References
- Cho, S.R., Chun, E.J., Yoo, C.S., Jeong, S.Y. and Lee, C.J., 2011. The measuring methodology of friction coefficient between ice and ship. Journal of the Society of Naval Architects of Korea, 48, pp.363-367. https://doi.org/10.3744/SNAK.2011.48.4.363
- Cho, S.R., Jeong, S.Y. and Lee, S., 2013. Development of effective model test in pack ice conditions of square-type ice model basin. Journal of Ocean Engineering, 67(2013), pp.35-44. https://doi.org/10.1016/j.oceaneng.2013.04.011
- Clarke, C., Buchanan, R., Efthymiou, M. and Shaw, C., 2005. Structural platform solution for seismic arctic environmentssakhalin II offshore facilities. Offshore Technology Conference 2005, Houston, Texas, 5 February 2005.
- Corlett, E.C.B. and Snaith, G.R., 1964. Some aspects of icebreaker design. Transaction of the Royal Institution of Naval Architects, 106(4), pp.389-413.
- Derradji, A.A. and Van, T.A., 2004. Terry fox resistance tests - Phase III (PMM) ITTC experimental uncertainty analysis iniative. Report No. TR-2004-05. St. John's, Newfoundland and Labrador, National Research Council - Institute for Ocean Technology.
- Edwards, R.Y.Jr., Lewis, J.W., Wheaton J.W., and Coburn, J., 1972. Full-scale and model tests of a Great Lakes icebreaker. Transaction of the Society of Naval Architects and Marine Engineering, 80, pp. 170-207.
- Enkvist, E., 1972. On the ice resistance encountered by ships operating in the continuous model of icebreaking, report No. 24. Helsinki: The Swedish Academy of Engineering Sciences in Finland.
- Hetenyi, M., 1946. Beams on elastic foundation. Ann Arbor: The University of Michigan Press.
- Jones, S., 2005. Resistance and propulsion model tests of the U.S.C.G.C Healy in Ice. LM-2005-02. St. John's, Newfoundland and Labrador, National Research Council - Institute for Ocean Technology.
- Kashteljan, V.I., Poznyak, I.I. and Ryvlin, A.Ya., 1968. Ice resistance to motion of a ship. Leningrad: Sudostroyeniye.
- Kim, M.C., Lee, W.J. and Shin, Y.J., 2014. Comparative study on the resistance performance of an ice breaking cargo vessel according to the variation of waterline angles in pack ice conditions. International Journal of Naval Architecture and Ocean Engineering, 6(4), pp.876-893. https://doi.org/10.2478/IJNAOE-2013-0219
- Lau, M. and Akinturk, A. 2011. KORDI Araon model tests in ice using the planar motion mechanism, report LM-2011-04. Canada: St. John's, Newfoundland and Labrador, National Research Council - Institute for Ocean Technology.
- Lewis, J.W. and Edwards, R.Y.Jr., 1970. Methods for predicting icebreaking and ice resistance characteristics of icebreakers. Transaction of the Society of Naval Architects and Marine Engineering, 78, pp.213-249.
- Lindqvist, G. 1989. A straightforward method for calculation of ice resistance of ships. Proceedings of POAC 1989, Lulea, Sewden, 15 Jun 1989, pp.722-735.
- Niini, M. Kaganov, s. and Tustin R.D., 2007. Development of Arctic double acting shuttle tankers for the Prirazlomnoye project. TSCF 2007 Shipbuilders Meeting, Busan, Korea, 25 October 2007.
- Tatinclaux, J.C., 1984. Model tests in ice of a canadian coast guard R-class icebreaker, CRREL special report 84-6. Hanover, New Hampshire: Cold Regions Research and Engineering Laboratory.
- Timco, G.W., Kubat, I., Collins, A. and Johnston, M., 2004. Data collection program on ice regimes onboard the CCG icebreakers-2003. Ottawa, Ontario: Canadian Hydraulics Centre, NRC.
- Vance, G.P., 1974. A modeling system for vessel in ice. Ph.D. dissertation, The University of Rhode Island.
- White, R.M., 1970. Prediction of icebreaker capability. Transaction of the Royal Institution of Naval Architects, 112(2), pp.225-251.
Cited by
- The impact of ice class on the economics of wet and dry bulk shipping in the Arctic waters vol.45, pp.4, 2015, https://doi.org/10.1080/03088839.2018.1443226
- A numerical study on ice failure process and ice-ship interactions by Smoothed Particle Hydrodynamics vol.11, pp.2, 2015, https://doi.org/10.1016/j.ijnaoe.2019.02.008
- Formulation of Ice Resistance in Level Ice Using Double-Plates Superposition vol.8, pp.11, 2020, https://doi.org/10.3390/jmse8110870
- Experimental investigations on the level ice resistance of ships with non-typical icebreaking bow shapes vol.16, pp.suppl1, 2021, https://doi.org/10.1080/17445302.2021.1884812