Identyfikatory
DOI
Warianty tytułu
Języki publikacji
Abstrakty
The paper characterizes an engine room as a place of a fire’s origin and its spread. It presents potential sources of fire and fire protection onboard. Examples of international rules and regulations are described as well. It also gives the statistics and some scenarios for fires and some recommendations for machine spaces. It presents problems of engine room fire safety, understood as a result of the analysis of different criteria. The engine room was chosen for analysis because many factors whose presence result in a fire could be found there in the way of combustible materials: fuel oil, lubrication oil, hydraulic oil and thermal oil consumed by the main engine, generator engine, boiler, thermal oil heater and hydraulic oil equipment, paints, solvents etc. Sources of potential fires are mainly the hot surfaces of exhaust gas pipes, turbochargers, boilers and waste oil incinerators, ignitions, sparks, static electricity etc. In addition, many engine room fires have an electrical source, such as electrical short-circuits and thermal overheating in the switchboards. Approximately 70% of fires in the engine room have typical scenarios: the outflow of combustible liquid and contact with a hot surface and can reach temperatures between 700–1000°C. They spread rapidly, their power and dynamism depending on the intensity of the outflow of the combustible liquid and its properties, but also the local conditions and the geometry of engine room as well. Fire safety in engine rooms is determined both by good design and the company’s and crew’s focus on fire prevention. Some of the recommendations are high standards of cleanliness in the engine room, regular checks of materials used for insulating high temperature surfaces, attention to fire risks when repairs and maintenance works are carried out and many other factors.
Rocznik
Tom
Strony
29--35
Opis fizyczny
Bibliogr. 18 poz., rys.
Twórcy
- West Pomeranian University of Technology, Faculty of Maritime Technology and Transport Department of Safety and Engineering 41 Piastów Ave., 71-065 Szczecin, Poland
Bibliografia
- 1. Charchalis, A. & Czyż, S. (2011) Analysis of fire hazard and safety requirements of a sea vessel engine room. Journal of Kones 18, 2. pp. 49–56.
- 2. DASPOS (2016) [Online] Available from: http://daspos. com [Accessed: April 11, 2016]
- 3. DNV (2000) [Online] Available from: http://www.dnv.pl/ Binaries/Engine%20Rooms%20Fires_tcm144-9834.pdf [Accessed: April 6, 2016]
- 4. DNV (2016a) [Online] Available from: http://www.dnv. pl/Binaries/Hot%20Surfaces%20Paper_tcm144-9837.pdf [Accessed: April 6, 2016]
- 5. DNV (2016b) [Online] Available from : http://www.dnv.pl/ industry/maritime/servicessolutions/cmc/marine_systems/ firesafety/engine_room_fire/ [Accessed: April 6, 2016]
- 6. EMSA (2014) Annual overview of marine casualties and incidents 2014. European Maritime Safety Agency.
- 7. Gard (2016) [Online] Available from: www.gard.no [Accessed: April 6, 2016]
- 8. Getka, R. (2011) Drogi ewakuacji z pomieszczeń maszynowych – liczba wyjść, konstrukcja i rozmieszczenie. Scientific Journals Maritime University of Szczecin 28 (100) z. 1. pp. 19–26.
- 9. Hope, R. (2016) Training Pakage TDM01. [Online] Available from: http://www.splashmaritime.com.au/Marops/data/ rescue/Rescexer/Workshop/Ccex/Fireaboard7.pdf [Accessed: April 18, 2016]
- 10. IMO (2015) Międzynarodowa Organizacja Morska. Mię- dzynarodowa konwencja o bezpieczeństwie życia na morzu. Tekst jednolity polski.
- 11. IMO (2016) [Online] Available from: http://www.imo.org/ en/OurWork/MSAS/Casualties/Documents/Consolidated%20version%20of%20Lessons%20Learned/Consolidated%20version%20Fire%20explosion.pdf [Accessed: April 7, 2016]
- 12. IMO (2016) Comprehensive review to SOLAS chapter II-2, Result of the research on applicability of Formal Safety Assessment to comprehensive review to SOLAS chapter II-2.
- 13. Krystosik, A. (2010) Dislocation of objects on a aship as a method of fire protection. Archivum Combustionis 30, 4. pp. 427–434.
- 14. NKK (1994) Nippon Kaiji Kokai. Engine room fire. Guidance to fire prevention, Japan.
- 15. Port State Control (2014) Adjusting Course, The Paris Memorandum id Understanding on Port State Control. Annual Report.
- 16. Transportation Safety Board of Canada (2014) Statistical Summar-Marine Occurences 2014. [Online] Available from: http://www.tsb.gc.ca/eng/stats/marine/2014/ssem-ssmo- 2014.asp [Accessed: March 30, 2016]
- 17. U.S. Coast Guard and Canadian Transportation Safety Board (2011) Fatality rates based on census data published by the U.S. Department of Labor, Bureau of Labor Statistics, Census of Fatal Occupational Injuries (2002–2011) Marine casualties based on U.S. Coast Guard and Canadian Transportation Safety Board data.
- 18. Wärtsilä 2016 [Online] Available from: http://www.wartsila.com/docs/default-source/Service-catalogue-files/EngineServices---4-stroke/wartsila-solas-solutions.pdf?sfvrsn=0 [Accessed: April 7, 2016]
Uwagi
EN
Marine Technology and Innovation
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-61e1b655-08fa-4886-8696-874979a269b3