Time-domain analysis of nonlinear motion responses and structural loads on ships and offshore structures: development of WISH programs |
Kim, Yong-Hwan
(Seoul National University)
Kim, Kyong-Hwan (Seoul National University) Kim, Jae-Han (Seoul National University) Kim, Tae-Young (Seoul National University) Seo, Min-Guk (Seoul National University) Kim, Yoo-Il (Ship and Ocean R&D Center, Daewoo Shipbuilding & Marine Engineering Co.) |
1 | Watanabe, I. and Guedes Soares, C., 1999. Comparative study on the time-domain analysis of non-linear ship motions and loads. Marine Structures, 12, pp. 153-170. DOI ScienceOn |
2 | Wu, M.K. and Moan, T., 1996. Linear and nonlinear hydroelastic analysis of high-speed vessel. Journal of Ship Research, 40(2), pp. 149-63. |
3 | Yasukawa, H. and Nakayama, Y., 2009. 6-DOF motion simulations of a turning ship in regular waves. Proceedings of the International Conference on Marine Simulation and Ship Manoeuvrability, Panama City, Panama. |
4 | Malenica, S. Molin, B. and Senjanociv, I., 2003. Hydroelastic response of a barge to impulsive and non-impulsive wave loads. Proceedings of the Hydroelasticity Conference, Oxford, UK. |
5 | O'Dea, J. Powers, E. and Zselecsky, J., 1992. Experimental determination of nonlinearities in vertical place ship motions. Proceedings of the 19th Symposium on Naval Hydrodynamics, Seoul, Korea, pp. 73-90. |
6 | Pawlowski, J., 1992. A nonlinear theory of ship motions in waves. Proceedings of the 19th Symposium on Naval Hydrodynamics, Seoul, Korea. |
7 | Price, W.G. and Temarel, P., 1982. The influence of hull flexibility in the anti-symmetric dynamic behavior of ships in waves. International Shipbuilding Progress, 29, pp.318-326. |
8 | Seo, M.G. and Kim, Y., 2011. Numerical analysis on ship maneuvering coupled with ship motion in waves. (Submitted for publication) |
9 | Singh, S.P. and Sen, D., 2007. A comparative linear and nonlinear ship motion study using 3-D time domain methods. Ocean Engineering, 34, pp.1863-1881. DOI ScienceOn |
10 | Song, M.J. Kim, K.H. and Kim, Y., 2011. Numerical analysis and validation of weakly nonlinear ship motions and structural loads on a modern containership, Ocean Engineering, 38, pp. 77-87. DOI ScienceOn |
11 | Vidic-Perunovic, J., 2005. Springing response due to bidirectional wave excitation. Ph.D. Dissertation, Technical University of Denmark, Lyngby, Denmark. |
12 | Voogt, A.J., 2005. Second order effects in extreme waves and shallow water waves. Proceeding of the 2nd International Workshop on Applied Offshore Hydrodynamics, Rio de Janeiro, Brazil. |
13 | Waals, O., 2009. On the application of advanced wave analysis in shallow water model testing (Wave Splitting). Proceeding of the 28th International Conference of Offshore Mechanics and Arctic Engineering, Hawaii, USA. |
14 | Kim, K.H. Kim, Y., 2009c. Time-domain analysis of nonlinear ship motion responses based on weak-scatterer hypothesis, Proceedings of the 19th International Offshore and Polar Engineering Conference, Osaka, Japan. |
15 | Kim, K.H. Kim, Y. and Kim, Y., 2008. WISH JIP Phase 1 project report and user's manual. Project Report, Seoul National University, Seoul, Korea. |
16 | Kim, K.H. Kim, Y. and Kim, M.S., 2009a. Numerical analysis on motion responses of adjacent multiple floating bodies by using Rankine panel method. International Journal of Offshore and Ocean Engineering, 19(2), pp. 90-96. |
17 | Kim, Y. Kim, K.H. and Kim, Y., 2009b. Analysis of hydroelasticity of floating ship-like structure in time domain using a fully coupled hybrid BEM-FEM. Journal of Ship Research, 53(1), pp. 31-47. |
18 | Kim, K.H. and Kim, Y. 2010a. Comparative study on ship hydrodynamics based on Neumann-Kelvin and doublebody linearizations in time-domain analysis, International Journal of Offshore and Polar Engineering, 20(4), pp.265- 274 |
19 | Kim, Y. Kim, Y. Kang, B.C. and Kim, K.H., 2010b. Study on global ship hydroelasticity by using a fully coupled BEMFEM in time domain. Proceedings of the 28th Symposium on Naval Hydrodynamics, Pasadena, USA. |
20 | Kring, D. Huang, Y.F. Sclavounos, P. Vada, T. and Braathen, A., 1996. Nonlinear ship motions and wave-induced loads by a Rankine panel method. Proceedings of the 21st Symposium on Naval Hydrodynamics, Trondheim, Norway pp. 45-63. |
21 | Lin, W.M. and Yue, D.K., 1990. Numerical solutions for largeamplitude ship motions in time domain. Proceedings of the 18th Symposium on Naval Hydrodynamics, Ann Arbor, MI. USA, pp. 41-66. |
22 | Lin, W.M. Meinhold, M. Salvensen, N. and Yue, D.K., 1994. Large-amplitude motions and wave loads for ship design. Proceedings of the Symposium on Naval Hydrodynamics, Santa Barbara, CA, USA, pp. 205-206. |
23 | Jensen, J.J. and Dogliani, M., 1996. Wave-induced ship hull vibrations in stochastic seaways. Marine Structures, 9(3), pp. 353-387. DOI ScienceOn |
24 | Bishop, R.E.D. and Price, W.G., 1979. Hydroelasticity of Ships. Cambridge University Press, Cambridge, UK. |
25 | Huang, Y., 1998. Nonlinear Ship Motions by a Rankine Panel Method. Ph.D. Dissertation, Massachusetts Institute of Technology, Cambridge, MA. |
26 | ISSC, 2000. Extreme hull girder loading. Proceedings of the 14th International Ship Structure Committee, ISSC(2000), Nagasaki, Japan. |