Scientific and Technical Journal


ISSN Print 2221-3937
ISSN Online 2221-3805

In the paper there are solved a task of gas turbine unit (GTU) test process efficiency improvement which is extremely important in the limited resources. The authors developed models which describes overall the GTU tests process, including risk models of GTU and its tests process. The authors carried out re-engineering of research test process, allowing adapting it to the ever-changing conditions and experiments results are proposed.

  1. ShishkinI.F., SergushevG.F. Ispytanija i ispytatel'noe oborudovanie [Test and Test Equipment], (1999),St.Petersburg, Russian Federation,North Western Customs DirectoratePubl., 37p. (In Russian).
  2. Henley E.J., Kumamoto H. Designing for reliability and safety control,(1985), Englewood Cliffs, New Jersey,Prentice-Hall Inc. Publ., 527p. (In English).
  3. Andrews J.D., Moss T.R. Reliability and Risk Assessment, (2002), London and Bury St Edmunds,Professional Engineering Publ., 540p. (In English).
  4. Solojentsev E.D. Scenario Logic and Probabilistic Management of Risk in Business and Engineering,(2009), Springer Publ., doi: 10.1007/978-0-387-77946-1. (In English).
  5. Wenyuan Li Risk Assessment Of Power Systems: Models, Methods, and Applications, (2005),New York,Wiley-IEEE Press, 325p. (In English).
  6. Kołowrocki K., Soszyńska-Budny J. Reliability and Safety of Complex Technical Systems and Processes: Modeling-Identification-Prediction-Optimization, (2011),London,Springer Publ.,. doi:10.1007/978-0-85729-694-8. (In English).
  7. Kuo W., Prasad V.R. An annotated overview of system-reliability optimization,(2000), IEEE T. Reliab Publ., vol. 49(2),pp. 176-187, doi:10.1109/24.877336. (In English).
  8. Kuo W., Zuo M.J. Optimal Reliability Modeling: Principles and Applications, (2003),John Wiley&Sons Publ., Hoboken. (In English).
  9. Vercellis S. Business Intelligence: Data Mining and optimization for decision making, (2009),John Wiley&Sons Publ., Hoboken, doi: 10.1002/9780470753866. (In English).
  10. Zelenkov Yu.A., Chuvilin V.Yu., Zhuravlev V.E. Kompleksnaja avtomatizacija ispytanij gazoturbinnyh dvigatelej. Chast' 1: Upravlenie stendom i sbor dannyh, [Complex automation of gas turbine engine tests. Part 1: test cell management and data acquisition],(2011), Ufa, Russia,Vestnik UGATUPubl., vol. 15/2(42), pp. 119-125. (in Russian).
  11. Pogorelov G.I., Galimhanov B.K., Rizvanov K.A. Informacionnaja podderzhka upravlenija zhiznennym ciklom ispytanij GTD na osnove CALS-tehnologij [Information support of management by life cycle of GTE tests on the basis of CALS-technologies], (2007),Ufa, Russia, Vestnik UGATUPubl., vol. 9/4(22), pp. 57-63. (in Russian).
  12. Kulikov G.G., Rizvanov K.A., Denisova S.S. Arhitektura integrirovannoj informacionnoj modeli dlja razrabotki, proizvodstva i jekspluatacii GTD sovmestno s ego sistemoj avtomaticheskogo upravlenija, kontrolja i diagnostiki [The integrated information model architecture for working out, manufacture and operation GTE together with its system of automatic control, the control and diagnostics], (2009), Samara, Russia,Vestnik of the Samara State Aerospace UniversityPubl., vol. 3(19), pp. 244-250. (in Russian).
  13. Salar A., Hosseini S.M., Zangmolk B.R., Sedigh A.K. Improving Model-Based Gas Turbine Fault Diagnosis Using Multi-Operating Point Method. Proceedings of Fourth UKSim European Symposium on Computer Modeling and Simulation, 17-19 November 2010. Pisa, Italy, pp 240-247. (In English).
  14. Kovalev S.P., Tolok A.V. Model'no-orientirovannyj podhod k upravleniju zhiznennym ciklom slozhnyh tehnicheskih izdelij [Model-based approach to lifecycle management of complex technical products], (2014), V. A. Trapeznikov Institute of Control Sciences of Russian Academy of Sciences, url: Accessed 10 April 2016. (in Russian).
  15. Long D., Scott Z.A. Primer for Model Based Systems Engineering, 2nd edn., (2012),Blacksburg,Vitech CorpPubl., 124 p. (In English).
  16. Herniter M.E. Introduction to Model-Based System Design, Rose Hulman Institute of Technology, (2010), url: Accessed 10 April 2016.(In English).
  17. Marcy A. Intelligent automation series part 1: Introducing the intelligent automation pyramid. Control Engineering,(2015), url: Accessed 10 April 2016. (In English).
  18. Shitikova E.V., Tabunshhik G.V. Analiz riskov gazoturbinnyh ustanovok nazemnogo primenenija [Risks analysis of the gas turbine units for terrestrial usage], (2012),Visnyk dvygunobuduvannja Publ.,vol. 1, pp. 54-58. (in Russian).
  19. Shitikova E.V., Tabunshhik G.V. Metod upravlenija neopredelennost'ju v uslovijah ogranichennyh resursov [Method of uncertainty managing in resource-limited settings], (2015), Radio Electronics, Computer Science, Control Publ.,vol. 2(33), pp. 87-95. doi: 10.15588/1607-3274-2015-2-11. (in Russian).
  20. Tomashevs'kyj V.M. Imitacijne modeljuvannja system ta procesiv [Simulationsystems and processes], (1994), Kyi'v, Ukrai'na, ISDO Publ., 124p. (InUkrainian).
  21. Shitikova E.V., Tabunshhik G.V. Formalizacija processa ispytanij GTU NP[Formalization of the GTU tests process], (2015),Electrotechnic and Computer Systems Publ.,vol. 18(94), pp. 75-80. doi: 10.15276/etks.18.94.2015.14. (in Russian)
  22. Shitikova E.V., Tabunshhik G.V. Innovacionnye metody upravlenija processom issledovatel'skih ispytanij GTU NP [Innovation approaches for research test process management of gas turbine units], (2012), Vostochno-evropejskij zhurnal peredovyh tehnologij Publ., vol. 3/10 (57). pp. 27-32. (In Russian).
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