Scholarly record
DEVELOPMENT AND RESEARCH OF GRID MODELS OF OIL PRODUCT LEAKS FROM AREAL OBJECTS OF THEIR STORAGE AND PROCESSING
Abstract
The presented article is devoted to the development of equivalent models of geological environments based on the grid method, taking into account possible oil pollution resulting from emergencies at oil storage and oil refining facilities and amounting to about 25% of the total share of leaks, as a result of which an average of 2% to 10% of extracted raw materials is lost annually in the world. The main sources of emergencies at oil storage and oil refining facilities are examined, and it is shown that their result is oil product lenses formed under objects in the oil industry, which in some cases can reach an area of several hundred square kilometers and lead to significant environmental pollution. The well-known approaches to the analytical description of models of geological environments are shown, their most important advantages and disadvantages are given. The advantages of using the electric grid method for replacing models of various media with equivalent circuits are shown, which serve as the basis for constructing the transfer functions of a geoelectric section, the use of which simplifies the geodynamic assessment of the variations of individual objects of study based on the analysis of model changes in their coefficients. Using this method, equivalent models of leakage of oil products into geological environments with various electrical parameters that affect the volume of oil pollution and the dynamics of their development have been obtained; basic relationships for the tensor of electrical resistances of a particle of a medium in a state of geodynamic rest are given and examples of using the obtained results are also given.
Publication Impact Profile
Publication details
References17
Mescherjakov S.V. Environmental problems in the fuel and energy complex of Russia / Chemistry and technology of fuels and oils. - 2000, № 2. - Pp. 12-14.
Parenaga O.P., Davidova S.L., Environmental problems of oil chemistry / Petrochemistry. - 1990, v.39, № 1.
Akhmetova T.I., Mukhutdinova T.Z., Mukhutdinov A.A. Problems of analytical control of environmental objects in the area of petrochemical production / Ecology and industry in Russia. - 2001.
Syroedov N.E., Popov A.V., Environmental problems during storage and transportation of petroleum products / СNIIT Neftehim. - Moscow. - 1994. - 58 p.
Antipyev V.N., Bakhmat G.V. Storage of oil and petroleum products. Under general supervision of Zemenkov Y.D. / M.: FGUP Publishing «Oil and gas» RGU oil and gas nam. by Gubkin I.M.- 2003. – 560 p.
Slaschova A.V. Sources of environmental pollution with oil products / Security issues in emergency situations, № 9. - 1997. - Pp. 54-59.
Burlaka, S.D., Polevschikova K.D. The main reasons for losses of petroleum products during storage at low-tonnage oil depots / Proceedings KubGTU, № 1. - 2019. – Pp. 20-25.
Salnikov A.V., Oil and petroleum product losses / Ukhta: UGTU. - 2012. — № 2. - 108 p.
Konstantinov N.A. Oil and petroleum product losses / M.: subsurface. - 1991.
Borisova E.S. Characteristics of oil and petroleum product losses and measures to reduce them / Global & Regional Research. - 2019. Vol. 1, № 4. – Pp.24-27.
Fedorov V.N., Fedorova L.L., Sokolov K.O. Two-dimensional electrodynamic model of an inhomogeneous medium with losses / Advances in current natural sciences. -№ 10. - 2018. - Pp. 132-137.
Zaborovskiy A.I. Electrical exploration / State scientific and technical publishing house of oil and mining and fuel literature. - Moscow. - 1963.
Magomedov K.M., Kholodov A.S. Grid-characteristic numerical methods / M.: Science. - 1988.
Vasilyev G.S., Kuzichkin O.R., Grecheneva A.V., Dorofeev N.V., Surzhik D.I., Analysis of the combined transfer functions for geotechnical control / International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM. – 2018. - 18(1.2). - Pp. 43-50.
Baknin M.D., Kuzichkin O.R., Grecheneva A.V., Dorofeev N.V., Surzhik D.I., Geoelectrical modeling of local geodynamic stations in the system of geotechnical monitoring. / Dynamics of complex systems-XXI century. - 2018, Vol. 12, №4. - Pp.25-33.
Dorofeev N.V., Kuzichkin O.R., Grecheneva A.V., Baknin M.D. The forecasting of the development of suffosion processes in urban on the basis of the geoelectric modeling by the data of the phasometric system of the geodynamic control / International Journal of Engineering and Technology (UAE). - Vol.7. - 2018. - Pp. 268-275.
Kuzichkin O.R., Grecheneva A.V., Gakhov R.P., Dorofeev N.V., Gakhov B.R., Development And Research of the Geoelectric Model of the Local Zone of Geodynamic Control / Actatechnicacsav (Ceskoslovenskaka demieved), AkademieVed Ceske Republiky. - 2017.- 56 p.
View or Download full articleAccess options
SWS access login
Login as SWS Scientific CommitteeLogin as SWS Scientific PartnerLogin as SWS AuthorAuthors and approved SWS contributors will read and export their own linked papers after identity matching by SWS profile, email and SGEM GlobalID.
For librarian assistance: [email protected]
Purchase Instant Access
- Article can be downloaded after successful payment.
- Article may be used according to SWS library access terms.
- Article cannot be redistributed.

