International Journal of Naval Architecture and Ocean Engineering

The Society of Naval Architects of Korea (대한조선학회)
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A study on measurements of local ice pressure for ice breaking research vessel "ARAON" at the Amundsen Sea

  • Kwon, Yong-Hyeon (Department of Ocean System Eng., Graduate School, Gyeongsang National University) ;
  • Lee, Tak-Kee (Department of Naval Archi. & Ocean Eng., Gyeongsang National University, Institute of Marine Industry) ;
  • Choi, Kyungsik (Department of Ocean Eng., Korea Maritime and Ocean University)
  • Received : 2014.07.17
  • Accepted : 2015.03.15
  • Published : 2015.05.31
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Abstract

In this study, a local ice pressure prediction has been conducted by using measured data from two ice breaking tests that was conducted for a relatively big ice floe at Amundsen Sea in the Antarctica from January 31 to March 30 2012. The symmetry of load was considered by attaching strain gauges on the same sites inside the shell plating of ship at the port and the starboard sides in the bow thrust room. Using measured strain data, after the ice pressure was converted by the influence coefficient method and the direct method, the two values were found to be similar.

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References

  1. ABS, 2011. Guide for ice load monitoring system. Houston, TX: ABS.
  2. Choi, K.S., Kim, H.S., Choi, G.G., Lee, J.M. and Ha, J.S., 2012. Voyage activity report : 2012 Amundsen Sea voyage of the icebreaking research vessel "ARAON". Daejeon: Ice Field Test and Research Team.
  3. Ha, J.S., Choi, K.S., Kim, H.S., Choi, G.G. and Lee, J.M., 2012. Measurements for material properties of Sea Ice in the Amundsen Sea of the Antarctic and icebreaking performance tests of icebreaking research vessel ARAON. Proceeding of the Society of the Naval Architects of Korea, Daegu, 31 May - 1 June 2012, pp.546-549.
  4. ISSC, 2012. Arctic technology committee V.6 report. 18th International Ship and Offshore Structures Congress, Rostock, Germany, 09-13 September 2012, pp.243-274.
  5. Kim, H.S., Lee, C.J., Choi, K.S. and Kim, M.C., 2011. Study on icebreaking performance of the Korea icebreaker ARAON in the arctic sea. International of Journal of Naval Architecture and Ocean Engineering, 3, pp.208-215. https://doi.org/10.3744/JNAOE.2011.3.3.208
  6. Kim, H.S., Lee, C.J. and Choi, K.S., 2012. Speed trial analysis of Korean ice breaking research vessel 'Araon' on the big floes. Journal of the Society of Naval Architects of Korea, 49(6), pp.478-483. https://doi.org/10.3744/SNAK.2012.49.6.478
  7. Kim, H.S., Kim, M.C., Choi K.S. and Lee, C.J., 2013. Full scale ice sea trials of Korean ice breaking research vessel 'Araon' on the big floes near Antarctica. Journal of Marine Science and Technology, 18, pp.515-523. https://doi.org/10.1007/s00773-013-0223-4
  8. Kim, T.W., Kim, H.N., Choi, K.S. and Lee, T.K., 2014. Study on influence of ship speed on local ice loads on bow of the IBRV ARAON. Proceedings of the Twenty-fourth (2014) International Ocean and Polar Engineering Conference, Busan, Korea, June 15-20 2014, pp.1159-1164.
  9. Lee, T.K., Lee, J.H., Rim, C.W. and Choi, K.S., 2013a. Effects of ship speed and ice thickness on local ice loads measured in Arctic Sea. Journal of Ocean Engineering and Technology, 27(5), pp.82-87. https://doi.org/10.5574/KSOE.2013.27.5.082
  10. Lee, T.K., Kim, T.W., Rim, C.W. and Kim, S.C., 2013b. A study on calculation of local ice pressures for ARAON based on data measured at Arctic Sea. Journal of Ocean Engineering and Technology, 27(5), pp.88-92. https://doi.org/10.5574/KSOE.2013.27.5.088
  11. Park, Y.J., Kim, D.H. and Choi, K.S., 2011. Material properties of Arctic Sea ice during 2010 Arctic voyage of icebreaking research vessel ARAON: Part 1-Sea ice thickness, temperature, salinity and density. Journal of Ocean Engineering and Technology, 25(2), pp.55-61. https://doi.org/10.5574/KSOE.2011.25.2.055
  12. Ritch, R., Frederking, R., Johnston, M., Browne, R and Ralph, F. 2008. Local ice pressures measured on a strain gauge panel during the CCGS Terry Fox bergy bit impact study. Cold Regions Science and Technology, 52(1), pp.29-49. https://doi.org/10.1016/j.coldregions.2007.04.017
  13. St. John, J.W., Daley, C. and Blount, H., 1990. Ice loads and ship response to ice -summer 1982/winter 1983 test program-, Ship Structure Committee (SSC), report no. 329, Washington: SSC.
  14. St. John, J.W. and Minnick, P.V., 1995. Ice load impact study on the national science foundation's research vessel Nathaniel B. Palmer. Ship Structure Committee (SSC), report no. 376, Washington: SSC.
  15. Timco, G.W. and O'Brien, S., 1994. Flexural strength equation for sea ice. Cold Regions Science and Technology, 22(3), pp.285-298. https://doi.org/10.1016/0165-232X(94)90006-X
  16. Tsoy, L.G., Karavanov, S.B., Glebko, Y.V., Barabanov, N.V., Babich, N.G., Karlov, V.K. and Shatsberger, E.M., 1998. Collection of SA-15 operations data. INSROP(International Northern Sea Route Programme) working paper no. 107. St. Petersburg: INSROP.

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