The use of digital technologies to predict the underwater movement of oil spills
Abstract
The paper presents the results of using digital technologies to predict oil pollution and assess the environmental consequences of accidents at water facilities. The relevance of the work is due to the need to create a mathematical description to assess the parameters of the area of the possible position of petroleum products and to consider among the processes occurring with oil pollution trapped in a body of water, separately identified processes of underwater movement. The aim of the work is to develop a mathematical model of the ascent of petroleum products to a free surface using the example of diesel fuel to assess the negative impact using modern digital technologies. For this purpose, a calculated area with boundary conditions and a grid of the zero-grinding level has been selected. The created model is the basis of the methodology, which is presented in the form of interacting blocks that make up the general description of the forecasting algorithm.
Keywords
underwater movement,
oil spill,
surfacing,
mathematical modeling,
water transport,
environmental protection,
environmental impact assessment,
digital technologies
Supporting agencies: Volga State University of Water Transport
About the Authors
Natalya Sergeevna Rodina
Vodokanal Municipal Enterprise of the Sergachsky Municipal District
Russian Federation
Russian Federation
Occupational Safety Specialist
Andrey Evgenyevich Plastinin
Volga State University of Water Transport
Russian Federation
Russian Federation
Doctor of Technical Sciences, Professor at the Department of Environmental Protection and Industrial Safety
References
1. Kalenkov A.N., Plastinin A.E. Prognozirovanie razlivov nefti s sudov v Amurskom basseine. Nauchnye problemy vodnogo transporta. 2023. no74. pp. 216-228. DOI: 10.37890/jwt.vi74.3414
2. Kazantsev A.Yu. Application of artificial intelligence in preventing and minimizing discharges of oily water from ships. Kaspijskij nauchnyj zhurnal. 2024;2(1): pp 9-20. (In Russ.)
3. Golovatskaia, L.I. Otsenka ploshchadi neftianogo zagriazneniia pri razlivakh gazovogo kondensata v Kaspiiskom more / L.I. Golovatskaia, A.N. Borodin, A. E. Plastinin // Morskie intellektual'nye tekhnologii. 2023. no 2-1(60). pp. 315-319. DOI: 10.37220/MIT.2023.60.2.039. EDN MEQVPB (In Russ.)
4. Reshnjak, V. I., Kazmin K. A. Problema zashhity ot avarijnogo zagrjaznenija pri razlivah nefti. Mezhdunarodnyj nauchno-issledovatel'skij zhurnal. – 2021. – № 5-2(107). – pp. 47-51. – DOI 10.23670/IRJ.2021.107.5.043. – EDN SOSKIP (In Russ.)
5. Jetin, V. L., Vaskin S. V. Klassifikacija razlivov nefti i nefteproduktov po mestu avarii na vnutrennih vodnyh putjah. Neftegazovoe delo. – 2012. – T. 10, № 1. – pp. 94-99. – EDN NNRJUJ (In Russ.)
6. Metody obnaruzhenija i monitoringa podljodnyh razlivov nefti / E. I. Velichko, A. V. Poljakov, V. V. Dubov [i dr.] // Novye idei v geologii nefti i gaza. Novaja real'nost' 2021: Sbornik nauchnyh trudov (po materialam Mezhdunarodnoj nauchno-prakticheskoj konferencii), Moskva, 27–28 maja 2021 goda / Otv. redaktor A.V. Stupakova. – Moskva: Izdatel'stvo "Pero", 2021. – pp. 66-71. – EDN QIZSOK (In Russ.)
7. Reshnjak, V. I. Opyt organizacii i ispol'zovanija tehnicheskih sredstv dlja likvidacii avarijnyh razlivov nefti. Vestnik gosudarstvennogo universiteta morskogo i rechnogo flota im. admirala S.O. Makarova. – 2018. – М. 10, № 2. – pp. 287-299. – DOI: 10.21821/2309-5180-2018-10-2-287-299. – EDN OSVVCX (In Russ.)
8.
9. Dubinov Ju. S., Prygaev A. K., Pomylka I. O., Anashkin N. V. Tehnologija izgotovlenija sorbenta dlja likvidacii razlivov nefti i markerov nefti iz borshhevika Sosnovskogo. Inzhener-neftjanik. – 2022. – № 2. – pp. 55-59. – EDN EKWMJP (In Russ.)
10. Kalenkov, Aleksandr Nikolaevich. Sovershenstvovanie ocenki antropogennogo vozdejstvija na okruzhajushhuju sredu razlivov nefti pri jekspluatacii rechnyh sudov: avtoreferat dis. ... kandidata tehnicheskih nauk: 03.02.08 / Kalenkov Aleksandr Nikolaevich; [Mesto zashhity: Volzh. gos. akad. vod. transp.]. - Nizhnij Novgorod, 2011. - 20 p. (In Russ.)
11. D. Bessette, M. Rutty, G. Gunn, V. Tarabara, R. Richardson. The perceived risk of the Line 5 Pipeline and spills under ice. J. Great Lakes Res., 47 (1) (2021), pp. 226-235. DOI: 10.1016/j.jglr.2020.12.002. (In Russ.)
12. Predicting the Underwater Movement of Diesel Fuel in the Event of a Ship Sinking/ V. Naumov, A. Plastinin, A. Kalenkov, N. Rodina// International Scientific Siberian Transport Forum TransSiberia – 2021. Ser. «Lecture Notes in Networks and Systems». Switzerland, 2022. Vol. 402-1. P. 1086–1094. DOI: 10.1007/978-3-030-96380-4_119 (In Russ.)
13. Zhu, H., You, J. and Zhao, H. (2017) An Experimental Investigation of Underwater Spread of Oil Spill in a Shear Flow. Marine Pollution Bulletin, 116, pp.156-166. DOI: 10.1016/j.marpolbul.2017.01.002
14. Problemy ekonomicheskoi bezopasnosti: novye global'nye vyzovy i tendentsii / L. M. Anokhin, N. V. Anokhina, O. G. Arkad'eva [i dr.]; Ministerstvo nauki i vysshego obrazovaniia Rossiiskoi Federatsii; IUzhno-Ural'skii gosudarstvennyi universitet; Kafedra «Ekonomicheskaia bezopasnost'». CHeliabinsk: IUzhno-Ural'skii gosudarstvennyi universitet (natsional'nyi issledovatel'skii universitet), 2021. 715 p. (In Russ.)
15. Miliutina M.IU., Makarova E.V., Ivanova IU.V., Men'kov N.V., Plastinina S.S. Rannee sosudistoe starenie u lits, rabotaiushchikh v usloviiakh vozdeistviia promyshlennogo aerozolia // Meditsina truda i promyshlennaia ekologiia. 2019. T. 59. no 10. pp. 855-859. (In Russ.)
16. Problemy ekonomicheskoi bezopasnosti: vyzovy novoi real'nosti / E.V. Alekseeva, V.V. Bekher, T.A. Verezubova [i dr.]; Ministerstvo nauki i vysshego obrazovaniia Rossiiskoi Federatsii; IUzhno-Ural'skii gosudarstvennyi universitet; Kafedra «Ekonomicheskaia bezopasnost'». CHeliabinsk: IUzhno-Ural'skii gosudarstvennyi universitet (natsional'nyi issledovatel'skii universitet), 2023. 732 p. (In Russ.).
Review
For citations:
Rodina N.S., Plastinin A.E. The use of digital technologies to predict the underwater movement of oil spills. Kaspijskij nauchnyj zhurnal. 2024;(4(5)):2-12. (In Russ.)
Views:
124
Email this article 