Chapter 15: References

  1. American Petroleum Institute (API) (2000), Planning, Designing and Constructing Fixed Offshore Platforms - Working Stress Design, API RP2A-WSD, 21st Edition.

  2. American Petroleum Institute (API) (2005), Design and Analysis of Stationkeeping Systems for Floating Structures, API RP2SK, 3rd Edition.

  3. Aranha, J.A.P. and Martins, M.R. (1997), 'Slender body approximation for yaw velocity terms in the wave drift damping matrix', Proceedings of 12th Int. Workshop on Water Waves and Floating Bodies, Marseilles, France.

  4. Barltrop, N.D.P. (1998), Floating Structures: a guide for design and analysis, Vol. 1, CMPT and OPL.

  5. Barltrop, N.D.P. and Adams, A.J. (1991), Dynamics of Fixed Marine Structures, 3rd Edition, Butterworth-Heinemann Ltd, ISBN: 0750610468

  6. Borgman, L.E. (1967), ‘Random hydrodynamic forces on objects’, the Annals of Mathematical Statistics, Vol.38, No.1, pp37-51.

  7. Cambridge University, Engineering Department (2000), Mechanics Data Book, 2000 Edition.

  8. Chen, X.B. (2006), 'The set-down in the second-order Stokes' waves', Seventh International Conference on Hydrodynamics, 4–6 Oct. 2006.  The Island of ISCHIA, Italy, ICHD 2006.

  9. Cheetham, P., Du, S., May, R. and Smith, S. (2007), 'Hydrodynamic analysis of ships side by side in waves', International Aerospace CFD Conference, Paris, June 2007.

  10. Cummins, W.E. (1962), 'The impulse response function and ship motions', Technical Report 1661, David Taylor Model Basin - DTNSRDC, 1962.

  11. Det Norske Veritas (DNV) (2011), Modelling and Analysis of Marine Operations, DNV-RP-H103.

  12. DNV Recommended Practice (2010), Environmental Conditions and Environmental Loads, DNV-RP-C205 Oct 2010.

  13. Du, S.X., Hudson, D.A., Price, W.G. and Temarel, P. (2009), 'Implicit expressions of static and incident wave pressures over the instantaneous wetted surface of ships', Proceedings of the Institution of Mechanical Engineers Part M: Journal of Engineering for the Maritime Environment, Vol. 223, No. 3, pp. 239-256.

  14. Du, S.X., Hudson, D.A., Price, W.G. and Temarel, P. (2011), 'The occurrence of irregular frequencies in forward speed ship seakeeping numerical calculations', Ocean Engineering, Vol. 32, pp. 235-247.

  15. Faltinsen, O.M. (1990), Sea Loads on Ships and Offshore Structures, Cambridge University Press, ISBN: 0521458706.

  16. Hermanns, M. (2002), Parallel Programming in Fortran 95 Using OpenMP, Universidad Politencia de Madrid, Spain.

  17. Houmb, O.G. and Overvik, T. (1976), 'Parameterization of wave spectra', Proceeding of the first Conference on Behaviors of Offshore Structures (BOSS' 76), Trondheim, Norway, Vol. 1, pp.144-169.

  18. International Standard Organization (ISO) (2005), Petroleum and Natural Gas Industries - Specific Requirements for Offshore Structures. Part 1: Metocean Design and Operating Conditions, BS EN ISO 19901 1:2005, ISBN: 0580475077

  19. Inglis, R.B., Price, W.G. (1981), 'A three dimensional ship motion theory—comparison between theoretical predictions and experimental data of the hydrodynamic coefficients with forward speed', Trans. RINA, Vol. 124, pp.141–157.

  20. ITTC (2002), ‘The special committee on waves: final report and recommendations to the 23rd ITTC’, Proceedings of the 23rd ITTC, Vol. 2, Venice, Italy.

  21. ITTC (2011), 'ITTC Recommended Procedures 7.5-02-07-04.5 - Numerical estimation of roll damping'.

  22. Kawahara, Y., Maekawa, K., Ikeda, Y. (2009), 'A simple prediction formula of roll damping of conventional cargo ships on the basis of Ikeda's method and its limitation', Proceedings of the 10th International Conference on Stability of Ships and Ocean Vessels (STAB2009), St. Petersburg, Russia.

  23. Kim, Y. and Sclavounos, P.D. (1998), 'A finite-depth unified theory for linear and second-order problem of slender ships’, Journal of Ship Research, Vol.2, No. 4, pp.297-309.

