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ISSN 2227-6858
English version IS Bulletin Archive 2016. N 3/28


Ship Power Plants and Their Components

Gribinichenko M., Minaev A., Portnova O., Chizhikov R., Rekeda A.

MATVEI GRIBINICHENKO, Associate Professor, Head of Department, e-mail: gribinichenko.mv@dvfu.ru; ALEXANDER MINAEV, Professor, Doctor of Technical Sciences, e-mail: aminaev@mail.ru; OLESYA PORTNOVA, Postgraduate Student; ROMAN CHIZHIKOV, Graduate Student, ALEXANDER REKEDA, Postgraduate Student
Chair of the Ship's Power and Automation Department, School of Engineering,
Far Eastern Federal University.
8 Sukhanova St., Vladivostok, Russia, 690950

Improving the reliability of operation of gas-lubricated bearings for ship machinery (review)

Abstract: The paper deals with the reliability improvement of gas-lubricated bearings for ship machinery. It contains the information on the gravest disadvantages of gas bearings limiting the advancement of gas lubrication in engineering: the excessive wear of the effective areas and the poor bearing capacity of the lubrication layer. The ways to remove the defects are considered in the article: the application of antifriction coating and hybrid bearings.
Key words: coating, turbomachine, petal, hybrid bearing, gas.

REFERENCES

  1. Beschastnykh V.N., Ravikovitch Y.A. Gas bearing heavy rotor turbine engines. Experience in the development and prospects of implementation. Vestnik MAI. 2010(17);3:91-98. (in Russ.). [Beschastnyh V.N., Ravikovich Ju.A. Gazovyj podshipnik tjazhelogo rotora gazoturbinnyh dvigatelej. Opyt razrabotki i perspektivy vnedrenija // Vestnik MAI. 2010.  T. 17, № 3. S. 91–98].
  2. Gribinichenko M.V., Kurensky A.V., Fershalov Uu.Y. Generalized mathematical model of the gas-lubricated axial bearings of the elements of ship power plants. Marine intelligent technology. 2011;1: 21-23. (Special issue). (in Russ.). [Gribinichenko M.V., Kurenskij A.V., Fershalov Ju.Ja. Obobshhennaja matematicheskaja model' osevyh podshipnikov s gazovoj smazkoj jelementov sudovyh jenergeticheskih ustanovok // Morskie intellektual'nye tehnologii. 2011. № 1. S. 21–23. [Specvypusk]].
  3. Konks G.A., Laško V.A. World marine diesels. Concept design, analysis of international experience. M., Engineering, 2005, 512 p. (in Russ.). [Konks G.A., Lashko V.A. Mirovoe sudovoe dizelestroenie. Koncepcii konstruirovanija, analiz mezhdunarodnogo opyta. M.: Mashinostroenie, 2005. 512 s.].
  4. Kosmynin A.V., Vinogradov V.S. Gas bearings of the high-speed turbine drives of the metal-working equipment. Vladivostok, Dal'nauka, 2002, 326 p. (in Russ.). [Kosmynin A.V., Vinogradov V.S. Gazovye podshipniki vysokoskorostnyh turboprivodov metalloobrabatyvajushhego oborudovanija. Vladivostok: Dal'nauka, 2002. 326 s.].
  5. Kurensky A.V., Gribinichenko M.V. Axial hybrid gas-lubricated bearings for ship turbomachinery. Shipbuilding. 2011;5:27-29. (in Russ.). [Kurenskij A.V., Gribinichenko M.V. Osevye gibridnye lepestkovye podshipniki s gazovoj smazkoj dlja sudovyh turbomashin // Sudostroenie. 2011. № 5. S. 27–29].
  6. Ravikovitch Y.A., Ermilov Y.I., Holobtsev D.P. The methodology and the test rig for determining of the carrying capacity of the axial foil gas-dynamic bearings. Aviation equipment. 2014; 4. (in Russ.). [Ravikovich Ju.A., Ermilov Ju.I., Holobcev D.P. Metodika i jeksperimental'naja ustanovka dlja opredelenija nesushhej sposobnosti osevyh lepestkovyh gazodinamicheskih podshipnikov // Aviacionnaja tehnika. 2014. № 4].
  7. Samsonov A.I .Gas-lubricated bearings for turbomachines: monograph. Vladivostok. FESTU-Press, 2009. 292 p. (in Russ.). [Samsonov A.I. Podshipniki s gazovoj smazkoj dlja turbomashin: monografija. Vladivostok: Izd-vo DVGTU, 2009. 292 s.].
  8. RF patent for the invention N 2449184. Kurensky A.V., Gribinichenko M.V., Samsonov A.I., Samsonov A.A. Thrust bearing assembly. Registered in the State. Register of Inventions 27.04.2012, the Federal Service for Intellectual Property, Patents and Trademarks. (in Russ.). [Upornyj podshipnikovyj uzel.: pat. 2449184 Rossijskaja Federacija / A.V. Kurenskij, M.V. Gribinichenko, A.I. Samsonov, A.A. Samsonov. Zareg. 27.04.2012].  
  9. Application of Tribology in Foil Bearing Technology: Northeastern University,  Dept. of Mechanical and Industrial Engineering. ME5656 – Mechanics of Contact and Lubrication. 2011.
  10. Giri L. Agrawal Foil air / gas bearing technology – an overview. International Gas Turbine. 1997;5. URL: http://www.rddynamics.com/foil-97-gt-347.pdf / – 10.07.2016.
  11. Gnedenkov S.V., Sinebryukhov S.L., Mashtalyar D.V., Tsvetnikov A.K., Minaev A.N. Effect of conditions of treatment with superdispersed polytetrafluoroethylene on properties of composite coatings. Protection of Metals and Physical Chemistry of Surfaces. 2010( 46);7:823-827.
  12. Gnedenkov S.V., Sinebryukhov S.L., Mashtalyar D.V., Egorkin V.S., Tsvetnikov A.K., Minaev A.N. Composite polymer-containing protective layers on titanium. Protection of Metals and Physical Chemistry of Surfaces. 2008(44);7:704-709.
  13. Said Jahanmir. Hooshang Heshmat & Crystal Heshmat Assessment of Tribological Coatings for Foil Bearing. Mohawk Innovative Technology Inc – Tribology Transactions. 2009. URL: http://www1.coe.neu.edu/~smuftu/docs/2011/ME5656_Term _Project_Foil_Bearing_ Technology.pdf . – 17.07.2016.