Abstract and keywords
Abstract (English):
The paper proposes a comprehensive approach to solving technical maintenance problems of main marine diesel engines based on the system organization of information environment, fonnalization of data evolution procedures from the formation of primary infonnation base to the software implementation of decision support algorithms using statistical modeling methods. The decision support system for identifying malfunctions of the main engine of a large-capacity tanker makes it possible to use monitoring results and process data, evaluate the technical condition based on diagnostic and predictive procedures, automate procedures for solving operational problems for infonnation support of the operator in making optimal decisions. The developed software package provides decision support for the following technical tasks of the main engine: assessing the current technical condition and identifying faults by monitored parameters, preventing sudden and predicting gradual failures, determining inter-docking and overhaul periods.

Keywords:
main marine diesel engine, decision support system, statistical data analysis, failure identification, sudden failure
Text
Publication text (PDF): Read Download
References

1. Astrein V V., Kondrat'ev S.I., Hekert E.V. Algoritm samoorganizacii grupp sudov dlya preduprezhdeniya stolknoveniy // Ekspluataciya morskogo transporta. Gos. morskoy universitet im. admirala F.F. Ushakova Novorossiysk. - 2016. - №2. - S. 45-50.

2. Skorohodov D.A., Starichenkov A.J1. Principy postroeniya sistemy informacionnoy podderzhki dlya prinyatiya resheniy v avariynyh situaciyah // Morskie intellektual'nye tehnologii,- 2009,- №1(3). - S. 48-56.

3. Karakaev A.B., Lukanin A.V., Hekert E.V.Osnovnye principy modelirovaniya i informacionnoy podderzhki processov upravleniya ekspluataciey sudovyh elektroenergeticheskih sistem (chast' 2) // Ekspluataciya morskogo transporta. Gos. morskoy universitet im. admirala F.F. Ushakova - Novorossiysk. - 2017.-№3(84).-S. 89-99.

4. Epihin A.I. Modul' diagnostiki dvigatelya vnutrennego sgoraniya v sisteme podderzhki prinyatiya resheniy ekipazhem tankera-gazovoza /Lksshik Astrahanskogo gos. tehnicheskogo universiteta. Seriya: Morskaya tehnika i tehnologiya, Astrahan'. -2017. -№4. -S. 31-39.

5. Zaharov G.V. Tehnicheskaya ekspluataciya sudovyh dizel'nyh ustanovok.- M.: TransLit, 2009.-256 s.

6. Kornilov E.V., Foka A.A., Boyko P.V., Golofastov E.I. Sudovye glavnye dvigateli s elektronnym upravleniem. - Odessa, «Ekspress-Reklama», 2010. -224 s.

7. Zhivlyuk G. E., Petrov A.P.Ekspluatacionnye osobennosti sistem toplivopodachi Common Rail sudovyh dvigateley // Vestnik Gos. universiteta morskogo i rechnogo flota im. admirala S. O. Makarova,- SPb. - 2018. - T. 10. -№ 1.-S. 201-220.

8. Polkovnikova N.A., Polkovnikov A.K. Gibridnaya ekspertnaya sistema na osnove veroyatnostno-determinirovannyh modeley dlya glavnogo sudovogo dvigatelya // Ekspluataciya morskogo transporta. Gos. morskoy universitet im. admirala F.F. Ushakova.- Novorossiysk. - 2016.-№2(79).-S. 78-87.

9. Solov'ev A. V. Principy formirovaniya komp'yuternoy modeli diagnostirovaniya tehnicheskogo sostoyaniya sudovoy energeticheskoy ustanovki //Vestnik Gos. universiteta morskogo i rechnogo flota im. admirala S. O. Makarova, SPb. - 2018. - №1(47). - S. 238-251.

10. Malinovskiy M.A., Foka A.A., Rolinskiy B.I., Vahrameev Yu Z. Obespechenie nadezhnosti sudovyh dizeley. - Odessa. FEShKS, 2003. -150 s.

11. Bigus G.A. Diagnostika tehnicheskih ustroystv / G.A. Bigus, Yu.F. Daniev, I.A. Bystrova, D.I. Galkin. - M.: izd. MGTU im. N.E. Baumana, 2014. -615 s.

12. Guzik V.F., Kidalov V.I., Samoylenko A.P. Statisticheskaya diagnostika neravnovesnyh ob'ektov. - SPb.: Sudostroenie, 2009. - 304 s.

13. Medvedev V.V. Primenenie imitacionnogo modelirovaniya dlya obespecheniya nadezhnosti i bezopasnosti sudovyh energeticheskih ustanovok: monografiya. - SPb.: Strata, 2013. - 352 s.

14. Goloskokov K.P., Chirkova M.Yu. Razrabotka modeli vybora tehnicheskih sredstv sudovyh informacionnyh sistem // Vestnik Gos. universiteta morskogo i rechnogo flota im. admirala S.O. Makarova, SPb. - 2017. T. 9. - № 3. - C. 645-654.

15. Polkovnikova N.A., Polkovnikov A.K. Modeli i algoritmy sistemy podderzhki prinyatiya resheniy dlya glavnogo sudovogo dvigatelya //Ekspluataciya morskogo transporta. Gos. morskoy universitet im. admirala F.F. Ushakova, Novorossiysk. -2018. -№3 (88). -S. 86-102.

16. Gavrilov V V., Maschenko V.Yu. Principy postroeniya ierarhicheskogo kompleksa sistem diagnostirovaniya sudovogo dizelya // Vestnik Gos. universiteta morskogo i rechnogo flota im. admirala S O. Makarova - SPb. - 2016. -№3(37).-S. 155-166.

17. Karetnikov VV., Paschenko I.V., Sokolov A.I.Perspektivy vnedreniya bezekipazhnogo sudohodstva na vnutrennih vodnyh putyah Rossiyskoy Federacii. //Vestnik Gos. universiteta morskogo i rechnogo flota im. admirala S.O. Makarova, SPb. - 2017. T. 9. - № 3. - S. 619-627.

18. Ravin A.A., Hruckiy O.V. Prognozirovanie tehnicheskogo sostoyaniya oborudovaniya: monografiya - Germany, Saarbriicken: Lamber-tAcademicPublisching, 2014. - 141 s.

19. Karakaev A.B. Osnovnye principy modelirovaniya i informacionnoy podderzhki processov upravleniya ekspluataciey sudovyh elektroenergeticheskih sistem. (Chast' 2) [Tekst] / A.B. Karakaev, A.V. Lukanin, E.V. Hekert// Ekspluataciya morskogo transporta,- 2017-№3(84),-S. 89-99.

20. Hekert E.V. Kontrol' sostoyaniya dvigatelya firmy "caterpillar” sat 3512 gruntonasosnoy ustanovki zemsnaryada po vibracionnym parametram [tekst] / E.V. Hekert, N.I. Nikolaev, B.V. Gerasidi // Morskie intellektual'nye tehnologii.- 2018 - T. l.-Jfe 1 (39).- S. 100105.

21. Karakaev A.B. Osnovnye principy modelirovaniya i informacionnoy podderzhki processov upravleniya ekspluataciey sudovyh elektroenergeticheskih sistem. (Chast' 1) [Tekst] / A.B. Karakaev, A.V. Lukanin, E.V. Hekert// Ekspluataciya morskogo transporta,- 2017-№2 (83),-S. 114-122.


Login or Create
* Forgot password?