Author Affiliations

¹Qingdao Innovation and Development Base, Harbin Engineering University, Qingdao 266400, China

²Harbin Electric Machinery Co., Ltd., Harbin 150040, China

³Hudong-Zhonghua Shipbuilding (Group) Co., Ltd., Shanghai 200129, China

⁴College of Shipbuilding Engineering, Harbin Engineering University, Harbin 150001, China

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References(14)

[1] H LEE, M C SONG, S HAN et al. Hydro-elastic aspects of a composite marine propeller in accordance with ply lamination methods. Journal of Marine Science and Technology, 22, 479-493(2017).

[2] H Z ZHANG, Q WU, Y P LI et al. Numerical investigation of the deformation characteristics of a composite hydrofoil with different ply angles. Ocean Engineering, 163, 348-357(2018).

[3] [3] CHEN B Y H, NEELY S K, MICHAEL T J, et al. Design, fabrication testing of the composite pitchadapting (Flex) propellers[C]The 11th Propeller Shafting Symposium (SNAME) . Williamsburg, Virginia, USA: SNAME, 2006.

[4] Z K LIU, Y L YOUNG. Utilization of bend-twist coupling for performance enhancement of composite marine propellers. Journal of Fluids and Structures, 25, 1102-1116(2009).

[5] M R MOTLEY, Z LIU, Y L YOUNG. Utilizing fluid-structure interactions to improve energy efficiency of composite marine propellers in spatially varying wake. Composite Structures, 90, 304-313(2009).

[8] H J LIN, W M LAI, Y M KUO. Effects of stacking sequence on nonlinear hydroelastic behavior of composite propeller blade. Journal of Mechanics, 26, 293-298(2010).

[9] [9] HESS J L, SMITH A M O. Calculation of nonlifting potential flow about arbitrary three dimensional bodies[R]. Long Beach: Douglas Aircraft Co. , 1962.

[10] [10] KERWIN J E, KINNAS S A, LEE J T, et al. A surface panel method f the hydrodynamic analysis of ducted propellers[R]. [S. l. ]: Society of Naval Architects Marine Engineers, 1987.

[11] Y L YOUNG. Time-dependent hydroelastic analysis of cavitating propulsors. Journal of Fluids and Structures, 23, 269-295(2007).

[12] Y L YOUNG, M R MOTLEY, R W YEUNG. Three-dimensional numerical modeling of the transient fluid-structural interaction response of tidal turbines. Journal of Offshore Mechanics and Arctic Engineering, 132, 011101(2010).

[13] [13] PLUCIŃSKI M M, YOUNG Y L, LIU Z K. Optimization of a selftwisting composite marine propeller using geic algithms[C]The 16th International Conference on Composite Materials. Kyoto, Japan: [s.n.], 2007.

[14] Y L YOUNG, J W BAKER, M R MOTLEY. Reliability-based design and optimization of adaptive marine structures. Composite Structures, 92, 244-253(2010).

[16] Y L YOUNG. Fluid–structure interaction analysis of flexible composite marine propellers. Journal of Fluids and Structures, 24, 799-818(2008).

[17] H LEE, M C SONG, J C SUH et al. Hydro-elastic analysis of marine propellers based on a BEM-FEM coupled FSI algorithm. International Journal of Naval Architecture and Ocean Engineering, 6, 562-577(2014).

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Chunyu GUO, Shiqi ZHU, Liyu YE, Chao WANG. Fluid-structure interaction calculation method for composite propeller based on BEM−FEM[J]. Chinese Journal of Ship Research, 2024, 19(6): 191

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Paper Information

Category: Ship Design and Performance

Received: May. 31, 2023

Accepted: --

Published Online: Mar. 14, 2025

The Author Email:

DOI:10.19693/j.issn.1673-3185.03386

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology

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