References

  1. J.E.W. Wichers, A Simulation Model for a Single Point Moored Tanker, Ph.D. Thesis, Delft University, The Netherlands, 1988.
  2. T. Jiang; T.E. Schellin, Motion prediction of a single-point moored tanker subjected to current, wind and waves, J. Offshore Mech. Arct. Eng., 112 (1989) 83–90.
  3. J.M. Heurtier, P. Le Buhan, E. Fontaine, C. Le Cunff, F. Biolley, C. Berhault, Coupled Dynamic Response of Moored FPSO With Risers, Proceedings of the Eleventh (2001) International Offshore and Polar Engineering Conference, Stavanger, Norway, 2001, pp. 319–326.
  4. B.W. Kim, H.G. Sung, J.H. Kim, S.Y. Hong, Comparison of linear spring and nonlinear FEM methods in dynamic coupled analysis of floating structure and mooring system, J. Fluid Struct., 42 (2013) 205–227.
  5. L.M. Bergdahl, I. Rask, Dynamic vs. Quasi-Static Design of Catenary Mooring System, Proceedings of the 19th Offshore Technology Conference, Houston, Texas, USA, 1987, pp. 398–404.
  6. X.H. Chen, J. Zhang, W. Ma, On dynamic coupling effects between a spar and its mooring lines, Ocean Eng., 28 (2001) 863–887.
  7. C.E. Dorado, J.C. Molano, Microthermometry and raman spectroscopy of fluid inclusions from El vapor gold mineralizations, Colombia, Earth Sci. Res. J., 22 (2018) 151–158.
  8. Y. Inoue, H. Miyabe, X. Weiyi, M. Nakamura, Comparative Study on the Quasi-Static Analyses and Dynamic Simulations for Estimating the Maximum Tensions of Mooring Lines, Proceedings of the 1st International Offshore and Polar Engineering Conference, Edinburgh, UK, 1991, pp. 236–242.
  9. H. Ormberg, K. Larsen, Coupled analysis of floater motion and mooring dynamics for a turret-moored ship, Appl. Ocean Res., 20 (1988) 55–67.
  10. A. Tahar, Z. Ran, M.H. Kim, Hull/Mooring/Riser Coupled Spar Motion Analysis With Buoyancy-Can Effect, The Twelfth International Offshore and Polar Engineering Conference, Kitakyushu, Japan, 2002, pp. 223–230.
  11. G.Q. Lyu, H.Q. Zhang, J.C. Li, Effects of incident wind/wave directions on dynamic response of a SPAR-type floating offshore wind turbine system, Acta Mech. Sin., 35 (2019) 954–963.
  12. O.A. Montasir, A.J. Idris, G.Z. Matthew, Effects of water depth, mooring line diameter and hydrodynamic coefficients on the behavior of deepwater FPSOs, Ain Shams Eng. J., 11 (2020) 727–739.
  13. J. Mohammed, E.I. Abdulrahman, A. Suhail, Z.J. Mohd, Effect of moorings drag and inertia on response of spar platform, KSCE J. Civ. Eng., 21 (2017) 2503–2513.
  14. M. Ezoji, A.R.M. Gharabaghi, H. Gol-Zaroudi, The Effects of Wave Parameters on Motion Performance of Semi-Submersible Platforms, G. Soares, Santos, Eds., Maritime Technology and Engineering, Taylor & Francis Group, London, 2014.
  15. J.T. Lopez, L.B. Tao, Non-Linear Coupled Analysis for a Moored FPSO in Deepwater of the Gulf of Mexico, In the 33rd International Conference on Ocean, Offshore and Arctic Engineering, San Francisco, California, USA, 2014.
  16. M.F. Mohd Hanapiah, S. Saad, Z. Ahmad, Hydrodynamic modelling in inshore reef area within Kuantan Coastal Region, J. CleanWAS, 4 (2020) 1–7.
  17. B. Singh, P. Sihag, A. Parsaie, A. Angelaki, Comparative analysis of artificial intelligence techniques for the prediction of infiltration process, Geol. Ecol. Landscapes, 5 (2021) 109–118.
  18. N. Rini, V.J. Kurian, M.S. Liew, A. Whyte, Coupled Analysis for the Effect of Wave Height on FPSO Motions, In the 3rd International Conference on Civil, Offshore and Environmental Engineering, ICCOEE, Malaysia, 2016, pp. 69–74.
  19. J. Wu, Q. Meng, X. Fu, Y. Ma, M. Sun, N. Sun, W. Tan, Study on the relationship between multi-stage strike-slip mechanism and basin evolution in Fangzheng Fault Depression, Earth Sci. Res. J., 22 (2018) 335–339.
  20. J.F. Du, S.Q. Wang, A.T. Chang, H.J. Li, An investigation on low frequency fatigue damage of mooring lines applied in a semisubmersible platform, J. Ocean Univ. China, 15 (2016) 438–446.
  21. Z.X. Zhao, W.H. Wang, W. Shi, X. Li, Effects of second-order hydrodynamics on an ultra-large semi-submersible floating offshore wind turbine, Structures, 28 (2020) 2260–2275.
  22. C. Barrera, I.J. Losada, R. Guanche, L. Johanning, The influence of wave parameter definition over floating wind platform mooring systems under severe sea states, Ocean Eng., 172 (2019) 105–126.
  23. J.N. Newman, Second-Order, Slowly-Varying Forces on Vessels in Irregular Waves, International Symposium on the Dynamics of Marine Vehicles and Structures in Waves, London, 1974, pp. 182–186.
  24. M. Hall, A. Goupee, Validation of a lumped-mass mooring line model with DeepCwind semisubmersible model test data, Ocean Eng., 104 (2015) 590–603.
  25. J.A. Pinkster, Low-frequency phenomena associated with vessels moored at sea, Soc. Pet. Eng. J., 15 (1975) 487–494.
  26. V.L.F. Matos, A.N. Simos, S.H. Sphaier, Second-order resonant heave, roll and pitch motions of a deep-draft semi-submersible: theoretical and experimental results, Ocean Eng., 38 (2011) 2227–2243.