Comprehensive fire safety management system for oil and gas industry facilities, based on the principles of fractal analysis
UDC: 614.841.41
DOI: -
Authors:
FOMICHEV LEONID YU.
1,
MINAEVA IRINA A.1,
ZHARKOV OLEG I.2
1 National University of Oil and Gas "Gubkin University", Moscow, Russia
2 EME, Moscow, Russia
Keywords: fractal analysis, fire safety, oil and gas industry, accidents prediction, fire hazard zones, risk modeling, mathematical analysis, modeling, explosion safety, accidents
Annotation:
The authors of the article present a comprehensive fire safety management system for oil and gas industry facilities, based on the principles of fractal analysis. The main objective of the study is to develop tools for improving the accuracy of predicting and preventing fire hazards. The methodology includes data collection from industrial facilities, the application of fractal geometry methods to analyze environmental parameters (temperature, pressure, combustible substance concentration) as well as computer modeling using specialized software. The use of fractal analysis allows for the identification of hidden patterns in the dynamics of technological processes, enabling timely detection of emergencies precursors. Testing results of the system demonstrate a 30 % reduction in false alarms and a 15 % increase of warning time for potential threats. The developed system can enhance the safety and reliability levels of oil and gas facilities and contribute to improving regulatory and technical documentation in the field of industrial safety.
Bibliography:
1. Analiz zakonodatel'nykh trebovaniy k funktsionirovaniyu avariyno-spasatel'nykh formirovaniy i podrazdeleniy pozharnoy okhrany na ob"ektakh zashchity neftegazovykh kompaniy / D.V. Ponomarenko, Yu.E. Tyulenev, A.V. Knyazev [i dr.] // Gazovaya prom-st'. – 2024. – № 8(869). – S. 78–85.
2. Fomichev L.Yu., Minaeva I.A. Povyshenie nadezhnosti avtomaticheskoy pozharnoy signalizatsii na ob"ektakh khraneniya nefti i nefteproduktov // Bezopasnost' truda v prom-sti. – 2024. – № 12. – S. 47–52. – DOI: 10.24000/0409-2961-2024-12-47-52
3. Kurovskiy S.V., Mishin D.A., Fomichev L.Yu. Osobennosti obespecheniya ekologicheskoy bezopasnosti v ramkakh snizheniya chastoty pozharoopasnykh situatsiy na neftegazovykh truboprovodakh // Ekonomika str-va. – 2025. – № 1. – S. 339–343.
4. Chalyaletdinova T.S. Obshchie printsipy obespecheniya pozharnoy bezopasnosti na predpriyatiyakh neftegazovogo kompleksa // Vestn. nauki. – 2024. – T. 1, № 9(78). – S. 195–198.
5. Brylkin Yu.V. Geometricheskoe modelirovanie mikrostruktury poverkhnosti na osnove teorii fraktalov: dis. … kand. tekhn. nauk: 05.01.01. – M., 2018. – 121 s.
