Database of reciprocating internal combustion engines selected manufacturers

• Autorzy: Monieta J. , Sendecki A.

Identyfikatory

DOI

10.5604/12314005.1213576

• Języki publikacji: EN

Abstrakty

EN

During research works concerning piston internal-combustion engines specifications of these objects are often needed. This data is usually dispersed and reaching to some is hampered or impossible. Therefore, an electronic database was drawn up about the most important ship producer’s piston internal-combustion engines for needs of exploitation investigations in the destination of gathering the necessary information. This paper presents a database of global marine diesel engines. For example, engines of the following companies were described: Akasaka Diesel, CAT, Cummins, Fiat, Hyundai, MTU, Niigata Power Systems, Pielstick, Scania, Volvo Penta etc. Information was obtained from various sources, so as websites of producers, advertising catalogues, or books and magazines about subject matter associated with marine diesel engines. This information was collected and written with the help of the program Microsoft Office. Gathered data was divided in engines of the main drive and emergency, containing details about producers, types and parameters of 2-stroke engines and four-stroke. The base enables supplementing and the alteration of entered data. Produced engines are usually operated by several dozen years after producing on swimming objects. Produced internal combustion engines are usually operated by several dozen years after producing on floating objects, and producers are merging or are stopping existing.

Słowa kluczowe

EN

reciprocating marine engines; selected producers; technical parameters; database

• Wydawca: Łukasiewicz Research Network - Institute of Aviation ; European Science Society of Powertrain and Transport KONES Poland ; Wydawnictwo Instytutu Technicznego Wojsk Lotniczych
• Czasopismo: Journal of KONES
• Rocznik: 2016
• Tom: Vol. 23, No. 1
• Strony: 231--238
• Opis fizyczny: Bibliogr. 27 poz., rys.

Twórcy

autor

Monieta J.

• Maritime University Szczecin, Institute of Marine Power Plant Operation Wały Chrobrego Street 1-2, 70-500 Szczecin, Poland tel.: +48 91 48-09-415, 48-09-479, fax: +48 91 480-95-75

autor

Sendecki A.

• MPSV vessel – Bourbon Evolution 804 Chevron in Angola

Bibliografia

• [1] Balcerski, A., Kneba, Z., The database of the actual working conditions of ship engines and the possibility of its use for diagnosis, Congress Technical Diagnostics, pp. 43-46, Gdansk 1996.
• [2] Banachowski, K. Stencel, K., Database Management Systems, Polish-Japanese Edition of Information Technology, Warsaw, 2007.
• [3] Gąsior, K., Monieta, J., Database of ships and marine diesel engines for testing reliability, XXXIV Winter School of Reliability, pp. 103-111, Szczyrk 2006.
• [4] Gryko, K., Rachuba, M., Przewoźny, W., New generation two-stroke engines made by H. Cegielski – Poznan S.A. – A leap into the XXI century, II International Scientifically – Technical Conference, Vol. 1, pp. 103-114, Gdansk – Międzyzdroje – Kopenhaga 2001.
• [5] http://www.akasaka-diesel.jp/en/about-us/history/, accessed 27.10.2015.
• [6] http://www.cat.com/en_US/products/new/by-industry/marine.html, accessed 27.10.2015.
• [7] http://www.cummins.com/, Accessed 20.05.2016.
• [8] https://en.wikipedia.org/wiki/Category:Marine_engine_manufacturers, accessed 20.05.2016.
• [9] http://www.hyundai-engine.com, accessed 20.05.2016.
• [10] http://www.mak–global.com, accessed 28.09.2019.
• [11] http://www.mshs.com/semt-pielstick.htm, accessed 21.01.2016.
• [12] http://www.mtu–online.com, accessed 28.09.2009.
• [13] http://www.niigata-power.com/english/index.html, accessed 27.05.2016.
• [14] http://www.simp.poznan.pl, accessed 28.09.2009.
• [15] http://www.volvopenta.com, accessed 20.05.2016.
• [16] Januszkiewicz B., Wejchan-Kozielewska H.: From the steam engine to the ship's engine, Combustion Engines, No. 116, pp. 1-9, Poznan 1998.
• [17] Jaźwiński, J., Żurek, J., Kaleta, R., The birth and development of the system of collecting and processing information about the damage of aviation, XXXIII Winter School of Reliability, pp. 221-232, Szczyrk 2005.
• [18] Kopyczyński, M., Mańczak, J., Przewoźny, W., Evalution of two-stroke marine diesel engines design in H. Cegielski-Poznan S.A., Combustion Engines, No. 3, pp. 3-37, Poznan 2006.
• [19] Listewnik, J., Marcinkowski, J., The development of low-speed marine constructions combustion engines, Ed. WSM, Szczecin 2000.
• [20] Marine engine index (MEX), Schiff & Hafen, No. 12, pp. 60-74, 2009.
• [21] Moczulski, W., Methodology of acquisition of knowledge concerning diagnostics of machinery and processes, Diagnostics, No. 4(48), pp. 123-127, Olsztyn 2008.
• [22] Monieta, J., A database of selected marine diesel engines for diagnostic needs, Journal of Energy and Power Engineering, Vol. 7, No. 6, pp. 1032-1039, Telstar 2013.
• [23] Monieta, J., Sendecki, A., A database of piston marine diesel engines produced in H. Cegielski Poznan S. A. and ZUT Zgoda, Combustion Engines, No. 3, pp. 108-109, cd. pp. 278-285, Poznan 2015.
• [24] Niewiarowski, K., Reciprocating internal combustion engines, WKiŁ, Vol. 2, Ch. 23.1, Warsaw 1983.
• [25] Niziński, S., Żółtowski, B., Management Information Systems Exploitation of Technical Objects, Ed. University of Warmia and Mazury, Olsztyn – Bydgoszcz 2001.
• [26] Piotrowski, I., Witkowski, K., Marine Diesel Engines, Trademar, Gdynia 2004.
• [27] Valland, H., Impacts of Low Load Operation of Modern Four-Stroke Diesel Engines in Generator Configuration, Norwegian University of Science and Technology, Norwegian University of Science and Technology, Trondheim 2014.

Uwagi

PL

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.