Vibrational aspect in low speed diesel engines high pressure fuel system reliability

• Autorzy: Stetsenko M.
• Języki publikacji: EN

Abstrakty

EN

A novel approach has been proposed in understanding and possible eliminating dangerous bending vibrations of high pressure fuel lines of low speed marine diesel engines. Although the theory of vibration of piping systems is rather developed today, the reasons for significant vibrations occurring in high pressure fuel pipes are not completely understood, and require thorough investigation and study. Both analytical and experimental studies performed in order to analyze dependence of diesel engines operational modes on the level of vibration and its properties. Results of numerical studies of the equation of motion of high pressure fuel pipes were obtained using Mathieu-Hill method. Those results were supplemented with data from full-scaled experiments performed on Sulzer 14RT-flex96C low speed main engine onboard of 15550 TEU container vessel Ebba Maersk. It has been proven that oscillations of the fuel in high pressure line, which take place in-between injections at the partial engine load, cause parametric bending vibration, and in some cases parametric resonance. Author has proposed a few methods in order to avoid that.

Słowa kluczowe

EN

high-pressure fuel pipe; bending vibrations; parametric resonance; reliability

PL

przewód paliwowy wysokiego ciśnienia; wibracje; rezonans parametryczny; niezawodność

• Wydawca: Faculty of Ocean Engineering and Ship Technology, Gdańsk University of Technology
• Czasopismo: Journal of Polish CIMAC
• Rocznik: 2014
• Tom: Vol. 9, no 2
• Strony: 185--195
• Opis fizyczny: Bibliogr. 11 poz., rys., fot., tab.

Twórcy

autor

Stetsenko M.

• Odessa National Maritime Academy Faculty of Marine Engineering Department of Fleet Technical Operation tel. (+380 63) 771-48-48

Bibliografia

• [1] De Silva, C. W., Vibration: Fundamentals and Practice, Boca Raton: CRC Press LLC, 2000, 957 p.
• [2] Different shades of gray, Marine Engineers Review, London: The IMarEST, 2005, pp. 38, 39.
• [3] Electronic instruction manual for HSD-Sulzer 14RT-flex96C diesel engine, Changwon-City, Doosan Engine Co., Ltd., 2006.
• [4] Flow-induced vibrations classifications and lessons from practical experiences, 2nd ed. Edited by Shigehiko Kaneko at al., Elsevier, 2014, 410 p.
• [5] Han, S. M., Benaroya, H. and Wei, T., Dynamics of transversely vibrating beams using four engineering theories, Journal of Sound and vibration, 225(5), 1999, pp. 935-988
• [6] ICU - Size III Acceptance Test Record for RT-flex82C, Wärtsilä, 2009, 3 p.
• [7] Magnus, W. and Winkler, S. Hill's Equation, New York: Dover, 1979, 172 p.
• [8] Nayfeh, A. H., Introduction to Perturbation Techniques, New York, Chichester, Brisbane, Toronto, Singapore: John Wiley & Sons, inc., 1993, 519 p.
• [9] Pounder’s Marine Diesel Engines and Gas Turbines, Ninth edition, Edited by Doug Woodyard, Elsevier, Oxford, 2009, 896 p.
• [10] Practical Machinery Vibration Analysis and Predictive Maintenance, Edited by C. Scheffer, Elsevier, 2004, 255 p.
• [11] Strutt, M. J. О., Lamesche, Mathieusche und verwandte Funktionen in Physik und Technik. Ergebnisse der Mathematik, Bd. 1, H. 3, Berlin, Springer, 1932, 116 p. [translated into Russian]