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The Energy Efficiency Design Index (EEDI) became mandatory for new ships as well as the Ship Energy Efficiency Management Plan (SEEMP) for all ships due to the MEPC 62 (July 2011) along with the adoption of amendments to MARPOL Annex VI by the Parties to the MARPOL Annex VI. This was the first legally binding climate change treaty to be adopted since the Kyoto Protocol. The Ship Energy Efficiency Management Plan (SEEMP), which has been obligatory since 2013, did not to cover fishing cutters but triggered the implementation of energy efficiency audits due to fishing limits, high fuel prices, and free freight market. All the above caused that ship-owners started seeking ways for saving money and keep their business profitable. Apart from energy recovery installations, fishing vessels have been furnished with the latest technologies aimed at the reduction of energy consumption and at making ships greener. A research team of the Maritime University of Szczecin conducted energy efficiency audits on several fishing vessels operated on the Baltic Sea and stated that up to 40% of the energy is used during fishing operations by hydraulic devices installed at the fishing vessels. The paper presents the measurement results of energy consumption in typical operational states based on a selected fishing cutter operating at the Baltic Sea. The paper includes also the recommendations in terms modernization of hydraulic installations and the changes of control methods for devices with hydraulic drive. The calculations are also presented herein and they prove that it is possible to reduce energy consumption by a fishing cutter even by 20% while maintaining the unchanged operating parameters of the hydraulic devices.
Słowa kluczowe
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Czasopismo
Rocznik
Tom
Strony
561--566
Opis fizyczny
Bibliogr. 10 poz., rys.
Twórcy
autor
- Maritime University of Szczecin, Poland
autor
- Maritime University of Szczecin, Poland
autor
- University of Žilina, Slovak Republic
autor
- Technical University of Koszalin, Poland
Bibliografia
- 1. Basurko, OC. Gabina, G. Uriondo, Z. (2013). Energy performance of fishing vessels and potential savings, Journal of Cleaner Production, Vol: 54, pp. 30-4010.1016/j.jclepro.2013.05.024
- 2. Behrendt C. (2014). Energy saving technologies for fishing vessels, Scientific Journals of the Maritime University of Szczecin, Vol. 39,Issue: 111, pp 11-15
- 3. Gaffney M.(2016). Green boats and ports for blue waters. University of Rhode Island, April 5, 2016
- 4. IMO (2009). Guidance for the development of a Ship Efficiency Management Plan. MEPC.1/Circ. 683, London.
- 5. Matuszak Z., Nicewicz G., Szczepanek M.(2014). Podstawy audytu energetycznego statku rybackiego. Materiały konferencji DIAGO Ostrawa, pp.162-167.
- 6. Notti E., Buglioni G., Sala A. (2012). An energy audit tool for increasing fishing efficiency, International Symposium on Fishing Vessel Energy Efficiency, E-Fishing, Vigo, Spain,10.1201/b11810-154
- 7. Parente J., Fonseca P., Henriques V., Campos A. (2008). Strategies for improving fuel efficiency in the Portuguese trawl fishery. Fisheries Research 93, pp.117-12410.1016/j.fishres.2008.03.001
- 8. Schau E. M., Ellingsen H., Endal A, Aanondsen S. A (2009). Energy consumption in the Norwegian fisheries. Journal of Cleaner Production 17, pp.325-33410.1016/j.jclepro.2008.08.015
- 9. Szczepanek M.(2015). Factors affecting the energy efficiency of fishing vessels, Scientific Journals of the Maritime University of Szczecin, Vol. 42 Issue: 114, pp 38-42
- 10. Thanasansakorn S., Manomayidthikarn K (2015). Hauling device and hydraulic engineering for fishing boats. Available at http://map.seafdec.org/downloads/pdf/Fishery20Equipment20and20hydraulic20engineer.pdf [Accessed 16 May. 2018].
Typ dokumentu
Bibliografia
Identyfikator YADDA
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