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Ships and Offshore Structures Volume 12, 2017 - Issue 6
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Original Articles

Numerical simulation of motion of single and side-by-side vessels in regular waves using OpenFOAM

H.T. OkDivision of Naval Architecture and Ocean Systems Engineering, Korea Maritime and Ocean University, Busan, KoreaView further author information
,
S.J. LeeDivision of Naval Architecture and Ocean Systems Engineering, Korea Maritime and Ocean University, Busan, KoreaCorrespondence[email protected]
View further author information
&
J.H. ChoiDivision of Naval Architecture and Ocean Systems Engineering, Korea Maritime and Ocean University, Busan, KoreaView further author information
Pages 793-803 | Received 06 Apr 2016, Accepted 23 Nov 2016, Published online: 21 Dec 2016

References

  • Buchner B, Van Dijk A, De Wilde J. 2001. Numerical multiple-body simulations of side-by-side mooring to an FPSO. In The Eleventh International Offshore and Polar Engineering Conference. International Society of Offshore and Polar Engineers; 2001 June 17–22; Stavanger (Norway).
  • Clauss GF, Testa D, Dudek M, Stuppe S. 2013. Hydrodynamic aspects of a side-by-side LNG-transfer concept: developments in maritime transportation and exploitation of sea resources. IMAM. 2013:223.
  • Faltinsen OM, Rognebakke OF, Timokha AN. 2007. Two-dimensional resonant piston-like sloshing in a moonpool. J Fluid Mech. 575:359–397.
  • Gaillarde G, Ledoux A, Lynch M. 2004. Coupling between liquefied gas and vessel's motion for partially filled tanks: effect on seakeeping. London: Design & Operation of Gas Carriers.
  • Hong SY, Kim JH, Cho SK, Choi YR, Kim YS. 2005. Numerical and experimental study on hydrodynamic interaction of side-by-side moored multiple vessels. Ocean Eng. 32:783–801.
  • Jean-Robert F, Naciri M, Xiao-Bo C. 2006. Hydrodynamics of two side-by-side vessels experiments and numerical simulations. In The Sixteenth International Offshore and Polar Engineering Conference. International Society of Offshore and Polar Engineers; 2006 May 28–June 2; San Francisco (CA).
  • Jiang SC, Lu L, Teng B, Bai W. 2014. Numerical simulation of gap resonance between twin boxes under forced heave motion. In The Twenty-fourth International Ocean and Polar Engineering Conference. International Society of Offshore and Polar Engineers; 2014 June 15–20; Busan (Korea).
  • Kristiansen T, Faltinsen OM. 2008. Application of a vortex tracking method to the piston-like behaviour in a semi-entrained vertical gap. Appl Ocean Res. 30:1–16.
  • Lee SJ. 2008. The effects of LNG-sloshing on the global responses of LNG-carriers [doctoral dissertation]. College Station (USA): Texas A&M University.
  • Molin B. 2001. On the piston and sloshing modes in moonpools. J Fluid Mech. 430:27–50.
  • Moradi N, Zhou T, Cheng L. 2015. Effect of inlet configuration on wave resonance in the narrow gap of two fixed bodies in close proximity. Ocean Eng. 103:88–102.
  • Moradi N, Zhou T, Cheng L. 2016. Two-dimensional numerical study on the effect of water depth on resonance behaviour of the fluid trapped between two side-by-side bodies. Appl Ocean Res. 58:218–231.
  • Heo JK, Park JC. 2012. Numerical analysis on hydrodynamic forces acting on side-by-side arranged two-dimensional floating bodies in viscous flows. J Soc Nav Archit Korea. 49:425–432.
  • Pauw WH, Huijsmans RH, Voogt A. 2007. Advances in the hydrodynamics of side-by-side moored vessels. In ASME 2007 26th International Conference on Offshore Mechanics and Arctic Engineering. American Society of Mechanical Engineers; 2007 June 10–15; San Diego (CA).
  • Sauder T, Kristiansen T, Ostman A. 2010. Validation of a numerical method for the study of piston-like oscillations between a ship and a terminal. In The Twentieth International Offshore and Polar Engineering Conference. International Society of Offshore and Polar Engineers; 2010 June 20–25; Beijing (China).
  • Shenoi RR, Krishnankutty P, Panneer Selvam R. 2016. Study of manoeuvrability of container ship by static and dynamic simulations using a RANSE-based solver. Ships Offshore Struc. 11:316–334.
  • Xu X, Yang JM, Li X, Xu L. 2014. Hydrodynamic performance study of two side-by-side barges. Ships Offshore Struc. 9:475–488.
  • Yu YH, Kinnas SA. 2008. Prediction of hydrodynamic performance for various ship-shaped hulls under excessive roll motions using an unsteady Navier-Stokes solver. In The Eighteenth International Offshore and Polar Engineering Conference. International Society of Offshore and Polar Engineers; 2008 July 6-11; Vancouver (BC, Canada).

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