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Polish Maritime Research

Tytuł artykułu

Prediction of power demand for ship motion control system of sea mining ship fitted with tubular winning system

Autorzy Bortnowska, M. 
Treść / Zawartość
Warianty tytułu
Języki publikacji EN
EN One of the crucial systems of sea mining ship for poly-metallic concretions is its motion control system (SMC). Power of such system depends on sea environment characteristics and main dimensions of the ship. It can be expected that it will have important influence on total power of the ship’s power plant and in effect on the mining ship’s dimensions. In this paper is presented one of the possible ways of preliminary estimation of design power of SMC system for sea mining ship. Since details of design solution of such system for the ship in question are unknown (ships of the kind have not been built so far) the presented results should be considered to be the first estimation of the order of the power demand.
Słowa kluczowe
EN sea mining ship   tubular winning system   action of sea environment   thrust of ship propellers   power of ship motion control system  
Wydawca Gdańsk University of Technology, Faculty of Ocean Engineering & Ship Technology
Czasopismo Polish Maritime Research
Rocznik 2007
Tom nr 4
Strony 24--30
Opis fizyczny Bibliogr. 9 poz., rys., tab.
autor Bortnowska, M.
  • Faculty of Marine Technology, Szczecin University of Technology Al. Piastów 41, 71-065 Szczecin, POLAND tel.: (091) 449 47 20,
1. Bortnowska M.: A method of estimation of power demand for motion control system of floating unit during operation of mining Fe-Mn concretions, applicable in preliminary designing (in Polish). Doctor’s thesis, Szczecin University of Technology, 2006
2. Cheng B., Chung J.S.: Application of Thrusts to Elastic Joints on Long Vertical Pipe in 3-D Nonlinear Motions – Part II: Numerical Examples by MSE an FEM Results, International Offshore and Polar Engineering Conference Montreal, Canada, May 24-29, 1998
3. Hogben N., Lumb F. E.: Ocean Wave Statistics, National Physical Laboratory, London 1967
4. Неизвнесимстнов Я. В., Глумов И. Ф.: Инженерная геология рудной провинции Кларион-Клиппертон в тихом океане, Труды, Том 197, Наука, Санкт-Петерcбург, 2004
5. A group of authors, Brix J. Ed.: Manoeuvring Technical Manual. Hamburg, 1993
6. Szelangiewicz T.: Research on dynamic behaviour of a winning facility for mining the concretions from seabed (in Polish). Research report 5T12C 012 25, Faculty of Maritime Technology, Szczecin University of Technology, Szczecin 2006
7. Sobota J.: Estimation of power demand for winning the concretions from seabed (in Polish). Interoceanmetal Common Enterprise, Szczecin 2003
8. Szelangiewicz T.: Research on influence of displacement and main dimensions of a base ship for underwater operations on power of ship’s dynamic positioning system (in Polish), Proceedings of 4th Conference on Design and Construction of Ocean Engineering Objects, Ocean Engineering Committee, Scientific Technical Session, SIMP Shipbuilding Section, Szczecin 1987
9. Szelangiewicz T.: Influence of weather conditions on design criteria for ocean engineering units (in Polish). Proceedings of 8th International Symposium on Ship Hydromechanics, Wrocław 1989.
Kolekcja BazTech
Identyfikator YADDA bwmeta1.element.baztech-article-BWM3-0017-0008