Numerical and experimental study of the cavitation performance of a composite propeller

Miaomiao Li; Yi Hong; Bingqi Si; Yongle Ding; Zhihao Tang; Rongguo Wang; Xiaodong He

doi:10.1063/5.0228410

Numerical and experimental study of the cavitation performance of a composite propeller

Miaomiao Li
, Yi Hong^*
, Bingqi Si
, Yongle Ding
, Zhihao Tang
, Rongguo Wang
, Xiaodong He^*

^*Corresponding author for this work

School of Astronautics

Harbin Institute of Technology
China State Shipbuilding Corporation
China Ship Development and Design Center

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Cavitation, which is harmful and unavoidable, has troubled people for a long time and it is urgent to be solved. A composite propeller has the potential ability to improve the cavitation performance because of its distinctive hydro-elastic characteristic, but the related research is limited. In this paper, the cavitation performance of a composite propeller under uniform and non-uniform wake flow is investigated numerically and experimentally. A cavitation coupling simulation method is presented for predicting the cavitation performance of a composite propeller. Cavitation tests are conducted at a cavitation tunnel. The calculated and tested results of cavitation hydrodynamic performance and cavitation patterns are discussed and analyzed. The results show that they are quite consistent, more importantly, cavitation has a significant impact on the hydro-elastic response of a composite propeller.

Original language	English
Article number	103303
Journal	Physics of Fluids
Volume	36
Issue number	10
DOIs	https://doi.org/10.1063/5.0228410
State	Published - 1 Oct 2024

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abstract = "Cavitation, which is harmful and unavoidable, has troubled people for a long time and it is urgent to be solved. A composite propeller has the potential ability to improve the cavitation performance because of its distinctive hydro-elastic characteristic, but the related research is limited. In this paper, the cavitation performance of a composite propeller under uniform and non-uniform wake flow is investigated numerically and experimentally. A cavitation coupling simulation method is presented for predicting the cavitation performance of a composite propeller. Cavitation tests are conducted at a cavitation tunnel. The calculated and tested results of cavitation hydrodynamic performance and cavitation patterns are discussed and analyzed. The results show that they are quite consistent, more importantly, cavitation has a significant impact on the hydro-elastic response of a composite propeller.",

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T1 - Numerical and experimental study of the cavitation performance of a composite propeller

AU - Li, Miaomiao

AU - Hong, Yi

AU - Si, Bingqi

AU - Ding, Yongle

AU - Tang, Zhihao

AU - Wang, Rongguo

AU - He, Xiaodong

PY - 2024/10/1

Y1 - 2024/10/1

N2 - Cavitation, which is harmful and unavoidable, has troubled people for a long time and it is urgent to be solved. A composite propeller has the potential ability to improve the cavitation performance because of its distinctive hydro-elastic characteristic, but the related research is limited. In this paper, the cavitation performance of a composite propeller under uniform and non-uniform wake flow is investigated numerically and experimentally. A cavitation coupling simulation method is presented for predicting the cavitation performance of a composite propeller. Cavitation tests are conducted at a cavitation tunnel. The calculated and tested results of cavitation hydrodynamic performance and cavitation patterns are discussed and analyzed. The results show that they are quite consistent, more importantly, cavitation has a significant impact on the hydro-elastic response of a composite propeller.

AB - Cavitation, which is harmful and unavoidable, has troubled people for a long time and it is urgent to be solved. A composite propeller has the potential ability to improve the cavitation performance because of its distinctive hydro-elastic characteristic, but the related research is limited. In this paper, the cavitation performance of a composite propeller under uniform and non-uniform wake flow is investigated numerically and experimentally. A cavitation coupling simulation method is presented for predicting the cavitation performance of a composite propeller. Cavitation tests are conducted at a cavitation tunnel. The calculated and tested results of cavitation hydrodynamic performance and cavitation patterns are discussed and analyzed. The results show that they are quite consistent, more importantly, cavitation has a significant impact on the hydro-elastic response of a composite propeller.

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DO - 10.1063/5.0228410

M3 - 文章

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VL - 36

JO - Physics of Fluids

JF - Physics of Fluids

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ER -

Numerical and experimental study of the cavitation performance of a composite propeller

Abstract

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