Development of an Evaluation Procedure for Seakeeping Performance of High-speed Planing Hull using Hybrid Method |
Kim, YoungRong
(Division of Navigation Science, Korea Maritime and Ocean University)
Park, Jun-Bum (Division of Navigation Science, Korea Maritime and Ocean University) Park, Jong-Chun (Department of Naval architecture and Ocean Engineering, Pusan National University) Park, Seul-Ki (Department of Naval architecture and Ocean Engineering, Pusan National University) Lee, Won-Min (DAEHEA Co., Ltd.) |
1 | American Bureau of Shipping (ABS), 2003. Guidance notes on 'dynamic load approach' and direct analysis for high speed craft. |
2 | Bae, J. Y., 2015. A study on operating limit analysis for small high-speed boat. Journal of the Korean Society of Marine Environment & Safety, 21(6), pp.784-789. DOI |
3 | Camilleri, J., Taunton, D. J. & Temarel, P., 2015. Slamming impact loads on high-speed craft sections using two-dimensional modelling. Analysis and Design of Marine Structures, 2012, pp.73-81. |
4 | International Association of Classification Societies (IACS), 2015. Common structural rules for bulk carriers and oil tankers. |
5 | Joongang Ilbo, 2017. Tanker-fishing boat collision accident...Korea coast guard, reorganization by rescue timeline, URL: http://news.joins.com/article/22171432 [Accessed 6 Sep 2018]. |
6 | Kim, D. J., Kim, S. Y., Kim, S. H., Seo, J. H. & Rhee, S. H., 2014. Effects of hull form variations on resistance and seakeeping performance of planing hulls with and without incoming regular waves. Journal of the Society of Naval Architects of Korea, 51(5), pp.369-379. DOI |
7 | North Atlantic Treaty Organization(NATO), 2000. Common procedures for seakeeping in the ship design process. STANAG 4154, 3rd Ed. |
8 | NORDFORSK, 1987. Assessment of ship performance in a seaway. Nordic cooperative Project: Seakeeping performance of ships, Copenhagen, Denmark. |
9 | Ochi, M. K., 1964. Prediction of occurence and severity of ship slamming at sea. Proceedings of the 5th Symposium on Naval Hydrodynamics, pp.545-596. |
10 | Ochi, M. K. & Motter, L. E., 1974. Prediction of extreme ship responses in rough seas of the north Atlantic. Proceedings of the International Symposium on Dynamics of Marine Vehicles and Structures in Waves, pp.199-209. |
11 | Prini, F., Benson, S., Birmingham, R. W., Dow, R. S., Phillips, H. J., Sheppard, P. J. & Varas, J. M., 2015. Seakeeping analysis of a high-speed search and rescue craft by linear potential theory. International Conference on Lightweight Design of Marine Structures, Glasgow, UK, pp.87-96. |
12 | Repulic of Korea Navy, 2004. Naval-ship design&construction criteria : Guideline for Seakeeping. |
13 | Seakeeping Committee, 1981. Final report and recommendations to the 16th ITTC. Proceedings of the 16th International Towing Tank Conference. |
14 | Seo, J., Choi, H. K., Jeong, U. C., Lee, D. K., Rhee, S. H., Jung, C. M. & Yoo, J., 2016. Model tests on resistance and seakeeping performance of wave-piercing high-speed vessel with spray rails. International Journal of Naval Architecture and Ocean Engineering, 8(5), pp.442-455. DOI |
15 | Van't Veer, A. P., 2009. PRECAL v6.5 Theory manual. MARIN Report No. 17926-2. |