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METHODS OF OPTIMIZATION OF SERVICE PARAMETERS AND INDICATORS OF RELIABILITY OF COMPLEX TECHNICAL SYSTEMS OPERATING ON OXYGEN-HYDROGEN FUEL
https://doi.org/10.15518/isjaee.2017.01-03.022-033
Abstract
The paper deals with the coordinated parameters optimization of maintenance and indicators of reliability of complex technical systems of rocket and space technology, and introduces the algorithms of the calculations for justification of the replacements frequency, the need for intensity levels and failure of the repair work of complicated technical systems of cosmodrome's launch complex, taking into account of scientific and technical progress.
It is shown that the automation and maintenance diagnostic process can significantly improve the availability factor in the preparation and launch of space rocket systems at the launch complex.
The efficiency of a technique is illustrated the specific examples. The results will improve the reliability and safety of the operations with the explosive and flammable environmentally friendly propellant components: liquid oxygen, hydrogen and kerosene, when you start the promising rockets of family “Angara” at the launch complex of the Vostochny Cosmodrome.
About the Authors
A. G. Galeev
Moscow Aviation Institute (National Research University)
Russian Federation
Russian Federation
Аivengo Galeev - D.Sc. (engineering), Professor of Management of Operation of RSS department of Moscow Aviation Institute, Laureate of USSR Council of Ministers in the field of science and technology, member of the K.E. Tsiolkovsky Russian Academy of Cosmonautics, Chief Researcher of the PCF “SIC RSI”; 40 years of scientific and pedagogical experience; a member of working out a number of systems for missile and space programs “Space-1”, “Space-3”, “N1L3”, “EnergiaBuran”, “GSLV”, “Angara” and others.
4 Volokolamsk drive, GSP-3, A-80, Moscow, 125993, Russia tel.: +7(495)195-91-36; e-mail: ajv.galeev@yandex.ru
E. V. Gusev
Moscow Aviation Institute (National Research University)
Russian Federation
Russian Federation
Gusev Evgeniy - Senior Lecturer in Management of Operation of RSS department of Moscow Aviation Institute; 11 years of scientific and pedagogical experience.
4 Volokolamsk drive, GSP-3, A-80, Moscow, 125993, Russia tel.: +7(495)195-91-36; e-mail: ajv.galeev@yandex.ru
A. A. Zolotov
Moscow Aviation Institute (National Research University)
Russian Federation
Russian Federation
Zolotov Аlexandr - D.Sc. (engineering), Professor of the Space Systems and Rocket Science department of the Moscow Aviation Institute; Honorary Worker of Higher School; more than 40 years of research and teaching experience; a former leader and member of the implementation of the major state budget and contract work on the industry orders.
4 Volokolamsk drive, GSP-3, A-80, Moscow, 125993, Russia tel.: +7(495)195-91-36; e-mail: ajv.galeev@yandex.ru
V. K. Odelevskiy
Moscow Aviation Institute (National Research University)
Russian Federation
Russian Federation
Odelevskiy Vladimir - D.Sc. (engineering), member of the K.E. Tsiolkovsky Russian Academy of Cosmonautics, Associate Professor of Management of operation of RSS department at the Moscow Aviation Institute; more than 40 years of research and teaching experience; a member of creation and testing of a number of systems on the missile and space programs on the subject of RSC “Energia”, CB “Salute”, CB “Southern” and NIITP.
4 Volokolamsk drive, GSP-3, A-80, Moscow, 125993, Russia tel.: +7(495)195-91-36; e-mail: ajv.galeev@yandex.ru
V. V. Rodchenko
Moscow Aviation Institute (National Research University)
Russian Federation
Russian Federation
Rodchenko Vladimir - D.Sc. (engineering), Professor, Honorary Worker of Higher School, member of the K.E. Tsiolkovsky Russian Academy of Cosmonautics, the Deputy Head of the Management of Operation of RSS department of Moscow Aviation Institute; more than 40 years of scientific and pedagogical experience; a former leader and member of a number of contractual works on the industry orders including the following programs: “Energia-Buran”, “Highway”, “The Blue”, etc.
4 Volokolamsk drive, GSP-3, A-80, Moscow, 125993, Russia tel.: +7(495)195-91-36; e-mail: ajv.galeev@yandex.ru
References
1. Afanasev V.G., Zelentsov V.A., Mironov A.N. Metody analiza nadežnosti i kritičnosti otkazov složnyh sistem. Moscow: MO RF Publ., 1992 (in Russ.).
2. Baranov L.T., Garyunov V.I., Petrov G.D. Soveršenstvovanie informacionnogo obespečeniâ èkspluatacii kosmičeskih sredstv na osnove vnedreniâ monitoringa tehničeskogo sostoâniâ. Izvestiâ vuzov. Priborostroenie. 2000;(43/8):86–90 (in Russ.).
