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The influence of a quay crane sea transportation on its further exploitation

Abstract

For the last decades, fully erected container cranes have been delivered to a customer site by ships. On one hand, using this method of transportation is very attractive due to its cost and time savings. However, on the other hand, being exposed to cycling loads from the ship motions during the sea voyage, the crane structure accumulates fatigue damage. Using the accumulated fatigue damage parameter, the crane transportation could be associated with the amount of the working cycles the crane could have worked out during its normal operating at the customer site. In the presenting paper the research for the real case of a new crane voyage from China to Ukraine has been done.


First published online 12 April 2017

Keyword : crane sea transportation, fatigue damage accumulation, ship motion accelerations, finite element analysis, container crane, ship-to-shore (STS) crane

How to Cite
Starykov, M., & Van Hoorn, F. (2018). The influence of a quay crane sea transportation on its further exploitation. Transport, 33(2), 536–542. https://doi.org/10.3846/16484142.2017.1297328
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Jan 26, 2018
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This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Arslan, M. A. 2015. Hands on Applied Finite Element Analysis Application with ANSYS. Self Publishing. 553 p.

Blackham, A. 1989. Use of Meteorological Information for Warranty Surveying Purposes. The Nautical Institute, London.

BMT Ltd. 1986. Global Wave Statistics. British Maritime Technology Ltd., London.

BS EN 13001-2:2014. Crane Safety. General Design. Load Actions.

Chaminda, B. 2015. Fatigue Damage Assessment of Steel Structures and Components. Lambert Academic Publishing. 200 p.

Draper, J. 2008. Modern Metal Fatigue Analysis. EMAS Publications. 291 p.

FEM European Materials Handling Federation. 1998. FEM 1.001: Rules for the Design of Hoisting Appliances. 3rd edition. 305 p.

Hobbacher, A. 1996. Fatigue Design of Welded Joints and Components XIII-1539-96/XV-845-96. Abington Publishing. 127 p.

Lee, Y.-L.; Pan, J.; Hathaway, R. B.; Barkey, M. E. 2005. Fatigue Testing and Analysis: Theory and Practice. Elsevier. 402 p.

Lemaitre, J.; Desmorat, R. 2005. Engineering Damage Mechanics: Ductile, Creep, Fatigue and Brittle Failures. Springer. 380 p. https://doi.org/10.1007/b138882

Madenci, E.; Guven, I. 2015. The Finite Element Method and Applications in Engineering Using ANSYS®. Springer. 656 p. https://doi.org/10.1007/978-1-4899-7550-8

Murakami, S. 2012. Continuum Damage Mechanics: a Continuum Mechanics Approach to the Analysis of Damage and Fracture. Springer. 402 p. https://doi.org/10.1007/978-94-007-2666-6

Pilsch, M. C. 2004. West coast container gantry cranes: the paths of Paceco and ZPMC, Pacific Maritime Magazine 7. Available from Internet: http://www.pacmar.com

Strain, J.; Miller, E. 2013. Introduction to the ANSYS Parametric Design Language (APDL): a Guide to the ANSYS Parametric Design Language. CreateSpace Independent Publishing Platform. 210 p.

Stolarski, T.; Nakasone, Y.; Yoshimoto, S. 2006. Engineering Analysis with ANSYS software. Elsevier. 456 p.

Stroustrup, B. 2014. Programming: Principles and Practice Using C++. 2nd edition. Addison-Wesley Professional. 1312 p.

Van Hoorn, F. 2008. Heavy-lift transport ships: overview of existing fleet and future developments, in Marine Operations Specialty Symposium (MOSS 2008), 5–7 March 2008, Singapore, 1–9.

Van Hoorn, F. 2005. Container crane transport options: selfpropelled ship versus towed barge, in Marine Heavy Transport & Lift 2005, 20–21 September 2005, London, UK, 1–10.

Van Hoorn, F. 1991. Design criteria for self-propelled heavylift transports and how theory correlates with reality, in 2nd Offshore Symposium ‘Design Criteria and Codes’, 4–5 April 1991, Huston, TX, US, XV 1 – XV 13.

Van Hoorn, F.; Devoy, S. D. 1990. The dry transport of the green canyon tension leg wellhead platform by a semisubmersible heavy-lift ship, in Offshore Technology Conference, 7–10 May 1990, Houston, Texas, US, 1–18. https://doi.org/10.4043/6471-MS

Verschoof, J. 2002. Cranes: Design, Practice, and Maintenance. Wiley. 328 p.