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Journal Radioengineering №10 for 2020 г.
Article in number:
Management of operational reliability and maintenance of gas analytical systems for environmental monitoring
Type of article: scientific article
DOI: 10.18127/j00338486-202010(19)-05
UDC: 543.27.08.068.2
Authors:

Oleg A. Kanischev – Deputy Chief of the Design Department №78,

SUE «SPA Analitpribor» (Smolensk, Russia)

E-mail: asuspost@rambler.ru

Abstract:

Formulation of the problem. Taking into account the increased requirements for reliability and durability, as well as the complexity of the structure of the gas analytical system for environmental monitoring (GEMS), the development of recommendations for improving its operation system is a complex scientific task. 

The goal is the development and subsequent verification of a mathematical model for the operation of GEMS, taking into account, first, the interaction with the maintenance and repair system.

Results. A new model for the operation of GEMS been developed, taking into account the structural redundancy, the frequency of maintenance, the level of reliability and maintainability and the intensity of operation of the GEMS. Also the new model have as well as the structure, nomenclature and quantity of spare parts stocks and the strategy of its replenishment and allows to study the effect of these parameters on the reliability indicators of the system as a whole.

Practical significance. Basis of the proposed mathematical model, in the future, simulation models and experimental design developments will developed, allowing a more detailed study of the variety of factors affecting the behavior of GEMS in real time and optimizing the overall reliability of the system.

Pages: 49-61
For citation

Kanischev O.A. Management of operational reliability and maintenance of gas analytical systems for environmen- tal monitoring. Radiotekhnika. 2020. V. 84. № 10(19). P. 49−61. DOI: 10.18127/j00338486-202010(19)-05  (In Russian).

References
  1. GOST R 50760-95. Analizatory gazov i ajerozolej dlja kontrolja atmosfernogo vozduha. Obshhie tehnicheskie uslovija. M.: Izd-vo standartov. 2008. 14 s. (In Russian).
  2. GOST R 52136-2003 Gazoanalizatory i signalizatory gorjuchih gazov i parov jelektricheskie. Ch. 1. Obshhie trebovanija i metody ispytanij. M.: Izd-vo standartov. 2012. 28 s. (In Russian).
  3. GOST R 52350.29.1-2010. Vzryvoopasnye sredy. Ch. 29-1. Gazoanalizatory. Obshhie tehnicheskie trebovanija i metody ispytanij gazoanalizatorov gorjuchih gazov. M.: Izd-vo standartov. 2003. 12 s. (In Russian).
  4. GOST 27540-87. Signalizatory gorjuchih gazov i parov termohimicheskie. Obshhie tehnicheskie uslovija. M.: Izd-vo standartov. 2001. 22 s. (In Russian).
  5. GOST R 52350.29.2-2010 (MJeK 60079-29-2:2007). Vzryvoopasnye sredy. Ch. 29-2. Gazoanalizatory. Trebovanija k vyboru, montazhu, primeneniju i tehnicheskomu obsluzhivaniju gazoanalizatorov gorjuchih gazov i kisloroda. M.: Izd-vo standartov. 2001. 14 s.  (In Russian).
  6. GOST IEC 60079-29-3-2013. Vzryvoopasnye sredy. Ch. 29-3. Gazoanalizatory. Rukovodstvo po funkcional'noj bezopasnosti stacionarnyh gazoanaliticheskih sistem. M.: Izd-vo standartov. 2014. 24 s. (In Russian).
  7. GOST 27.002-2015. Nadezhnost' v tehnike (SSNT). Osnovnye ponjatija. Terminy i opredelenija. M.: Standartinform. 2016. 28 s.  (In Russian).
  8. Barzilovich E.Ju., Beljaev Ju.K., Kashtanov V.A. i dr. Voprosy matematicheskoj teorii nadezhnosti. M.: Radio i svjaz'. 1983. 376 s.  (In Russian).
  9. Dedkov V.K., Severcev N.A. Osnovnye voprosy jekspluatacii slozhnyh sistem. M.: Vysshaja shkola. 1976. 406 s. (In Russian).
  10. Mishhenko V.I. Analiz podhodov k modelirovaniju processa jekspluatacii slozhnyh tehnicheskih sistem. Vestnik akademii voennyh nauk. 2002. № 3–4. S. 34-38. (In Russian).
  11. Mishhenko V.I. Osobennosti modelirovanija vzaimodejstvija slozhnyh tehnicheskih sistem vooruzhenija s sistemoj ih jekspluatacii. Izmeritel'naja tehnika. 1999. № 10. S. 16-21. (In Russian).
  12. Mishhenko V.I. Opredelenie periodichnosti obsluzhivanija vooruzhenija na osnove ispol'zovanija polumarkovskih modelej processa ego jekspluatacii. Voprosy oboronnoj tehniki. 1990. Vyp. 3(77). № (78). Ser. 14. (In Russian).
  13. Lavrinenko V.Ju. Osnovy jekspluatacii radiojelektronnoj apparatury. M.: Vysshaja shkola. 1978. 320 s. (In Russian).
  14. Nadezhnost' tehnicheskih sistem. Spravochnik. Pod obshh. red. I.A. Ushakova. M.: Radio i svjaz'. 1985. 608 s. (In Russian).
  15. Koroljuk V.S, Turbin A.F. Polumarkovskie processy i ih prilozhenija, Kiev: Naukova dumka. 1976, 184 s. (In Russian).
  16. Sychev E.I. Metrologicheskoe obespechenie radiojelektronnoj apparatury (metody analiza): Ucheb. posobie. M.: RIC «Tat'janin den'». 1994. 277 s. (In Russian).
  17. Mishhenko V.I., Hramov M.Ju. Problematika jekspluatacii slozhnyh tehnicheskih sistem. SPb: Izd-vo «Politehnika-servis». 2016. 172 s. (In Russian).
  18. Medvedev V.M., Mishhenko V.I., Soloha N.G. Modelirovanie stoimosti jekspluatacii raket. Vestnik Akademii voennyh nauk. 2008.  № 1(22). Voennaja jekonomika i oboronnaja promyshlennost' (In Russian).
  19. Medvedev V.M., Mishhenko V.I., Gizatullin I.M. Modelirovanie stoimosti jekspluatacii izdelij. Vestnik OGU. 2008. № 2.  URL: https://cyberleninka.ru/article/n/modelirovanie-stoimosti-ekspluatatsii-izdeliy (data obrashhenija: 24.04.2020). (In Russian).
Date of receipt: 24.08.2020