Scientific and technical journal
«Environmental protection in oil and gas complex»
ISSN 2411-7013
Back to issue Airborne laser scanning as a promising method for identifying oil as a pollutant
UDC: 550.814:622.8:665.6
DOI: -
Authors:
1,2,1,3,41 Arctic Research and Design Center for Continental Shelf Development, Moscow, Russia
2 Rosneft, Moscow, Russia
3 TomskNIPIneft, Tomsk, Russia
4 Tomsk Polytechnic University, Tomsk, Russia
Keywords: remote sensing of the Earth, oil pollution of the Earth's surface, land reclamation, airborne laser scanning, space photography, aerial photography, oil production, transportation of oil and oil products
Annotation:
The authors of the article analyze the methodology for identifying oil as a pollutant on different underlying surfaces: soil and natural water. The use of airborne laser scanning beams and aerial photography based on an unmanned aerial vehicle is considered as an instrument for identifying pollution. It is noted that importance of the study is caused by the problem of oil pollution false identification on the Earth's surface when using conventional remote sensing methods such as interpretation of satellite space imagery materials. The factors causing false identification of oil pollution when using space imagery materials and associated costs were determined. In order to eliminate existing problems that can arise in the course of searching for oil pollution, a new method for using the complexity of airborne laser scanning and aerial photography materials is proposed. The effectiveness of the proposed method is supported by the results of analytical and practical research. The scientific novelty of the study lies in the innovative method of using airborne laser scanning data when searching for oil pollution; the practical significance of the study – the possibility of using the proposed method when carrying out measures of oil-contaminated lands inventory, which will increase efficiency by reducing labor, time and financial costs.
Bibliography:
1. Bessel' V.V., Lopatin A.S., Martynov V.G. K voprosu otsenki zapasov uglevodorodov v mire i Rossii // Trudy Rossiyskogo gosudarstvennogo universiteta nefti i gaza imeni I.M. Gubkina. – 2024. – № 4(317). – S. 5–16.2. Ob okhrane okruzhayushchey sredy: Federal'nyy zakon ot 10.01.2002 g. № 7 (red. ot 31.07.2024). – URL: https://www.consultant.ru/document/cons_doc_LAW_34823/ (data obrashcheniya 17.02.2025).
3. O provedenii rekul'tivatsii i konservatsii zemel': postanovlenie pravitel'stva RF ot 10.07.2018 g. № 800. – URL: https://base.garant.ru/71985800/ (data obrashcheniya 17.02.2025).
4. Ministerstvo energetiki Rossiyskoy Federatsii. – URL: www.mnr.gov.ru (data obrashcheniya 18.02.2025).
5. Bobova M. Sostoyanie truboprovodov v Rossii: staroe protiv novogo // Dobyvayushchaya promyshlennost'. – 2020. – № 6(24). – S. 74–80. – URL: https://dprom.online/oilngas/sostoyanie-truboprovodov-v-rossii-staroe-protiv-novogo/ (data obrashcheniya 18.02.2025).
6. Kochetova Zh.Yu. Ekomonitoring nefti i nefteproduktov v ob"ektakh okruzhayushchey sredy: monografiya. – Voronezh: VUNTs Voenno-vozdushnykh sil "Voenno-vozdushnaya akademiya im. N.E. Zhukovskogo i Yu.A. Gagarina", 2016. – 204 s.
7. Marsh Loss Due to Cumulative Impacts of Hurricane Isaac and the Deepwater Horizon Oil Spill in Louisiana / S. Khanna, M.J. Santos, A. Koltunov [et al.] // Remote Sensing. – 2017. – Vol. 9, Issue 2. – P. 169. – DOI: 10.3390/rs9020169
8. Kenzhegariev S.E. Vliyanie neftezagryazneniya na vosstanovlenie ekologicheskikh sistem // Vestnik MANEB. – 2018. – T. 23, № 2. – S. 86–88.
9. Ob utverzhdenii Pravil organizatsii meropriyatiy po preduprezhdeniyu i likvidatsii razlivov nefti i nefteproduktov na territorii Rossiyskoy Federatsii, za isklyucheniem vnutrennikh morskikh vod Rossiyskoy Federatsii i territorial'nogo morya Rossiyskoy Federatsii, a takzhe o priznanii utrativshimi silu nekotorykh aktov Pravitel'stva Rossiyskoy Federatsii: postanovlenie Pravitel'stva RF ot 31.12.2020 g. № 2451. – URL: http://publication.pravo.gov.ru/Document/View/0001202101090019 (data obrashcheniya 18.02.2025).
10. Ob organizatsii preduprezhdeniya i likvidatsii razlivov nefti i nefteproduktov na kontinental'nom shel'fe Rossiyskoy Federatsii, vo vnutrennikh morskikh vodakh, v territorial'nom more i prilezhashchey zone Rossiyskoy Federatsii: postanovlenie Pravitel'stva RF ot 30.12.2020 g. № 2366. – URL: http://publication.pravo.gov.ru/Document/View/0001202101040014 (data obrashcheniya 18.02.2025).
