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    Journals >Chinese Journal of Ship Research >Volume 19 >Issue 5 >Page 28 > Article
    • Chinese Journal of Ship Research
    • Vol. 19, Issue 5, 28 (2024)
    Nonlinear ship wave simulation using an automatic mesh generation method
    Kaiyuan SHI1, Xiangrui ZHANG1,2, Haofeng TIAN1, and Renchuan ZHU1
    Author Affiliations
  • 1School of Ocean and Civil Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
  • 2Marine Design and Research Institute of China, Shanghai 200011, China
    • show less
    DOI: 10.19693/j.issn.1673-3185.03481 Cite this Article
    Kaiyuan SHI, Xiangrui ZHANG, Haofeng TIAN, Renchuan ZHU. Nonlinear ship wave simulation using an automatic mesh generation method[J]. Chinese Journal of Ship Research, 2024, 19(5): 28 Copy Citation Text show less
    References

    [1] W THOMSON. On ship waves. Proceedings of the Institution of Mechanical Engineers, 38, 409-434(1887).

    [2] J H MICHELL. The wave-resistance of a ship. Philosophical MagazineThe London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science, 45, 106-123(1898).

    [3] R BRARD. The representation of a given ship form by singularity distributions when the boundary condition on the free surface is linearized. Journal of Ship Research, 16, 79-92(1972).

    [4] DAWSON C W. A practical computer method f solving shipwave problems[C]Proceedings of Second International Conference on Numerical Ship Hydrodynamics. Berkeley: Califnia Univ. Berkeley, 1977: 30−38.

    [5] F NOBLESSE, F X HUANG, C YANG. The Neumann–Michell theory of ship waves. Journal of Engineering Mathematics, 79, 51-71(2013).

    [6] RAVEN H C. A solution method f the nonlinear ship wave resistance problem[D]. Delft: Delft University of Technology, 1996.

    [9] Y TANG, S L SUN, H L REN. Numerical investigation on a container ship navigating in irregular waves by a fully nonlinear time domain method. Ocean Engineering, 223, 108705(2021).

    [10] H J CHOI, H H CHUN, I R PARK et al. Panel cutting method: new approach to generate panels on a hull in rankine source potential approximation. International Journal of Naval Architecture and Ocean Engineering, 3, 225-232(2011).

    [11] J H WANG, Z REN, D C WAN. Study of a container ship with breaking waves at high Froude number using URANS and DDES methods. Journal of Ship Research, 64, 346-356(2020).

    [13] M TERZIEV, T TEZDOGAN, A INCECIK. Scale effects and full-scale ship hydrodynamics: a review. Ocean Engineering, 245, 110496(2022).

    [14] K Y SHI, R C ZHU. Efficient spectral coupled boundary element method for fully nonlinear wave–structure interaction simulation. Physics of Fluids, 35, 057121(2023).

    [15] W J KIM, S H VAN, D H KIM. Measurement of flows around modern commercial ship models. Experiments in Fluids, 31, 567-578(2001).

    [16] LARSSON L, STERN F, VISONNEAU M. Numerical ship hydrodynamics: an assessment of the Gothenburg 2010 wkshop[M]. Ddrecht: Springer, 2013.

    [17] J BAŠIĆ, B BLAGOJEVIĆ, M ANDRUN. Improved estimation of ship wave-making resistance. Ocean Engineering, 200, 107079(2020).

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    Kaiyuan SHI, Xiangrui ZHANG, Haofeng TIAN, Renchuan ZHU. Nonlinear ship wave simulation using an automatic mesh generation method[J]. Chinese Journal of Ship Research, 2024, 19(5): 28
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