Increase of the industrial safety level of a gas turbine unit
UDC: 629.039.58
DOI: -
Authors:
FEDOSOV A.V.
1,
SHARAFUTDINOVA G.M.1,
BARAKHNINA V.B.1,
KHANGILDIN R.I.1
1 Ufa State Petroleum Technological University, Ufa, Russia
Keywords: oil and gas industry, natural gas, pipeline transport, gas turbine unit, regulation, safety, emergency, hazards, main pipelines
Annotation:
Gas turbine units used in the process of natural gas transportation are complex and potentially dangerous objects of main pipelines. The authors of the article describe a newly developed system of anti-surge control of gas pumping units based on measurements of the temperature readings of the pumped natural gas. An additional installation of a heat exchanger is included in the pumping and valving of gas pumping units to reduce the temperature of natural gas, thus increasing the safety of a gas turbine unit. Attention is focused on the urgent need for innovative methods of regulating the operation of aggregates, in particular, anti-surge control systems based on temperature readings of pumped natural gas, which emphasizes the relevance and practical significance of the conducted study. The proposed innovative approach allows significant improvement of the efficiency and safety of a gas turbine installation operation at compressor stations. The developed temperature-based anti-surge control system and the introduction of a heat exchanger represent modern and effective solutions to ensure the safety and reliability of a gas turbine installation operation.
Bibliography:
1. Povyshenie urovnya promyshlennoy bezopasnosti ustanovki kataliticheskogo riforminga / E.D. Perevozchikova, G.M. Sharafutdinova, V.B. Barakhnina, R.I. Khangil'din // Zashchita okruzhayushchey sredy v neftegazovom komplekse. – 2024. – № 1(316). – S. 55–61.
2. Beskorovaynaya A.R., Sharafutdinova G.M. Analiz vliyaniya yavleniya pompazha na bezopasnost' ekspluatatsii gazoturbinnogo oborudovaniya // Aktual'nye problemy tekhnicheskikh, estestvennykh i gumanitarnykh nauk: materialy Mezhdunar. nauch.-tekhn. konf., posvyashch. 75-letiyu UGNTU, Ufa, 26 okt. – 26 noyab. 2023 g. Vyp. 16. – Ufa: UGNTU, 2023. – S. 123–125.
3. Beskorovaynaya A.R., Sharafutdinova G.M. Avariynye situatsii pri ekspluatatsii gazoperekachivayushchego oborudovaniya Rossii // Sovremennye zadachi i perspektivnye napravleniya innovatsionnogo razvitiya nauki: sb. st. Mezhdunar. nauch.-prakt. konf., Kaluga, 5 okt. 2023 g. – Ufa: Aeterna, 2023. – S. 8–9.
4. Safety Cultures, Safety Models. Taking Stock and Moving Forward / C. Gilbert, B. Journé, H. Laroche, C. Bieder. – Cham: Springer Open, 2018. – VIII, 166 p. – DOI: 10.1007/978-3-319-95129-4
5. A Real Time Expert System for Process Control / R.L. Moore, L.B. Hawkinson, C.G. Knickerbocker, L.M. Churchman // First Conf. on Artificial Intelligence Applications. – IEEE, 1984. – P. 569–576.
6. Farrakhova A.T., Barakhnina V.B. Povyshenie promyshlennoy i ekologicheskoy bezopasnosti na ob"ektakh neftepererabatyvayushchey i neftekhimicheskoy promyshlennosti // Ekolog. vestn. Rossii. – 2016. – № 3. – S. 25–28.
7. Khafizova A.A., Barakhnina V.B., Kireev I.R. Vyyavlenie prichin vysokoy avariynosti na morskikh neftegazodobyvayushchikh platformakh // Ekolog. vestn. Rossii. – 2012. – № 3. – S. 16–19.
8. Tagirova K.B., Gilyazov A.A., Vadulina N.V. Analiz istochnikov zagryazneniya atmosfery na neftegazovom predpriyatii // Ekolog. vestn. Rossii. – 2020. – № 6. – S. 10–13.
9. Sayapov A.V., Ismagilov M.I., Barakhnina V.B. Analiz sovremennykh metodov distantsionnogo kontrolya sostoyaniya zapornoy armatury magistral'nykh gazoprovodov // Sovremennye tekhnologii: dostizheniya i innovatsii – 2023: sb. tr. Vseros. molodezhnoy nauch.-prakt. konf., Sterlitamak, 29 noyab. 2023 g.: v 2 ch. Ch. 1. – Ufa: UGNTU, 2023. – S. 76–78.
10. Osnovy sistemnogo obespecheniya promyshlennoy i ekologicheskoy bezopasnosti transporta prirodnogo gaza / D.Yu. Valekzhanin, V.B. Barakhnina, I.R. Kireev [i dr.]. – Ufa: UGNTU, 2023. – 174 s.
11. Prokopets A.O. Povyshenie effektivnosti raboty privodnykh statsionarnykh gazoturbinnykh ustanovok v usloviyakh ekspluatatsii OOO "Gazprom TRANSGAZ Yugorsk": avtoref. dis. … kand. tekhn. nauk: 05.04.12. – Ekaterinburg, 2012. – 20 s.
12. Mikaelyan E.A. Povyshenie nadezhnosti, bezopasnosti, ustoychivoy raboty gazoturbinnykh gazoperekachivayushchikh agregatov // Tr. RGU nefti i gaza im. I.M. Gubkina. – 2009. – № 4(257). – S. 105–113.
13. Deyneko S.V. Otsenka nadezhnosti gazonefteprovodov. Prakticheskie zadachi s resheniyami. – M.: TsentrLitNefteGaz, 2019. – 102 s.
14. Nguen Min' Khay. Informativnye kriterii dlya obnaruzheniya predpompazhnogo sostoyaniya tsentrobezhnogo kompressora: avtoref. dis. … kand. tekhn. nauk: 05.04.06. – SPb., 2007. – 17 s.
15. Shvedov A.P., Mymrin I.N. Osnovnye sposoby kontrolya i bor'by s pompazhem na GPA // Inovatsii. Nauka. Obrazovanie. – 2022. – № 67. – S. 150–154.
16. Gumerov A.V. Predel'noe sostoyanie osevogo kompressora GTD v usloviyakh ekspluatatsii v zapylennoy atmosfere: avtoref. dis. … kand. tekhn. nauk: 05.07.05. – Ufa, 2011. – 17 s.
17. Kvasnikova A.N. Pompazh v nasosakh // Molodezh' i sistemnaya modernizatsiya strany: sb. nauch. st. 5-y Mezhdunar. nauch. konf. studentov i molodykh uchenykh, Kursk, 19–20 maya 2020 g.: v 6 t. T. 4. – Kursk: Yugo-Zapad. gos. un-t, 2020. – S. 299–301.
18. Brown G. Discovering the STM32 Microcontroller. – Indiana University, 2016. – 244 p.
19. UART v STM32. – URL: http://easystm32.ru/interfaces/14-uart-in-stm32-part-0 (data obrashcheniya 20.08.2024).
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