Study of the "aquifer-well" geotechnogenic system using precision observations at the water intakes of Tyumen region
https://doi.org/10.31660/0445-0108-2020-4-8-20
Abstract
An express research method is presented for studying the geotechnogenic system "aquifer-well" in solving problems of hydrogeology. The express method is based on the use of precision water level measurements. The scope of its application and relevance in modern conditions аre shown. Express pumping was performed at water bodies of Tyumen region, where an assessment (revaluation) of fresh underground water reserves was carried out. A comparative analysis of the results of express and traditional methods showed good convergence. The use of express pumping in the practice of hydrogeological research on small water bodies is the only tool for obtaining raw materials for the calculation (recalculation) of fresh groundwater reserves and makes it possible to reduce material costs when performing pilot filtration work. The recording of changes in the values of the conductivity coefficient by means of precision measurements of the water level during express pumping in monitoring studies allows you reliable and timely detection of changes in the filtration medium.
About the Authors
A. R. Kurchikov
Industrial University of Tyumen;
West Siberian Institute of Oil and Gas Geology of Industrial University of Tyumen
Russian Federation
Russian Federation
Arkadiy R. Kurchikov, Doctor of Geology and Mineralogy, Corresponding Member, Russian Academy of Sciences, Professor, Head of the Department of Geology of Oil and Gas Fields, Industrial University of Tyumen, Director of West Siberian Division of Trofimuk Institute of Petroleum-Gas Geology and Geophysics of the Siberian Branch of the Russian Academy of Sciences
Tyumen
V. I. Kozyrev
West Siberian Division of Trofimuk Institute of Petroleum-Gas Geology and Geophysics of the Siberian Branch of the Russian Academy of Sciences;
West Siberian Institute of Oil and Gas Geology of Industrial University of Tyumen
Russian Federation
Russian Federation
Vladimir I. Kozirev, Head of Laboratory, West Siberian Institute of Oil and Gas Geology of Industrial University of Tyumen, Researcher, West Siberian Division of Trofimuk Institute of Petroleum-Gas Geology and Geophysics of the Siberian Branch of the Russian Academy of Sciences
Tyumen
References
1. Kozyrev, V. I. (1990). Formirovanie gidravlicheskikh poter' na fil'trakh skvazhin pri otbore podzemnykh vod. Mezhv. sbornik nauchnykh trudov. Tyumen, Tyumen State University Publ., pp. 42-48. (In Russian).
2. Zenkov, N. I., Kozyrev, V. I., Kostylev, S. L., Reznik, A. D., & Shutov, M. S. (1985). Metodika provedeniya opytno-fil'tratsionnykh rabot na uchastkakh deystvuyushchikh vodozaborov posredstvom pretsizionnykh gidroproslushchivaniy. Kompleksnoe osvoenie mineral'no-syr'evykh resursov Zapadnoy Sibiri: sbornik. Trudy ZapSibNIGNI, (197), Tyumen, pp. 76-78. (In Russian).
3. Kopylova, G. N., Lyubushin, A. A., & Boldina, S. V. (2019). Statistical analysis of precision water level data observations in a seismically active region (on example of the YuZ-5 well, Kamchatka). Seismic Instruments, 55(1), pp. 5-28. (In Russian). DOI: 10.21455/si2019.1-1
4. Voleysho, V. O., Kulikov, G. V., & Krupoderova, O. E. (2007). Geodinamicheskiy rezhim Kamchatsko-Kuril'skogo i Sakhalinskogo seysmoaktivnogo regiona po dannym GGD-monitoringa. Prospect and protection of mineral resources, (5), pp. 20-24. (In Russian).
5. Kopylova, G. N., Boldina, S. V., Smirnov, A. A., & Chubarova, E. G. (2016). An experience in registration of water level and physical and chemical parameters of ground waters in the wells due to strong earthquakes (on the example of Kamchatka). Seismic Instruments, 52(4), pp. 43-56. (In Russian). DOI: 10.21455/si2016.4-4
6. Kulikov, G. V., & Ryzhov, А. А. (2011). Earthquake prediction based on the hydrogeodeformation field monitoring data. Geodynamics & Tectonophysics, 2(2), pp. 194-207. (In Russian). DOI: 10.5800/GT-2011-2-2-0041
7. Gorbunova, E. M., Besedina, A. N., Vinogradov, E. A., Kabychenko, N. V., & Svintsov, I. S. (2015). Metodicheskie aspekty pretsizionnogo gidrogeologicheskogo monitoringa platformennykh territoriy (na primere geofizicheskoy observatorii IDG RAN "Mikhnevo"). Moscow, pp. 348-352. (In Russian).
