Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
One of most important issues concerning technical objects is the increase of their operating performance. For a ship this performance mainly depends on the efficiency of its main propulsion system and the resistance generated during its motion on water. The overall ship resistance, in turn, mainly depends on the hull friction resistance, closely related with the presence of different types of roughness on the hull surface, including underwater part biofouling. The article analyses the effect of hull biofouling on selected parameters characterising the efficiency of the ship propulsion system with adjustable propeller. For this purpose a two-year research experiment was performed on a sailing vessel during its motor navigation phases. Based on the obtained results, three groups of characteristics were worked out for different combinations of engine rotational speed and adjustable propeller pitch settings. The obtained results have revealed that the phenomenon of underwater hull biofouling affects remarkably the parameters characterizing propulsion system efficiency. In particular, the development of the biofouling layer leads to significant reduction of the speed of navigation.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
27--34
Opis fizyczny
Bibliogr. 14 poz., rys.
Twórcy
autor
- Gdynia Maritime University, 81-87 Morska St., 81-225 Gdynia, Poland
Bibliografia
- 1. Callow M.E., Callow J. A. Marine biofouling: a sticky problem. Biologist. No. 49 (1). 2002
- 2. Chambers L.D., Walsh F.C., Wood R.J.K., Stokes K.R., Modern approaches to marine antibiofouling coatings. World Maritime Technology Conference. ICMES Proceedings. The Institute of Marine Engineering, Science and Technology, March 2006
- 3. Dudziak J., Theoretical naval architecture (in Polish). Biblioteka Okrętownictwa. Wydawnictwo Morskie Gdańsk 1988. 619 pages
- 4. Froude W. Experiments on Surface-friction experienced by a Plane moving through water. 42nd Report by the British Association for the Advancement of Science. Vol. 42. 1872. pp. 118-125
- 5. Information on stability (without sails) of STS Pogoria B79-DZ (in Polish). Biuro projek-towo-konstrukcyjne. Gdansk Stocznia Gdańska. Gdańsk. 1980
- 6. Lehaitre M., Compere C. Biobiofouling and underwater measurements. ftp://oceane.obs-vlfr.fr/pub/marcel/Book%20Chapters/Leha%EEtre/First%20draft/Texte_HABmlhcc.pdf
- 7. Marine Biofouling and Its Prevention. United States Naval Institute. Annapolis, Maryland. 1952. www.vliz.be/imisdocs/publications/224762.pdf
- 8. Martensen N.B. Ship fuel efficiency in a historical perspective. Bulletin vol. 104. 2009. pp. 48-36. https://www.bimco.org/en/News/2009/12/~/media/News/2009/General/Ship_Fuel_efficiency_in_a_historical_perspective_BB1_2009.ashx
- 9. Munk T. Fuel Conservation through Managing Hull Resistance. Motorship Propulsion Conference. Copenhagen. 2006
- 10. Narewski M. HISMAR - Underwater Hull Inspection and Cleaning System as a Tool for Ship Propulsion System Performance Increase. Journal of POLISH CIMAC. Vol. 4 No 2. 2009
- 11. Szugaj M. The effect of hull biofouling of a sailing ship on its propulsion characteristics (in Polish). The engineering diploma thesis. Faculty of mechanical engineering. Gdynia Maritime University. 2013.
- 12. Taylan M. An Overview: Effect of Roughness and Coatings on Ship Resistance. Interna-tional Conference on Ship Drag Reduction SMOOTH-SHIPS, Istanbul, Turkey. 2010. http://www.smooth-ships.itu.edu.tr/presentations/presentation5.pdf
- 13. Volvo Penta Inboard Diesel TAMD103A http://www. marinepartsexpress.com/prodbull05/tamd103a.pdf
- 14. Williams D. N. Biofouling Control Coatings – An Overview. Marine & Protective Coat-ings. http://www.tees.ac.uk/sections/research/technology_futures/s2b_biofouling_coatings.pdf
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c08c743a-0dc2-4fda-8e76-aac152fbfab1