3. Bajhelt F., Franken. P. Nadežnost’ i tehničeskoe obsluživanie. Moscow: Radio i svâz’ Publ., 1988 (in Russ.).
4. Galeev A.G., Zolotov A.A., Perminov A.N, Rodchenko V.V. Èkspluataciâ startovyh kompleksov raketno-kosmičeskih sistem. Moscow: Izd-vo MAI Publ., 2007 (in Russ.).
5. GOST 27.310-95. Nadežnost’ v tehnike. Analiz vidov, posledstvij i kritičnosti otkazov. Moscow: Izdatel’stvo standartov, 1997 (in Russ.).
6. Gorichev Yu.V., Lebedev A.N., Mironov V.I. Obespečenie kačestva i nadežnosti složnyh tehničeskih sistem na ètape proektirovaniâ. Èlementy sistemnogo proektirovaniâ, issue1: Učebnoe posobie. Moscow: MO USSR Publ., 1984 (in Russ.)
7. Emelin N.M. Otrabotka sistem tehničeskogo obsluživaniâ letatel’nyh apparatov. Moscow: Mašinostroenie Publ., 1995 (in Russ.).
8. Bahvalov N.S., Zhidkov N.P., Kobelkov G.M. Čislennye metody. Moscow: Nauka Publ., 1987 (in Russ.)
9. Barlou R., Proshan F. Statističeskaâ teoriâ nadežnosti i ispytaniâ na bezotkaznost’. Moscow: Nauka Publ., 1984 (in Russ.)
10. Garyunov V.I. Pokazateli bezopasnosti èkspluatacii KSr. Zadanie i ocenivanie. SPb: VIKA Publ., 1993 (in Russ.)
11. Glushenko V.V. Metodičeskie voprosy proektirovaniâ i ocenki bezopasnosti funkcionirovaniâ složnyh tehničeskih system. Problemy mašinostroeniâ i avtomatizacii. 1993;(5):6–10 (in Russ.).
12. Gorbulin V.P. Metody matematičeskogo modelirovaniâ i problemy obespečeniâ nadežnosti potencial’no opasnyh tehničeskih sistem. Upravlâûŝie sistemy i mašiny. 1989;(4):3–6 (in Russ.).
13. GOST 27.504-84. Metody ocenki pokazatelej nadežnosti po cenzurirovannym vyborkam. Moscow: Izd-vo standartov Publ., 1984 (in Russ.).
14. Zolotov A.A., Odelevskiy V.K., Rodchenko V.V., Chernikov A.I. Prikladnye metody i algoritmy obes-pečeniâ nadežnosti i bezopasnosti tehničeskih sistem na ètape ih razrabotki i èkspluatacii. Moscow: Izd-vo MAI Publ., 2013 (in Russ.).
15. Zolotov A.A., Matveev Yu.A., Shaevich S.K. Vybor proektnyh rešenij LA s učetom soglasovaniâ massy, nadežnosti i resursa mnogorazovyh sistem. Moscow: Izd-vo MAI Publ., 2002 (in Russ.).
16. Kalinin V.N., Reznikov B.A., Varakin E.I. Teoriâ sistem i optimal’nogo upravleniâ. Part 2: Ponâtiâ, modeli i algoritmy optimalэnogo vybora. Moscow: MO USSR Publ., 1987 (in Russ.).
17. Kovalev A.P. Formirovanie trebovanij k nadežnosti i sistemam èkspluatacii raspredelennyh tehničeskih kompleksov. SPb: ORAKUL, 1999 (in Russ.).
18. Krasnov O.V. Model’ pokazatelâ bezopasnosti èkspluatacii startovogo kompleksa. Izvestiâ vuzov. Priborostroenie. 2000;(43/8):53-58 (in Russ.).
19. Krasnov O.V. O metodah analiza system funkcional’no zavisimyh slučajnyh veličin. AVT. 1997;(4)22–26 (in Russ.).
20. Mironov A.N. Teoretičeskie osnovy i metody mnogomodel’nogo prognozirovaniâ dolgovečnosti složnyh voenno-tehničeskih sistem kosmičeskogo naznačeniâ. SPb: VIKU, 2000 (in Russ.).
21. Berezovskiy B.F. et al. Mnogokriterial’naâ optimizaciâ: Matematičeskie aspekty. Moscow: Nauka Publ., 1989 (in Russ.).
22. Volkovich V.L., Voloshin A.F., Zaslavskiy V.A., Ushakov I.A. Modeli i metody optimizacii nadežnosti složnyh sistem. Kiev: Naukova Dumka Publ., 1993. (in Russ.).
Review
For citations:
Galeev A.G., Gusev E.V., Zolotov A.A., Odelevskiy V.K., Rodchenko V.V. METHODS OF OPTIMIZATION OF SERVICE PARAMETERS AND INDICATORS OF RELIABILITY OF COMPLEX TECHNICAL SYSTEMS OPERATING ON OXYGEN-HYDROGEN FUEL. Alternative Energy and Ecology (ISJAEE). 2017;(1-3):22-33. (In Russ.) https://doi.org/10.15518/isjaee.2017.01-03.022-033
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