8. Adushkin, V. V., Ovchinnikov, V. M., Sanina, I. A., & Riznichenko, O. Y. (2016). Mikhnevo: from seismic station no. 1 to a modern geophysical observatory. Izvestiya. Physics of the Solid Earth, 52(1), pp. 105-116. (In English).
9. Kaplan, A. Yu., & Pashnin, A. Yu. (2007). Analiz rezul'tatov ispol'zovaniya avtomatizirovannykh sredstv izmereniy pri vedenii monitoringa podzemnykh vod. Prospect and protection of mineral resources, (7), pp. 35-38. (In Russian).
10. Lyubushin, A. A., Malugin, V. A., & Kazantseva, O. S. (1997). Monitoring of tidal variations of the underground water level in a group of water-bearing horizons. Izvestiya. Physics of the Solid Earth, 33(4), pp. 302-313. (In English).
11. Bagmet, A. L., Bagmet, M. I., Barabanov, V. L., Grinevskiy, A. O., Kissin, I. G., Malugin, V. A., Rukavishnikova, T. A., & Savin, I. V. (1989). Issledovanie zemnoprilivnykh kolebaniy urovnya podzemnykh vod na skvazhine "Obninsk". Izvestiya. Physics of the Solid Earth, (11), pp. 84-95. (In Russian).
12. Kozyrev, V. I. (1985). Pretsizionnye nablyudeniya v opytno-fil'tratsionnykh issledovaniyakh. Materialy Vsesoyuznogo soveshchaniya po podzemnym vodam Vostoka SSSR. Irkutsk - Chita, VSEGINGEO, PGO "CHITAGEOLOGIYA" Publ., pp. 87-88. (In Russian).
13. Kozyrev, V. I. (1986). Sposob opredeleniya fil'tratsii podzemnykh vod. Udostoverenie na ratsionalizatorskoe predlozhenie No 21/86. Tyumen, ZapSibNIGNI Publ. (In Russian).
14. Zenkov, N. I., Kozyrev, V. I., Kostylev, S. L., Reznik, A. D., & Shutov, M. S. (1985). Otsenka osnovnykh gidrogeologicheskikh parametrov pri nestatsionarnom rezhime fil'tratsii. Kompleksnoe osvoenie mineral'no-syr'evykh resursov Zapadnoy Sibiri: sbornik. Trudy ZapSibNIGNI, (197). Tyumen, pp. 79-81. (In Russian).
15. Kozyrev, V. I. (2008). Supply of West Siberia oil fields with underground fresh water in the middle ob area. New of Higher Education. Neft' I Gas, (5), 1-9. (In Russian).
16. Kozyrev, V. I. (1991). Gidrogeologicheskie issledovaniya vodozabornykh skvazhin. Sovershenstvovanie metodov izucheniya i optimal'noe osvoenie podzemnykh flyuidnykh sistem: sbornik trudov. Tyumen, ZapSibNIGNI Publ., pp. 78-80. (In Russian).
17. Kozyrev, V. I., & Reznik, A. D. (1986). Elektrourovnemer. Udostoverenie na ratsionalizatorskoe predlozhenie No 12/86. Tyumen. (In Russian).
18. Matusevich, V. M. (1984). Gidrogeologicheskie basseyny Zapadno-Sibirskoy ravniny. Materialy Mezhdunarodnogo geologicheskogo kongressa. 27th sessiya. Tom IX, chast' 2. Moscow, Nauka Publ., pp. 373-374. (In Russian).
19. Matusevich, V. M., Ryl'kov, A. V., & Ushatinskiy, I. N. (2005). Geoflyuidal'nye sistemy i problemy neftegazonosnosti Zapadno-sibirskogo megabasseyna. Tyumen, Tyumen State Oil and Gas University Publ., 225 p. (In Russian).
20. Kurchikov, A. R., & Kozyrev, V. I. (2015). Izuchenie sostoyaniya fil'tratsionnoy sredy eotsen-chetvertichnogo gidrogeologicheskogo kompleksa Zapadno-Sibirskogo megabasseyna. Zashchita okruzhayushchey sredy v neftegazovom komplekse, (5), pp. 33-37. (In Russian).
Review
For citations:
Kurchikov A.R., Kozyrev V.I. Study of the "aquifer-well" geotechnogenic system using precision observations at the water intakes of Tyumen region. Oil and Gas Studies. 2020;(4):8-20. (In Russ.) https://doi.org/10.31660/0445-0108-2020-4-8-20
Views:
459
Email this article 
Post a Comment 