Characteristics analysis of local ice load signals in ice-covered waters |
Lee, Jong-Hyun
(Dept. of Naval Archit. & Ocean Eng., Gyeongsang National University, Institute of Marine Industry)
Kwon, Yong-Hyeon (Dept. of Ocean System Eng., Graduate School, Gyeongsang National University) Rim, Chae-Whan (Korea Institute of Machinery and Materials) Lee, Tak-Kee (Dept. of Naval Archit. & Ocean Eng., Gyeongsang National University, Institute of Marine Industry) |
1 | ABS, 2011. Guide for Ice Load Monitoring System. American Bureau of Shipping, Houston, TX, USA. |
2 | Choi, K.S., Jeong, S.Y., 2008. Ice load prediction formulas for icebreaking Cargo Vessels. J. Soc. Nav. Archit. Korea 45 (2), 175-185. DOI |
3 | Choi, K.S., Lee, C.J., Rim, C.W., Kim, H.S., 2011. Strength characteristics of Arctic Sea Ice from ice field tests of the icebreaking research vessel ARAON. J. Soc. Nav. Archit. Korea 48 (3), 254-259. DOI |
4 | Cuomo, G., Lupoi, G., Shimosako, K., Takahashi, S., 2011. Dynamic response and sliding distance of composite breakwaters under breaking and nonbreaking wave attack. Coast. Eng. 58, 953-969. DOI |
5 | Frederking, R., 1999. The local pressure-area relation in ship impact with ice. In: Proc. 15th International Conference on Port and Ocean Engineering under Arctic Conditions (POAC'99), Helsinki, Finland, 23-27 August, 2, pp. 687-696. |
6 | Goda, Y., 1994. Dynamic response of up-right breakwater to impulsive force of breaking waves. Coast. Eng. 22, 135-158. Special issue on vertical breakwaters. DOI |
7 | ISSC, 2012. International Ship and Offshore Structures Congress (ISSC), Committee V.6 Report. Arctic Technology. |
8 | Jeon, Y.J., Rim, C.W., Lee, T.K., 2013. Profile analysis on signal measured local ice load during icebreaking in Arctic Sea. J. Navig. Port. Res. 37 (2), 143-148. DOI |
9 | Kim, H.S., Lee, C.J., Choi, K.S., Kim, M.C., 2011a. Study on icebreaking performance of the Korea Icebreaker ARAON in the Arctic Sea. Int. J. Nav. Archit. Ocean Eng. 3, 208-215. DOI |
10 | Kim, H.S., Lee, C.J., Jeong, S.Y., Choi, K.S., 2011b. A study on the speed sea trial on the ice field for ice breaking research vessel "Araon". J. Soc. Nav. Archit. Korea 48 (5), 421-425. DOI |
11 | Lee, T.K., Kim, T.W., Rim, C.W., Kim, H.S., 2014. A study on analysis of ice load measured during the Voyage in the Arctic Sea. J. Soc. Nav. Archit. Korea 51 (2), 107-113. DOI |
12 | Lee, T.K., Rim, C.W., Kim, Y.N., Heo, J.H., Kim, B.H., 2007. A study on measurement of flare slamming of large container vessel (II) - characteristic analysis of measured slamming pressure. J. Soc. Nav. Archit. Korea 44 (3), 279-284. DOI |
13 | Lundgren, H., 1969. Wave shock forces: an analysis of deformations and forces in the wave and in the foundation. In: Proc. Symp. on Research in Wave Action. Delft Hydraulics Lab., Delft, The Netherlands, pp. 1-20. |
14 | Oumeraci, H., Kortenhaus, A., 1994. Analysis of dynamic response of caisson breakwaters. Coast. Eng. 22, 159-183. Special issue on vertical breakwaters. DOI |
15 | Oumeraci, H., Kortenhaus, A., Allsop, N.W.H., De Groot, M.B., Crouch, R.S., Vrijling, J.K., Voortman, H.G., 2001. Probabilistic Design Tools for Vertical Breakwaters. Balkema, Rotterdam. |
16 | SeatradeGlobal, 2014. MOL and China Shipping confirm Yamal LNG carrier order at DSME (news article), 9 July. |
17 | Shimosako, K., Takahashi, S., 1999. Application of deformation-based reliability design for coastal structures. In: Proc. of Coastal Structures, Balkema, Santander, Spain, vol. 1, pp. 363-371. |
18 | Shimosako, K., Takahashi, S., Tanimoto, K., 1994. Estimating the sliding distance of composite breakwaters due to wave forces inclusive of impulsive forces. In: Proc. of 24th Int. Conf. Coastal Eng., ASCE, Kobe, pp. 1580-1594. |