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Exhaust gas emissions from ships are an aspect of the global maritime industry which has been given great importance in recent years. Increasing the efficiency of maritime transport regarding fuel consumption and exhaust gas emissions is an ongoing effort which requires a detailed analysis of all ship systems that have an effect on the aforementioned issue. One aspect that can be analyzed in this regard are the various machinery faults which influence the ships exploitation efficiency. This paper will focus on the analysis of the two stroke slow speed diesel main engine with early and late fuel injection faults. This analysis is based on a set of data acquired from a simulation model of a LCC tanker vessel including fuel consumption and emission pollutants such as carbon monoxide (CO), sulphur oxides (SOX) and carbon dioxide (CO2) as a greenhouse gas with early and late fuel injection fault introduced to different number of main engine cylinders. This methodology of research has the advantage of analyzing various scenarios which are not as easily reproduced on actual vessels.
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Tom
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177--181
Opis fizyczny
Bibliogr. 10 poz., rys., tab.
Twórcy
autor
- University of Zadar, Zadar, Croatia
autor
- University of Zadar, Zadar, Croatia
autor
- University of Zadar, Zadar, Croatia
autor
- University of Zadar, Zadar, Croatia
Bibliografia
- [1] Imperato, M., Kaario, O., Larmi, M. et al. Emission reduction methods and split fuel injection in a marine four‐stroke engine. J Mar Sci Technol 23, 94–103 (2018). https://doi.org/10.1007/s00773‐017‐0458‐6.
- [2] Stratsianis, V., et al., Effects of Fuel Post‐Injection on the Performance and Pollutant Emissions of a Large Marine Engine, Journal of Energy Engineering 142(2), DOI: 10.1061/(ASCE)EY.1943‐7897.0000337.
- [3] Huaiyu Wang, Huibing Gan, Gerasimos Theotokatos,;Parametric investigation of pre‐injection on the combustion, knocking and emissions behaviour of a large marine four‐stroke dual‐fuel engine, Fuel, Volume 281, 2020,118744, ISSN 0016‐2361, https://doi.org/10.1016/j.fuel.2020.118744.
- [4] Nemati, A., Ong, J. C., Pang, K. M., Mayer, S., & Walther, J. H. (2022). A numerical study of the influence of pilot fuel injection timing on combustion and emission formation under two‐stroke dual‐fuel marine engine‐like conditions. Fuel, 312, https://doi.org/10.1016/j.fuel.2021.122651.
- [5] Lewinska, J. The influence of fuel injection pump malfunctions of a marine 4‐stroke Diesel engine on composition of exhaust gases. Combustion Engines. 2016, 167(4), 53‐57. doi :10.19206/CE‐2016‐405.
- [6] Anantharaman, M.; Khan, F.; Garaniya, V.; Lewarn, B. Reliability Assessment of Main Engine Subsystems Considering Turbocharger Failure as a Case Study, TransNav 2018, 12, 271–276.
- [7] Knežević V, Orović J, Stazić L, Čulin J. Fault Tree Analysis and Failure Diagnosis of Marine Diesel Engine Turbocharger System. Journal of Marine Science and Engineering. 2020; 8(12):1004. https://doi.org/10.3390/jmse8121004.
- [8] ERS 5000 TechSim MAN B&W 6S60MC‐C Diesel Engine– Tanker LCC (Aframax) Trainee Manual, November 2014, Wärtsilä Voyage Limited.
- [9] Vukičević M. et. al., Analysis of the Influence of Preventive Maintenance of Main Engines on Working Parameters and Emissions, Fifth conference ˇMaintetnance 2018”, Zenica, 10. May 2018.
- [10] MAN B&W S60MC‐C8‐TII Project guide ‐ Camshaft Controlled Two‐stroke Engines, 1st Edition, MAN Diesel & Turbo, Augsburg, Germany, 2010.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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