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The Assessment of Safe Navigation Regarding Hydrodynamic forces between Ships in Restricted Waterways  

Lee, Chun-Ki (Underwater Vehicle Research Center, Korea Maritime University)
Lee, Sam-Goo (Chonbuk National University)
Publication Information
Journal of Mechanical Science and Technology / v.20, no.11, 2006 , pp. 2002-2009 More about this Journal
Abstract
This paper is primarily focused on the safe navigation between overtaking and overtaken vessels in restricted waterways under the external forces, such as wind and current. The maneuvering simulation between two ships was conducted to find an appropriate safe speed and distance, which is required to avoid collision. From the viewpoint of marine safety, a greater transverse distance between two ships is more needed for the smaller vessel. Regardless of external forces, the smaller vessel will get a greater effect of hydrodynamic forces than the bigger one. In the case of close navigation between ships under the forces of wind and current, the vessel moving at a lower speed is potentially hazardous because the rudder force of the lower speed vessel is not sufficient for steady-state course-keeping, compared to that of the higher speed vessel.
Keywords
Ship Handling; Safe Navigation; Restricted Waterways; Overtaking and Overtaken Vessel; Hydrodynamic Forces; Transverse Distance;
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  • Reference
1 Yasukawa, H., 1991, 'Bank Effect on Ship Maneuverability in a Channel with Varying Width,' Trans. of the West-Japan Society of Naval Architects, Vol. 81
2 Yeung, R. W. and Tan, W. T., 1980, 'Hydrodynamic Interactions of Ships with Fixed Obstacles,' Journal of Ship Research, Vol. 24
3 Taylor, P. J., 1973, 'The Blockage Coefficient for Flow about an Arbitrary Body Immersed in a Channel,' Journal of Ship Research, Vol. 17
4 Kijima, K., Nakiri, Y., Tsutsui, Y. and Matsunaga, M., 1990, 'Prediction Method of Ship Maneuverability in Deep and Shallow Waters,' Proceedings of MARSIM and ICSM 90
5 Kijima, K., Furukawa, Y. and Qing, H., 1991, 'The Interaction Effects Between Two Ships in the Proximity of Bank Wall,' Trans. of the West-Japan Society of Naval Architects, Vol. 81
6 Davis, A. M. J., 1986, 'Hydrodynamic Effects of Fixed Obstacles on Ships in Shallow Water,' Journal of Ship Research, Vol. 30
7 Fujiwara, T., Veno, M. and Nimura, T., 1998, 'Estimation of Wind Forces and Moments Acting on Ships,' Journal of the Society of Naval Architects of Japan, Vol. 183