Practice Study on Operation Evaluation and Limitation for Merchant Ships in Polar Water

Authors

  • Shifeng Ding School of Naval Architecture and Ocean Engineering, Jiangsu University of Science and Technology, Zhenjiang, 212003, China
  • Li Zhou School of Naval Architecture and Ocean Engineering, Jiangsu University of Science and Technology, Zhenjiang, 212003, China
  • Chenkang Zhong Shanghai Rules and Research Institute, China Classification Society, Shanghai, 200135, China
  • Zhengrong Wang Shanghai Rules and Research Institute, China Classification Society, Shanghai, 200135, China

DOI:

https://doi.org/10.30564/hsme.v1i1.1082

Abstract

All environmental hazards impact safety for polar ships, especially polar merchant ship with light ice-class. In order to provide a systematic guidance to deal with any situation during polar operation, International Maritime Organization (IMO) raised mandatory requirements of “Polar Water Operation Manual”(PWOM) in Polar Code. This paper focuses on how to determinate operational evaluation and limitation for the PWOM, which is an important measure to avoid polar ships exceeding operational capability. Features of polar navigation are summarized based on the former polar navigation experience, and typical risk model is set up to describe the process of operation evaluation. The operational limitation is analyzed to indicate the actual capability and limitation as the ship encounters unexpected incident in polar waters. In conclusion, the operation procedure is studied to give a detailed technical proposals for the whole polar operation, which is the main component of PWOM. The outcome may provide helpful to arctic shipping of merchant ships.

Keywords:

Polar Ship, Operational Risk Assessment, Ice Operation Limitation, Risk Analysis

References

[1] Mulherin D N. The Northern Sea Route - its development and evolving state of operations in the 1990s[J].philadelphia:the American society forting and meterials, 1996: 1-2.

[2] L Eder, P Andrewsspeed, A Korzhubaev. Russia’s evolving energy policy for its eastern regions, and implications for oil and gas cooperation between Russia and China[J]. Journal of World Energy Law & Business, 2009, 2(3): 219-242.

[3] Committee I M O M S. International code for ships operating in polar waters (Polar codes): resolution MSC.386(94) [M]. International Maritime Organization, 2016.

[4] Shen Quan. Seeing the risk of polar navigation and the development trend of icebreaker from the perspective of “Xue Long” rescuing Russian ships. [J]. Navigation, 2014 (2): 14-18.

[5] Fu Shanshan, Zhang Di, Sang Lingzhi, etc.. Application of flexible engineering theory in risk prevention and control of polar ships navigation [J]. Polar Research, 2016, 28 (2): 250-256.

[6] Wang Luo, Zhao Yue, Liu Jianming, etc.. The Northeast navigation channel of Chinese ship’s first voyage and its prospect [J]. Polar Research, 2014 (2): 276-284.

[7] CCS. Guidelines for polar ship[S]. 2015.

[8] CCS. Guidelines for polar water operational manual[S]. 2016.

[9] Ying Junjun, Feng Zhengping, Liu Lele, etc.. The analysis of the polar sea ice environment [J]. Ship, 2017, 28 (2): 10-18.

[10] Shifeng Ding, Li Zhou, Chenkang Zhong, etc.. A Structural Analysis Procedure Combining Linear and Nonlinear FE Methods for Polar Ship[C]. Proceedings of the Twenty-ninth (2019) International Ocean and Polar Engineering Conference Honolulu, Hawaii, USA, June 16-21, 2019.

[11] E M Gramuzov, N A Kuzmin, M Y Sandakov, etc.. The influence of ice conditions when creating the hull for ice navigation[J]. 2019, 1177(1): 1-7.

[12] R.W. Liu, Y.Z. Xue, X.K. Lu, etc.. Simulation of ship navigation in ice rubble based on peridynamics[J]. Ocean Engineering, 2018, 14(8): 286-298.

[13] Jian Hu, Li Zhou. Experimental and numerical study on ice resistance for icebreaking vessels[J]. International Journal of Naval Architecture and Ocean Engineering, 2015, 7: 626-639.

[14] Jian Hu, Li Zhou. Further study on level ice resistance and channel resistance for an icebreaking vessel[J]. International Journal of Naval Architecture and Ocean Engineering, 2016, 8: 169-176.

[15] Li Zhou, Zhenju Chuang, Chunyan Ji. Ice forces acting on towed ship in level ice with straight drift. Part I:Analysis of model test data[J]. International Journal of Naval Architecture and Ocean Engineering, 2018, 10: 60-68.

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Vol. 1 , Iss. 1 (April 2019)

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