  24. Kim, S., Sclavounos, P.D. and Nielsen, F.G. (1997), 'Slow-drift responses of moored platforms', the 8th BOSS Conference, Delft University of Technology, The Netherlands, 7-10 July 1997.

  25. Lee, C.H. and Nielsen, F. G. (1996), 'Analysis of oscillating-water-column device using a panel method', 11th International Workshop on Water Waves and Floating Bodies, Hamburg, Germany, March 1996.

  26. Lee, C.H. and Newman, J.N. (2016), 'An extended boundary integral equation for structures with oscillatory free-surface pressure', International Journal of Offshore and Polar Engineering, Vol. 26, No. 1, March 2016, pp. 41-47.

  27. Malenica, S., Zalar, M. and Chen, X.B. (2003), ‘Dynamic coupling of seakeeping and sloshing’, Proceedings of The Thirteenth (2003) International Offshore and Polar Engineering Conference, Honolulu, Hawaii, USA.

  28. Newman, J.N. (1974), 'Second-order, slowly-varying forces on vessels in irregular waves', International Symposium on the Dynamics of Marine Vehicles on Structures in Waves, Bishop R. E. D. and Price W.G. (Editors), Mechanical Engineering Publications Ltd, London, UK, pp.193-197.

  29. Newman, J.N. (1967), 'The drift force and moment on ships in waves', Journal of Ship Research, Vol.11, pp.51-60.

  30. Newman, J.N. (1978), 'The theory of ship motions', Advances in Applied Mechanics, Vol.18, pp.221-283.

  31. Newman, J.N. (2017), Marine Hydrodynamics, 40th Anniversary Edition, The MIT Press.

  32. Newman, J.N. (2018), 'Resonant response of a moonpool with a recess', Applied Ocean Research, Volume 76, July 2018, pp. 98-109.

  33. Ochi, M.K. and Hubble, E.N. (1976), 'Six parameter wave spectra', Proceedings of the 15th Coastal Engineering Conference, ASCE, Honolulu, USA.

  34. Ochi, M.K. and Shin, Y.S. (1988), 'Wind turbulent spectra for design consideration of offshore structures', Proceedings of Offshore Technology Conference, Houston, USA, Paper No. 5736, pp. 461-467.

  35. Ostergaard, N.H., Lyckegaard, A., and Andreasen, J.H. (2011), 'Simulation of frictional effects in models for calculation of the equilibrium state of flexible pipe armouring wires in compression and bending', Journal of Structural Mechanics, Vol. 44, No. 3, pp. 243-259.

  36. Pawłowski, M. (2016), 'The stability of a freely floating ship', Polski Rejestr Statków Technical Report No. 72, January 2016.

  37. Pinkster, J.A. (1980), 'Low frequency second order wave exciting forces on floating structures', PhD. Thesis, TU Delft.

  38. Rainey, R.C.T (1995), ‘Slender-body expressions for the wave load on offshore structures’, Proc. R. Soc. London A, 450, pp. 391-416

  39. Randall, R.E. (1997), Element of Ocean Engineering, Society of Naval Architects and Marine Engineers, ISBN: 0939773244.

  40. Rawson, K.J. and Tupper, E.C. (1984), Basic Ship Theory, Third edition, Longman Group Limited, ISBN: 0582305276.

  41. Robinson, R.W. and Stoddart, A.W. (1987), 'An engineering assessment of the role of non-linearities in transportation barge roll response', Transactions of Royal Institution of Naval Architects, pp. 65-79

  42. Vijith, P.P., Viswanathan, S., Panneerselvam, R. (2014), 'Moonpool effects on a floating body', International Journal of Design and Manufacturing Technology, Vol. 5, No. 3, pp. 23-28.

  43. Wheeler, J.D. (1970), 'Method for calculating forces produced by irregular waves', Journal of Petroleum Technology, 249, pp. 359-367.

  44. Wichers, J.E.W. (1979), 'Slowly Oscillating Mooring Forces in Single Point Mooring Systems', BOSS 1979, London, August 1979.

  45. Zhao, H.J., Song, Z.Y., Li, L., Kong, J., Wang, L.Q., and Yang, J. (2016), ‘On the fifth-order Stokes solution for steady water waves’, China Ocean Engineering, Vol.30, No. 5, October 2016, pp. 794-810.