Optimization of Wave Induced Motions and Forces on a Floating Island
AuthorsOtto, W.J., Waals, O.J., Bunnik, T.H.J., Cresp, J.
Conference/JournalThe 29th International Ocean and Polar Engineering Conference (ISOPE), Honolulu, Hawaii, USA
DateJun 14, 2019
Floating mega islands can provide an attractive solution for creating temporal or more permanent space in coastal areas with a high demand for real estate. Also at open sea in the vicinity of wind farms, fish farms or logistical cross points, a floating mega island could be used as a hub, eliminating costly transfers to shore. One of the aspects which needs to be understood is the wave induced motion of such a floating mega island. A piece-wise flexible island has been model tested at MARIN as described in Waals (2018). The motion behaviour, mooring loads and connector loads in mild and severe sea states has been investigated. In Otto (2019), the motion behaviour is described and explained by comparing model test results with numerical simulations. An interesting aspect in this is the relative importance of wave diffraction, wave radiation and the dissipation of energy in the construction. In the present paper, design optimizations have been performed by varying the draft, size and shape of the islands, making use of the numerical procedure as described in Otto (2019).
This paper is copyrighted material and cannot be shared. Due to copyright policy MARIN is not allowed to reproduce and distribute papers written for and presented at the OTC (Offshore Technology Conference), ISOPE (International Ocean and Polar Engineering Conference) and SPE (Society of Petroleum Engineers). You can order these papers through www.OnePetro.org.