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Ships and Offshore Structures Volume 18, 2023 - Issue 7
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Articles

Experimental parametric study on hydroelastic behaviour of a 15000-TEU container ship based on segmented ship model

Zhanyang Chena School of Ocean Engineering, Harbin Institute of Technology at Weihai, Weihai, People’s Republic of ChinaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-3795-1312View further author information
ORCID Icon,
Nan Zhaob Ship Structure Division, China Ship Scientific Research Center, Wuxi, People’s Republic of ChinaView further author information
,
Hansheng Zhaoa School of Ocean Engineering, Harbin Institute of Technology at Weihai, Weihai, People’s Republic of ChinaView further author information
,
Rui Guoa School of Ocean Engineering, Harbin Institute of Technology at Weihai, Weihai, People’s Republic of ChinaView further author information
&
Weidong Zhaoa School of Ocean Engineering, Harbin Institute of Technology at Weihai, Weihai, People’s Republic of ChinaView further author information
Pages 948-959 | Received 27 Mar 2022, Accepted 20 May 2022, Published online: 08 Jun 2022

References

  • Chen ZY, Cong PW, Gui HB. 2022. A simplified method for nonlinear hydroelastic responses of a truss-type VLFS in oblique seas based on orthotropic plate model. Sh Offshore Struct. 17(4):757–771.
  • Chen ZY, Gui HB. 2017. Research on whipping and springing responses of hull based on different experimental method and nonlinear hydroelastic time-domain theory. J Sh Mech. 21(9):1143–1158.
  • Chen ZY, Gui HB, Dong PS, Yu CL. 2019a. Numerical and experimental analysis of hydroelastic responses of a high-speed trimaran in oblique irregular waves. Int J Nav Archit Ocean Eng. 11(1):409–421.
  • Chen ZY, Gui HB, Yu CL, Dong PS. 2019b. Rankine source method analysis for nonlinear hydroelastic responses of a container ship in regular oblique waves. Ocean Eng. 187(6):106168.
  • Chen ZY, Jiao JL, Li H. 2017. Time-domain numerical and segmented ship model experimental analyses of hydroelastic responses of a large container ship in oblique regular waves. Appl Ocean Res. 67:78–93.
  • Cheng Y, Ji CY, Zhai GJ, Gaidai O. 2016. Hydroelastic analysis of oblique irregular waves with a pontoon-type VLFS edged with dual inclined perforated plates. Mar. Struct. 49:31–57.
  • Cui W, Yang J, Wu Y, Liu Y. 2007. Theory of hydroelasticity and its application to very large floating structures. Shanghai: Shanghai Jiao Tong University.
  • Ding J, Tian C, Wu YS, Li ZW, Ling HJ, Ma XZ. 2017. Hydroelastic analysis and model tests of a single module VLFS deployed near islands and reefs. Ocean Eng. 144:224–234.
  • Ding J, Tian C, Wu YS, Wang XF, Liu XL, Zhang K. 2019. A simplified method to estimate the hydroelastic responses of VLFS in the inhomogeneous waves. Ocean Eng. 172:434–445.
  • Hirdaris SE, Bai W, Dessi D, Ergin A, Gu X, Hermundstad OA, Huijsmans R, Iijima K, Nielsen UD, Parunov J, et al. 2014. Loads for use in the design of ships and offshore structures. Ocean Eng. 78:131–174.
  • Jiao JL, Ren HL, Sun SZ, Adenya CA. 2015a. Experimental and numerical analysis of Hull Girder vibrations and Bow impact of a large ship sailing in waves. Shock Vib. 2015:1–10.
  • Jiao JL, Ren HL, Sun SZ, Adenya CA. 2015b. Investigation of a ship’s hydroelasticity and seakeeping performance by means of large-scale segmented self-propelling model sea trials. J Zhejiang Univ-Sci A (Appl Phys & Eng. 16(5):387–394.
  • Jiao JL, Ren HL, Sun SZ, Adenya CA. 2016. Experimental investigation of wave-induced ship hydroelastic vibrations by large-scale model measurement in coastal waves. Shock Vib. 2016:1–14.
  • Kang HY, Kim MH. 2016. Time-domain hydroelastic analysis with efficient load estimation for random waves. Int J Nav Archit Ocean Eng. 9:1–16.
  • Kim JH, Kim Y. 2014. Numerical analysis on springing and whipping using fully-coupled FSI models. Ocean Eng. 91:28–50.
  • Kim JH, Kim Y, Yuck RH, Lee DY. 2015. Comparison of slamming and whipping loads by fully coupled hydroelastic analysis and experimental measurement. J Fluids Struct. 52:145–165.
  • Lavroff J, Davis MR, Holloway DS, Thomas G. 2013. Wave slamming loads on wave-piercer catamarans operating at high-speed determined by hydro-elastic segmented model experiments. Mar Struct. 33:120–142.
  • Lewis EV. 1954. Ship model tests to determine bending moments in waves. Transpotation Soc Nav Archit Mar Eng. 62:426–490.
  • Li L, Fu SX, Xu YW. 2013. Nonlinear hydroelastic analysis of an aquaculture fish cage in irregular waves. Mar. Struct. 34:56–73.
  • Marón A, Kapsenberg G. 2014. Design of a ship model for hydro-elastic experiments in waves. Int J Nav Archit Ocean Eng. 6:1130–1147.
  • Miyake R, Matsumoto T, Zhu T. 2008. Experimental studies on the hydroelastic response due to spring using a flexible mega-container ship model. The 8th International Conference on Hydrodynamics; France.
  • Senjanović I, Malenica Š, Tomašević S. 2008. Investigation of ship hydroelasticity. Ocean Eng. 35:523–535.
  • Stenius I, Rosén A, Battley M, Allen T. 2013. Experimental hydroelastic characterization of slamming loaded marine panels. Ocean Eng. 74:1–15.
  • Wei SX, Fu T, Moan CH, Song TX, Ren T. 2018. A time-domain method for hydroelasticity of very large floating structures in inhomogeneous sea conditions. Mar Struct. 57:180–192.
  • Wu HL, Chen XJ, Shen HP, Wu YS. 2018. Experimental and numerical investigation of the hydroelasticity of a floating structure with legs. Mar Struct. 61:100–118.
  • Yang P, Li ZW, Wu YS, Wen W, Ding J, Zhang ZW. 2019. Boussinesq-Hydroelasticity coupled model to investigate hydroelastic responses and connector loads of an eight-module VLFS near islands in time domain. Ocean Eng. 190:106418.

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