11. Slepnev V.N., Shestakov R.Y., Maksimenko A.F. Fundamentals of improving the system for predicting the consequences of accidents at main pipeline facilities // Ecology, environmental protection, carbon neutrality and development: Sino-Russian ASRTU symposium: Sollection of works, Moscow, June 02, 2022 / Compilers: Yu.S. Dubinov, O.B. Dubinova, V.A. Fedorova, ed. by A.F. Maximenko. – M.: Rossiyskiy gosudarstvennyy universitet nefti i gaza (natsional'nyy issledovatel'skiy universitet) imeni I.M. Gubkina, 2022. – P. 82–93.
12. Analiz zakonodatel'stva v oblasti organizatsii meropriyatiy po preduprezhdeniyu i likvidatsii razlivov nefti i nefteproduktov na ob"ektakh Arkticheskoy zony Rossiyskoy Federatsii / R.Yu. Shestakov, S.Yu. Ryazantsev, O.A. Poryadina, N.A. Pavlova // Neftyanoe khozyaystvo. – 2024. – № 9. – S. 147–152. – DOI: 10.24887/0028-2448-2024-9-147-152
13. Alekseeva M.N., Yashchenko I.G. Sputnikovyy monitoring sostoyaniya okruzhayushchey prirodnoy sredy v zone vozdeystviya neftegazovogo kompleksa Tomskoy oblasti // Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa. – 2022. – T. 19, № 1. – S. 158–169. – DOI: 10.21046/2070-7401-2022-19-1-158-169
14. Informatsionno-algoritmicheskoe obespechenie geoekologicheskogo zonirovaniya neftezagryaznennykh territoriy / V.P. Meshalkin, A.F. Maksimenko, O.A. Mishina, S.V. Ostakh // Zashchita okruzhayushchey sredy v neftegazovom komplekse. – 2024. – № 2(317). – S. 44–49.
15. Otsenka ob"emov vyrubki lesa s ispol'zovaniem dannykh distantsionnogo zondirovaniya Zemli / A.V. Starovoytov, A.V. Fattakhov, E.A. Yachmeneva [i dr.] // Uchenye zapiski Kazanskogo universiteta. Seriya: Estestvennye nauki. – 2021. – T. 163, № 4. – S. 591–602. – DOI: 10.26907/2542-064X.2021.4.591-602
16. Marzialetti P., Laneve G. Oil spill monitoring on water surfaces by radar L, C and X band SAR imagery: A comparison of relevant characteristics // Proceedings of the 2015 IEEE International Geoscience and Remote Sensing Symposium (IGARSS), Beijing, China, July 10–15, 2016. – P. 7715–7717. – DOI: 10.1109/IGARSS.2016.7731012
17. Analysis of the reflectance spectra of oil emulsion spilled on the sea surface / G. Sicot, M. Lennon, V. Miegebielle, D. Dubucq // Proceedings of SPIE. Vol. 9240. Remote Sensing of the Ocean, Sea Ice, Coastal Waters, and Large Water Regions 2014, Amsterdam, Netherlands, Oct. 14, 2014. – DOI: 10.1117/12.2067204
18. Gordienko A.S., Kulik E.S. Dannye distantsionnogo zondirovaniya Zemli pri otsenke ekologo-ekonomicheskogo ushcherba ot zagryazneniy okruzhayushchey sredy neft'yu // Vestnik SGUGiT (Sibirskogo gosudarstvennogo universiteta geosistem i tekhnologiy). – 2021. – T. 26, № 2. – S. 37–46. – DOI: 10.33764/2411-1759-2021-26-2-37-46
19. Akovetskiy V.G., Afanas'ev A.V., Lavrenchuk V.A. Geoekologicheskie riski i promyshlennaya bezopasnost' neftegazovogo kompleksa: geoinformatsionnye aspekty // Zashchita okruzhayushchey sredy v neftegazovom komplekse. – 2024. – № 5(320). – S. 45–54.
20. Rilsky I.I., Kalinkin I.V. Feasibility Comparison of Airborne Laser Scanning Data and 3D-Point Clouds Formed from Unmanned Aerial Vehicle (UAV)-Based Imagery Used for 3D Projecting // Proceedings of the International conference "InterCarto. InterGIS". – 2017. – Vol. 23, Issue 3. – P. 31–46. – DOI: 10.24057/2414-9179-2017-3-23-31-46
21. Novakovskiy B.A., Kudryavtsev A.V., Entin A.L. Programmnoe obespechenie dlya geoinformatsionnoy obrabotki dannykh vozdushnogo lazernogo skanirovaniya // Geoinformatika. – 2020. – № 4. – S. 2–11. – DOI: 10.47148/1609-364X-2020-4-2-11