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ISSN 2083-6473
ISSN 2083-6481 (electronic version)
 

 

 

Editor-in-Chief

Associate Editor
Prof. Tomasz Neumann
 

Published by
TransNav, Faculty of Navigation
Gdynia Maritime University
3, John Paul II Avenue
81-345 Gdynia, POLAND
www http://www.transnav.eu
e-mail transnav@umg.edu.pl
Stability of Vessels in an Ice-free Arctic
Times cited (SCOPUS): 1
ABSTRACT: One consequence of the declining ice cover in the Arctic is increased areas of open seas. These new open sea areas lead to some challenging aspects related to ship stability. Longer fetch lengths, associated with build-up of larger waves followed by increased conditions for sea spray icing on vessels is one aspect. Open seas in combination with cold atmospheric temperatures is a prerequisite for polar low pressures to occur. Polar lows may represent an additional aspect of increased icing on vessels by heavy snow in addition to extensive sea spray ice accretion. Over the last decades, different formulas for prediction of sea spray ice accretion rate on ships were developed to form basis for ice accretion warnings. Some of these formulas seem to have certain limitations and appear to be conservative. Important limitations of some formulas are considerations regarding heat flux, relationship between wind and waves, and ice accretion related to Polar lows. This paper will take a closer look at the accuracy and the realism of different ice accretion formulas and, related to this aspect, we will also discuss whether ship officer candidates receive sufficient maritime education and training (MET) related to realistic ice accretion and ship icing aspects.
REFERENCES
Dehghani-Sanij, A, R., Dehghani, S, R., Naterer, G, F., Myzychka, Y, S., 2017, “Sea spray icing phenomena on marine vessels and offshore structures: Review and formulation. - doi:10.1016/j.oceaneng.2017.01.016
Dyrcz, C., 2019, “Phenomenon of icing and a review of ice Accretion nomograms, models and chart in navigation”, Scientific Journal of Polish Naval Academy, Number 4, pp. 22, 2019. - doi:10.2478/sjpna-2019-0022
Ekeberg, O, C., 2010, “State-of-the-art on the marine icing models and observations”. Technical report (confidential) 2010 - 745, DNV – Det Norske Veritas, Høvik, Norway
EMSA, 2016, “Annual Overview of Marine Causalities and Incidents 2016”. http://www.emsa.europa.eu/news-a-press-centre/external-news/item/2903-annual-overview-of-marine-casualties-and-incidents-2016.html
Fikke, S., Ronsten, G., Heimo, A., Kunz, S, Ostrozlik, M., Persson, P.-E., Sabata, J, Wareing, B, Wichure, B, Chum J., Laakso, T., Säntti, K. and Makkonen, M., 2006. “Cost 727: atmospheric icing on structures. Measurements and data collection on icing: state of the art”, Veröffentlichung Meteo Schweiz Nr. 75. https://www.wmo.int/pages/prog/www/IMOP/meetings/Surface/ET-STMT-2/COST-727-report_MCH-V75.pdf
Good, W., Burwell, M., 2018,” Alaska Shipwrecks 1750-2015”. ISBN 978-1-387-98114-4
Guest, P., Luke, R., 2005, “Mariners Weather Log, Vol 49, No.3, Dec. 2005”. https://vos.noaa.gov/MWL/ dec_05/ves.shtml
Hanzu-Pazara, R. Barsan, E. Arsenie, P. Chiotoroiu, L. Raicu, G., 2008., “Reducing of Maritime Accidents Caused by Human Factors using simulators in training process”. Journal of Marine Research, Vol 5 No 1, pp. 3-18, 2008. https://www.jmr.unican.es/index.php/jmr/ article/view/32/3
Henry, N. L., 1995, “Forecasting vessel icing due to freezing spray in Canadian east coast waters”. Part I: Model physics. Technical report, Environment Canada, Newfoundland Weather Centre.
Horjen, I., 1990, “Numerical modelling of time-dependent Marine icing, anti-icing and de-icing”. PhD thesis, NTH - Norges Tekniske Høgskole, Trondheim, Norway.
IMO, 2008. Int. Code of Intact Stability, IMO, London, UK.
IMO STCW, 2011. International Convention on Standards of Training, Certification and Watch keeping for Seafarers, 1978, IMO, London, UK
IMO Polar Code, 2015, IMO, London. UK. http://library.arcticportal.org/1908/1/POLAR%20CODE%20TEXT%20AS%20ADOPTED.pdf
Johansen, K. and Batalden, B., 2018, “Active learning for enhanced understanding of ship damage stability”. https://www.iises.net/ - doi:10.20472/TEC.2018.006.004
Kachurin, L. G., Gashin, L. I., Smirnov, I. A., 1974, “Icing rate of small displacement fishing boats under various hydrometeorological conditions”. Meteorologiya I Gidrologiya 3: 50–60. Moscow.
Kolstad, E. W., Bracegirdle, T.J., 2008, “Marine cold-air outbreaks in the future: an assessmentof IPCC AR4 model results for the Northern Hemisphere”. Clim Dyn 30, 871–885 (2008). - doi:10.1007/s00382-007-0331-0
