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Abstrakty
Corrected VI Annex to MARPOL Convention requires from January 1st 2015 the use of low sulphur fuels on seagoing ships. The target of requirement is reduction of environment harmful substances in exhaust gases coming from marine fuels combustion. Areas of sea trade are divided into two zones: special Sulphur Oxide Emission Control Areas (SECA) for example Baltic Sea and areas outside SECA. On SECA sea areas the contents of sulphur in marine fuel should not excess 0.1% and on outside SECA the same is 3.5%. In the future i.e. from January 1st 2020, the maximum contents of sulphur in marine fuels on outside SECA areas should be 0.5%. These requirements create serious problems for ship owners operating worldwide. The first problem is considerable higher price of low sulphur fuels, which affects operational costs of fleet. The second problem is adaptation of ship engines to be fuelled with low sulphur fuels. At present, the heavy fuel oils being in common use on ships does not fulfil environ protection requirements. As a result, the use of new grades of marine fuels becomes necessity to fulfil environment protection requirements as well as price requirements to keep merchant fleet operation profitable. The wide use of “ecological fuel” i.e. natural gas as marine fuel is expected. The type of ship propulsion plant, which can be used in the future, will effect on the course of marine energetic plants development. The development of hybrid propulsion, electric propulsion, diesel engines fuelled with natural gas and turbine propulsion driven by natural gas. The paper includes proposal of combined turbine propulsion plant fuelled with natural gas, which according to authors can be leading type of marine propulsion plants in the future.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
61--68
Opis fizyczny
Bibliogr. 10 poz., rys.
Twórcy
autor
- Marine Power Plants Department Gdynia Maritime University Morska Street 83, 81-225 Gdynia, Poland
autor
- Marine Power Plants Department Gdynia Maritime University Morska Street 83, 81-225 Gdynia, Poland
Bibliografia
- [1] Black, S. H., Davis, L. B., Dry Low NOx Combietion Systems for GE Heavy-Duty Gas Turbines, GE Power Systems Schenectady, NY, GE Power Systems, GER-356HG, (10/00).
- [2] Cwilewicz, R., Górski, Z., Turbine propulsion of seagoing vessels as the alternative for diesel engines. Akademia Morska Gdynia, Hochschule Bremerhaven, Joint Proceedings, No. 20, 2007.
- [3] Cwilewicz, R., Górski, Z., Proposal of ecological propulsion plant for LNG carries supplying liquefied natural gas to Świnoujście terminal. Journal of Polish CI MAC, Energetic aspects, Vol. 6,No.1,Gdańsk 2011.
- [4] Cwilewicz, R., Górski, Z., Ecological propulsion of seagoing ships. Międzynarodowa Konferencja Energetyka i Ochrona Środowiska, Akademia Górniczo-Hutnicza w Krakowie Wydział Inżynierii Mechanicznej i Robotyki, Problemy Inżynierii Mechanicznej i Robotyki, Nr 61, Kraków 2013.
- [5] General Electric, GE Outlines Advantages of LM Aeroderivative-Based COGES System for Cruise Ships at Seatrade Cruise Shipping Convention. Seatrade Cruise Shipping Conference. MIAMI, Florida, March 13, 1997.
- [6] Kawasaki UA Turbine. Kawasaki Heavy Industries, Ltd.
- [7] King, J., Ritchey, I., Marine propulsion: The transport technology of the 21 st century? Rolls- Royce PLC Article - Issue 12, May 2002.
- [8J Kochler, Horst, W., Diesel Engines and Gas Turbines in Cruise Yessel Propulsion, Presentation at The Institution of Diesel and Gas Turbine Engineers, London, on 17 February 2000.
- [9] MacArthur, R., Gas-fitelled mechanical solutions offer major emissions reductions. Wartsila Stakeholder Magazine, Twenty-four 7, 2011.
- [10] Vaccaro, D., (Millennium coges propulsion system), Gas-turbine propulsion system Cruise Ship Project, Web site designed and maintained by D. Vaccaro.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-07433a9e-387f-4e9e-b100-ceeba01193f0