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Development and validation of an operational fast time ship manoeuvring solver to increase navigation efficiency in horizontally restricted waterways

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EN
Abstrakty
EN
Growth of demand for containerized cargo shipping has put more ports into pressure to accommodate larger vessels. Considering the limitations on dimensions of navigation channels, this is not feasible unless aiming for significant capital dredging or alternatively creating high precision predictions of vessel motions subjected to environmental forcing and interaction with shallow and restricted waterway. NCOS ONLINE (Nonlinear Channel Optimisation Simulator) is a state of the art navigation support tool which combines DHI’s high level forecast of environmental conditions with mathematical model of ship motions to add an extra level of accuracy in predicting the under-keel clearance and vessel swept path to boost the efficiency of navigation and pilotage within restricted channels. NCOS Manoeuvring Module utilizes an autopilot scheme based on PID (Proportional / Integral / Derivative) controller and Line of Sight Algorithm to FORCE Technology’s SimFlex4 manoeuvring solver for prediction of manoeuvring ship swept path and response, which will effectively bring the accuracy of real time full bridge simulator to fast time operation support tool. In this paper, the result of mathematical model is validated against fullscale measurements of containership transits through Port of Auckland Navigation channel by comparing pilot commands, leeway drift and swept path through output of portable pilotage unit. According to the results the model is found promising to predict the behaviour of human pilots with precision required in operational use. Finally, the swept path and manoeuvring performance of a sample transit is assessed on different environmental conditions and tide stages to evaluate the safe transit windows in operation.
Twórcy
  • DHI Water & Environment, Brisbane, Australia
autor
  • DHI Water & Environment, Gold Coast, Australia
autor
  • DHI Water & Environment, Gold Coast, Australia
autor
  • DHI Water & Environment, Gold Coast, Australia
autor
  • FORCE Technology, Kgs. Lyngby, Denmark
Bibliografia
  • [1] Yoshimura T., Sakurai H., Mathematical model for the manoeuvring ship motion in shallow water (3rd Report), Journal of KSNAJ, Vol. 211, pp 115-126, 1988.
  • [2] Du P., Cheng L., Tang Z., Ouhsine A., Hu H., Ship manoeuvering prediction based on virtual captive model test and system dynamic approach, Journal of Hydrodynamics, Vol. 34, pp 259-276, 2022.
  • [3] Jin Y., Chai S., Duffy J., Chin C., Scale effects on hydrodynamic manoeuvring force prediction, 25th International Ocean and Polar Engineering Conference, 2015, Hawaii, USA.
  • [4] Im N., Sea J., Ship manoeuvring performance experiments using a free running model ship, International Journal on Marine Navigation and Safety of Sea Transportation, Vol.4, No.1, 2010.
  • [5] Eloot K., Delefortrie G., Vantorre M., Quadvlieg F., Validation of ship manoeuvring in shallow water through free-running tests, OMAE 2015, Newfoundland, Canada.
  • [6] American Bureau of Shipping (ABS), Guide for vessel manoeuverability, March 2006.
  • [7] Gug S.G., Harshpriya H., Jeong H., Yun J., Kim D., Kim Y., Analysis of manoeuvring through sea trials and simulations, IOP conference Series, 2020.
  • [8] Mortensen S., Kazerooni M., Harkin A., Womersley T., Jensen B., Dynamic assessment of safety in manoeuvring through constricted navigational channels using online operational system. Australasian Coasts & Ports 2021 Conference, Christchurch, New Zealand, 2021.
  • [9] Kazerooni M., Womersley T., Harkin A., Jensen B., Turning induced heel of large containerships in shallow water through a fully coupled 6DOF manoeuvering solver, 6th MASHCON Proceedings, May 2022, Glasgow UK.
  • [10] Chislett M., A generalized mathematical model for manoeuvring, marine simulation and manoeuvrability, Proceedings of International Conference MARSIM, May 1995, Denmark.
  • [11] ISO 13643-1 Ships and Marine Technology, Manoeuvring of Ships, 2017, pp 2.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5b93fac5-056f-4b3a-87fa-e92d30e87ae4
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