Kulyakhtin, A., Kulyakhtin, S., Løset, S., 2016, “The role of the ice heat conduction in the ice growth caused by periodic sea spray”. Cold Regions Science and Technology 127, DOI: 10.1016/j.coldregions.2016.04.001 - doi:10.1016/j.coldregions.2016.04.001
Lozowski, E. P., Szilder, K., Makkonen, L., 2000, “Computer simulation of marine ice accretion”. Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 358(1776): 2811–2845, doi:10.1098/rsta.2000.0687. - doi:10.1098/rsta.2000.0687
Makkonen, L., 1987, “Salinity and growth rate of ice formed by sea spray”. Cold Regions Science and Technology 14(2): 163–171, doi: 10.1016/0165-232X (87) 90032-2, http://www.sciencedirect.com/science/article/pii/0165232X - doi:10.1016/0165-232X(87)90032-2
Mintu, S., Molyneux, D., Oldford, D., 2016, “State-of-the-Art Review of Research on ice Accretion Measurements and Modelling”. Offshore Technology Conference, OTC-27422-MS. - doi:10.4043/27422-MS
Nordeng, T. E. and Rasmussen, E. A. “A most beautiful polar low, 1992, A case study of a polar low development in the, Bear Island region”. Tellus A, 44(2):81–99, 1992 - doi:10.1034/j.1600-0870.1992.00001.x
Norwegian Maritime Authority, 2014, “Ulykkesdatabase (Database of ship incidents)”. https://www.sdir.no/sjofart/ulykker-og-sikkerhet/
Overland, J. E., Pease, C. H., Preisendorfer, R. W. and Comisky, A.L., 1986, ”Prediction of vessel icing”. Journal of Climate and Applied Meteorology, Vol. 25, No. 12, pp. 1793-1806 - doi:10.1175/1520-0450(1986)025<1793:POVI>2.0.CO;2
Overland, J. E., 1990, “Prediction of Vessel Icing for Near- Freezing Sea Temperatures”, Weather and Forecasting, March, pp. 62-77. - doi:10.1175/1520-0434(1990)005<0062:POVIFN>2.0.CO;2
PWOM, 2019, “Guidelines for development of a Polar Water Operational Manual” Issued by the International Chamber of Shipping. https://www.ics-shipping.org/docs/default-source/resources/guidelines-for-the-development-of-a-polar-water-operational-manual.pdf?sfvrsn=4
Rashid, T., Khawaja, H., Edvartsen, K., 2018, “Measuring Thickness of Marine Ice Using IR Thermography”. Cold Regions Science and Technology 2018. ISSN 0165-232X.s doi: 10.1016/j.coldregions.2018.08.025. - doi:10.1016/j.coldregions.2018.08.025
Ryerson, C., 2011, “Ice protection of offshore platforms” - doi:10.1016/j.coldregions.2010.02.006
Samuelsen, E. M., Løset, S., Edvartsen, K., 2015, “Marine icing observed on KV Nordkapp during a cold air outbreak with a developing polar low in the Barents Sea”, Proc. of the 23rd Int. Conf. on Port and Ocean Engineering under Arctic Conditions, Trondheim, Norway, 2015. https://munin.uit.no/bitstream/handle/ 10037/8583/article.pdf;sequence=1
Samuelsen, E.M., 2017, “Prediction of ship icing in Arctic waters, Observations and modelling for application in operational weather forecasting”. PhD thesis, University of Tromsø, Norway https://hdl.handle.net/10037/11801
Samuelsen, E.M., 2018, “Ship-icing prediction methods applied in operational weather forecasting”. Q. J. R. Meteorol. Soc. 144: 13–33, January 2018 - doi:10.1002/qj.3174
Samuelsen, E. M. and Naseri, M., 2018, “Anti-icing expected heat loss as a risk indicator for Arctic offshore operations”, Safety and Reliability – Safe Societies in a Changing World, Proceedings of ESREL 2018, June 17-21, 2018, Trondheim, Norway, pp. 1403-1409. - doi:10.1201/9781351174664-177
Sbib.dk.,1979, http://www.sbib.dk/files/bibliotek/statistik/1979.pdf https://library.wmo.int/doc_num.php?explnum_id=8211
Shellard, H. C., 1974, “The meteorological aspects of ice accretion on ships”. Technical Report 10, World Meteorological Organization, 1974. Marine Science Affairs Report.
Stallabrass, J. R., 1980, “Trawler icing” - A compilation of work done at N.R.C. Mechanical Engineering Report MD-56, National Research Council Canada.
Standards Norway, 2017, “Norsok standard N003, N-003-2017. Actions and action effects”. Standards Norway, Lysaker, Norway.
The Seattle Times., 2017, “Memorial fund for crew lost in Bering Sea gets help from ’Deadliest Catch’ captain”. Electronic. Journalist Hal Bernton. Accessed 02 June 2017. http://bit.ly/2nNa9Vp.
United States Coast Guard., 2008, “Report of investigation into the sinking and loss of four crewmembers aboard the commercial fishing vessel Lady of Grace”. Technical report, United States Coast Guard, Washington D.C. 29 August 2016. http://www.uscg.mil/hq/cg5/cg545/docs/ documents/
Citation note:
Johansen K., Sollid M.P., Gudmestad O.T.: Stability of Vessels in an Ice-free Arctic. TransNav, the International Journal on Marine Navigation and Safety of Sea Transportation, Vol. 14, No. 3, doi:10.12716/1001.14.03.19, pp. 663-671, 2020
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