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    Journals >Chinese Journal of Ship Research >Volume 19 >Issue 6 >Page 201 > Article
    • Chinese Journal of Ship Research
    • Vol. 19, Issue 6, 201 (2024)
    Influence of cup structure on hydrodynamic performance of surface-piercing propeller
    Bin YAN1, Huiping FU1,2, and Jie LI1
    Author Affiliations
  • 1School of Ocean and Civil Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
  • 2State Key Laboratory of Ocean Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
    • show less
    DOI: 10.19693/j.issn.1673-3185.03562 Cite this Article
    Bin YAN, Huiping FU, Jie LI. Influence of cup structure on hydrodynamic performance of surface-piercing propeller[J]. Chinese Journal of Ship Research, 2024, 19(6): 201 Copy Citation Text show less
    References

    [1] J L ALLISON. Propellers for high-performance craft. Marine Technology and SNAME News, 15, 335-380(1978).

    [2] E YARI, H GHASSEMI. Numerical analysis of surface piercing propeller in unsteady conditions and cupped effect on ventilation pattern of blade cross-section. Journal of Marine Science and Technology, 21, 501-516(2016).

    [3] HADLER J B. Perfmance of partially submerged propellers[C]The 7th ONR Symposhium on Naval Hydrodynamics. Rome:[s. n.], 1968.

    [4] O FURUYA. A performance-prediction theory for partially submerged ventilated propellers. Journal of Fluid Mechanics, 151, 311-335(1985).

    [6] YOUNG Y L, KINNAS S A. Numerical modeling of supercavitating surfacepiercing propellers[C]CAV 2001: Fourth International Symposium on Cavitation. Pasadena: Califnia Institute of Technology, 2001.

    [7] E YARI, H GHASSEMI. Hydrodynamic analysis of the surface-piercing propeller in unsteady open water condition using boundary element method. International Journal of Naval Architecture and Ocean Engineering, 8, 22-37(2016).

    [8] Y L YOUNG, B R SAVANDER. Numerical analysis of large-scale surface-piercing propellers. Ocean Engineering, 38, 1368-1381(2011).

    [14] E JAVANMARD, E YARI, J A MEHR. Numerical investigation on the effect of shaft inclination angle on hydrodynamic characteristics of a surface-piercing propeller. Applied Ocean Research, 98, 102108(2020).

    [15] OLOFSSON N. Fce flow acteristics of a partially submerged propeller[M]. Sweden: Chalmers University of Technology, 1996.

    [16] S ALIMIRZAZADEH, S Z ROSHAN, M S SEIF. Unsteady RANS simulation of a surface piercing propeller in oblique flow. Applied Ocean Research, 56, 79-91(2016).

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    Bin YAN, Huiping FU, Jie LI. Influence of cup structure on hydrodynamic performance of surface-piercing propeller[J]. Chinese Journal of Ship Research, 2024, 19(6): 201
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