6. Fractal conceptualization of intumescent fire barriers, toward simulations of virtual morphologies / G. Okyay, A.D. Naik, F. Samyn [et al.] // Scientific Reports. – 2019. – Vol. 9. – Article No. 1872. – DOI: 10.1038/s41598-019-38515-9
7. Accou B., Carpinelli F. Systematically investigating human and organisational factors in complex socio-technical systems by using the "Safety Fractal Analysis" method // Applied ergonomics. – 2022. – Vol. 100. – Article No. 103662. – DOI: 10.1016/j.apergo.2021.103662
8. Torabian M., Pourghassem H., Mahdavi-Nasab H. Fire Detection Based on Fractal Analysis and Spatio-Temporal Features // Fire Technology. – 2021. – Vol. 57. – P. 2583–2614. – DOI: 10.1007/s10694-021-01129-7
9. Jin Yanlin, Jang Beom-Seon. Probabilistic fire risk analysis and structural safety assessment of FPSO topside module // Ocean Engineering. – 2015. – Vol. 104. – P. 725–737. – DOI: 10.1016/J.OCEANENG.2015.04.019
10. Gvozdev E.V., Matvienko Yu.G. O metodike otsenki sostoyaniya promyshlennoy i pozharnoy bezopasnosti na predpriyatiyakh neftegazovogo kompleksa Rossii // Bezopasnost' truda v prom-sti. – 2021. – № 11. – S. 7–12. – DOI: 10.24000/0409-2961-2021-11-7-12
11. Sovershenstvovanie podkhoda k analizu tekhnogennogo riska i obosnovaniyu proektnykh resheniy dlya opasnykh proizvodstvennykh ob"ektov neftegazovogo kompleksa / A.V. Aleksandrova, M.V. German, A.A. Levchuk, A.Yu. Skrynnikov // Pozhary i chrezvychaynye situatsii: predotvrashchenie, likvidatsiya. – 2024. – № 3. – S. 121–130. – DOI: 10.25257/FE.2024.3.121-130
12. Design and Evaluation of High-Temperature Well Cementing Slurry System Based on Fractal Theory / Zheng Guanyi, Guo Xiaoyang, Li Zaoyuan, Sun Jinfei // Energies. – 2021. – Vol. 14, Issue 22. – Article No. 7552. – DOI: 10.3390/en14227552
13. Analysing human factors and non-technical skills in offshore drilling operations using FRAM (functional resonance analysis method) / J.E.M. França, E. Hollnagel, I.J.A.L. Dos Santos, A.N. Haddad // Cognition, Technology & Work. – 2021. – Vol. 23, Issue3. – P. 553–566. – DOI: 10.1007/s10111-020-00638-9
14. Manaeva A.R. Pozhary na ob"ektakh neftepererabotki i lokal'nye zony teplovogo vozdeystviya // Prioritetnye napravleniya razvitiya sistemy obespecheniya tekhnosfernoy i pozharnoy bezopasnosti ob"ektov zashchity i territoriy: sb. tr. III Mezhdunar. nauch.-prakt. konf., Khimki, 17–18 maya 2021 g. – Khimki: Akad. grazhdanskoy zashchity M-va Rossiyskoy Federatsii po delam grazhdanskoy oborony, chrezvychaynym situatsiyam i likvidatsii posledstviy stikhiynykh bedstviy, 2022. – S. 61–67.
15. Yakovlev S.Yu., Shemyakin A.S. K otsenke neopredelennosti i riska pri obespechenii kompleksnoy bezopasnosti arkticheskoy zony RF // Ekologiya prom. pr-va. – 2023. – № 4(124). – S. 54–58. – DOI: 10.52190/2073-2589_2023_4_54
16. Pozharnaya opasnost' pri provedenii rabot na skvazhinakh dobychi nefti, gaza i kondensata / S.G. Aksenov, A.S. Ishmeeva, I.N. Gubaydullina, I.N. Gubaydullin // Innovatsionnaya ekonomika: informatsiya, analitika, prognozy. – 2024. – № 3. – S. 142–146. – DOI: 10.47576/2949-1894.2024.3.3.016
17. Issledovanie fraktal'noy struktury vetvey eli metodom chislennogo Fur'e-analiza / O.D. Shnyrkov, E.G. Yashina, K.A. Pshenichnyy, S.V. Grigor'ev // Open Science 2023: sb. tez. X Vseros. molodezh. nauch. foruma s mezhdunar. uchastiem, Gatchina, 15–17 noyab. 2023 g. – Gatchina: Peterb. in-t yadernoy fiziki im. B.P. Konstantinova, 2023. – S. 160.
18. Cherepakhin A.M. Metodika otsenki pozharnoy opasnosti goryuchey sredy na osnove veshchestv, obrashchayushchikhsya na ob"ektakh neftegazovogo kompleksa: dis. … kand. tekhn. nauk: 05.26.03. – Voronezh, 2020. – 179 s.
19. Prakticheskaya realizatsiya primeneniya neyrosetevykh modeley dlya modelirovaniya slozhnykh gazotransportnykh sistem bol'shoy razmernosti / N.A. Kislenko, S.N. Pankratov, V.V. Dedkova [i dr.] // Avtomatizatsiya i informatizatsiya TEK. – 2024. – № 9(614). – S. 33–41.
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