Voltage Spectral Structure as a Parameter of System Technical Diagnostics of Ship Diesel Engine-Synchronous Generators

[1] V. T. Lamaris and D. T. Hountalas, “A general purpose diagnostic technique for marine diesel engines – Application on the main propulsion and auxiliary diesel units of a marine vessel,” J. of Energy Conversion and Management, vol. 51, issue 4, 2010, pp. 740–753.10.1016/j.enconman.2009.10.031Search in Google Scholar

[2] J. Son et al. “Detecting the crankshaft torsional vibration of diesel engines for combustion related diagnosis,” J. of Sound and Vibration, vol. 321, issues 3–5, 2009, pp. 1171–1185. http://dx.doi.org/10.1016/j.jsv.2008.10.024Search in Google Scholar

[3] T. Lus, “Marine diesel engine diagnostics in operating conditions,” Diagnostika – applied structural health usage and condition monitoring, 2(62), 2012 pp. 43–47.Search in Google Scholar

[4] T. Lus, “Vibro-acoustic methods in marine diesel engines diagnostics,” J. of KONES Powertrain and Transport, vol. 18, no. 3, 2011.Search in Google Scholar

[5] A. F. Gogin, E. F. Kivalkin and A. A. Bogdanov, “Ship diesel engines (Bases of the theory, the device and operation),” M.: Transport, 1988. (in Russian).Search in Google Scholar

[6] V. V. Lahanin, “Designing and calculation on durability of ship steam machines. River transport,” 1955. (in Russian).Search in Google Scholar

[7] A. I. Vazhnov, “Alternating current machinery in transient regimes,” L.: Energy. 1980. (in Russian).Search in Google Scholar

[8] A. Gasparjan, A. Terebkov and M. Terebkova, “The Use of Results of Spectral Analysis of Synchronous Generator Output Voltage for Technical Diagnostics,” IEEE Int. Conf. Ind. Technology, ICIT 2006, 2006, pp. 2085–2090. http://dx.doi.org/10.1109/icit.2006.372566Search in Google Scholar

[9] A. Gasparjans and A. Terebkovs, “Kuģa enerģetiskās iekārtas daudzfunkcionalā diagnostikas sistēma.” “Multifunction Diagnostics System of Ship Power Installations,” Rīgas tehniskās universitātes zinātniskie raksti. 4. sērija, Enerģētika un elektrotehnika. Rīga: RTU, 16. sējums, 2006, 163.–166. lpp. ISSN 1407-7345.Search in Google Scholar

[10] J. Greivulis, A. Gasparian and A. Terebkov, “Complex diagnostic system of ship electrical machines,” in Proc. Int. Conf. on Electric Ship, ELECSHIP 98, Istanbul, Turkey, Istanbul: Middle East Technical University Turkey, Sept. 1, 1998, pp. 56–58.Search in Google Scholar

[11] Y. Greivulis, A. Gasparian and A. Terebkov, “Control Device of Electrical Machines Insulation Parameters of Ship Power Systems,” Int. Aegean Conf. on Electrical Machines and Power Electronics, IEEE-Acemp 2001, Middle East Technical University. Turkey, Kusadasi, 27–29 June 2001, pp. 544–545. ISBN 975-93410-0-X.Search in Google Scholar

[12] A. Gasparjans and A. Terebkovs, “Kuga energetiskas iekartas daudzfunkcionala diagnostikas Sistema,” “Multifunction Diagnostics System of Ship Power Installations,” RTU 46. Starptautiska zinatniska konference. Riga, 13.–15. okt. 2005. ISSN 1407-7345.Search in Google Scholar

[13] St. Polanowski and T. Lus, “Monitoring and diagnostic systems of marine diesel engines,” 9th TC-10 IMECO Conference, Wroclaw, 1999, 9 p.Search in Google Scholar

[14] J-C. Trigeassou, Electrical Machines Diagnosis, Wiley-ISTE. 2011. 334 p. http://dx.doi.org/10.1002/9781118601662Search in Google Scholar

[15] C. Hui, W. Peili and Z. Jundong, “Modeling and Simulation of Working Process of Marine Diesel Engine with a Comprehensive Method,” Int. J. of Computer Information Systems and Industrial Management Applications, vol. 5, 2013, pp. 480–487.Search in Google Scholar