The frequent change in ice drift direction poses a significant challenge for turret moored ship in ice. Variability in ice drift is mainly caused by the winds and currents. To solve this problem, a new method with numerical simulation based on heading control is applied to reduce the risk of operation of The Arctic Tandem Offloading Terminal (ATOT),which includes an offloading icebreaker(OIB) moored to a submerged turret and a shuttle tanker moored at the stern of the OIB in this paper. An icebreaking tanker, MT Uikku, was modeled in a simulation program. Then the level ice load on the tanker was calculated with different ice thicknesses and drift speeds, after which a heading controller assisted with mooring system is used to simulate the horizontal motion of the tanker under the ice action.
The frequent change in ice drift direction poses a significant challenge for turret moored ship in ice. Variability in ice drift is mainly caused by the winds and currents. To solve this problem, a new method with numerical simulation based on heading control is applied to reduce the risk of operation of The Arctic Tandem Offloading Terminal (ATOT),which includes an offloading icebreaker(OIB) moored to a submerged turret and a shuttle tanker moored at the stern of the OIB in this paper. An icebreaking tanker, MT Uikku, was modeled in a simulation program. Then the level ice load on the tanker was calculated with different ice thicknesses and drift speeds, after which a heading controller assisted with mooring system is used to simulate the horizontal motion of the tanker under the ice action.
2016,(s1): 75-84 收稿日期:2016-07-05
DOI:10.3404/j.issn.1672-7619.2016.S1.013
分类号:U661
作者简介:周利(1983-),男,特聘教授,主要研究方向为极地冰载荷与船舶结构物响应,深海立管分析,动力定位。
参考文献:
[1] Bonnemaire, B., Aksnes, V., 2009. Analysis of the Behaviour of a Moored Ship in Variable Ice Drift. Proceedings of the 20th International Conference on Port and Ocean Engineering under Arctic Conditions. Luleå, Sweden.
[2] Bonnemaire, B., Lundamo, T., Jensen,A. and Rupp, K.H., 2008. Subsurface Ice Interactions under a Moored Offloading Icebreaker. Proceedings of the 19th International Symposium on Ice. Vancouver, British Columbia, Canada.
[3] DNV (2004) Offshore Standard-Position Mooring. DNV OSE301.
[4] Enkvist, E., 1972. On the Ice Resistance Encountered by Ships Operating in The Continuous Mode of Icebreaking. Report No.24, The Swedish Academy of Engineering Science in Finland,Helsinki, Finland.
[5] Fossen, T.I., 2010. Guidance and control of Marine Craft. Trondheim, Norway: Marine Cybernetics, NTNU.
[6] Hänninen, S., 2003. Ship Based Observations on Board MT Uikku during the Winter 2003. Ship Laboratory, Helsinki University of Technology, Finland. (Unpublished).
[7] Jensen, A., Bonnemaire, B., Rupp K.H., Løset, S., Breivik, K.G., Evers, K.U., Ravndal, O.,Aksnes, V., Lundamo, T. and Lønøy, C., 2008. First Ice Tank Model Testing of the Arctic Tandem Offloading Terminal. Proceedings of the 19th International Symposium on Ice. Vancouver, British Columbia, Canada.
[8] Kotisalo, K., Kujala, P., 1999. Ice Load Measurements Onboard MT Uikku during the ARCDEV Voyage. Proceedings of POAC 1999, pp. 974-987.
[9] Kujala, P., 1994. On the Statistics of Ice Loads on Ship Hull in the Baltic. Mechanical Engineering Series No. 116, Ship Laboratory, Helsinki University of Technology, Finland.
[10] Kujala, P., Suominen, M., Riska, K., 2009. Statistics of Ice Loads Measured on MT Uikku in the Baltic. Proceedings of POAC 2009.
[11] Lindqvist, G., 1989. A Straightforward Method for Calculation of Ice Resistance of Ships. Proceedings of POAC 1989, pp. 722-735.
[12] Sørensen, A.J., 2005. Marine cybernetics: modeling and control. In Lecture notes (5th edition). UK-05-76.Trondheim, Norway: Department of Marine Technology, NTNU.
[13] Su, B., Riska, K., Moan, T., 2010. A Numerical Method for the Prediction of Ship Performance in Level Ice. Cold Regions Science and Technology, Vol. 60, pp. 177-188.
[14] Varsta, P., 1983. On the Mechanics of Ice Load on Ships in Level Ice in the Baltic Sea. Publications 11, Technical Research Centre of Finland, Espoo, Finland.
[15] Wang, S., 2001. A Dynamic model for Breaking Pattern of Level Ice by Conical Structures. Ph.D. Thesis, Department of Mechanical Engineering, Helsinki University of Technology, Finland.
