Peculiarities of performance of experimental filtering works in sites subsoil operated by single water intakes

The article discusses the methods used in the field experimental filtration work, which allow you to gain knowledge about the filtration properties and water abundance of rocks. The features of the experimental filtration work in the subsoil areas operated by single water intakes are shown. It is noted that these are small water bodies, both in terms of the number of water wells and the amount of actual water withdrawal. The article proposes to use short-term single pumpings as a field research method in the above-mentioned areas, according to the results of which it is possible to substantiate the amount of required water withdrawal and determine the calculated values of the water conductivity coefficient. As an example, the results of pumping are considered, obtained during the implementation of experimental filtration work at three single water intakes located within the Latitude Ob region. The results of the experimental filtration work served as the source material for calculating the reserves of fresh groundwater. Fresh groundwater reserves were calculated and approved for each site in the amount of 499 m³/day for category B.

1. Bindeman, N. N., & Yazvin, L. S. (1970). Otsenka ekspluatatsionnykh zapasov podzemnykh vod. Moscow, Nedra Publ., 216 p. (In Russian).

2. Bochever, F. M., Garmonov, I. V., Lebedev, A. V., & Shestakov, V. M. (1965). Osnovy gidrogeologicheskikh raschetov. Moscow, Nedra Publ., 308 p. (In Russian).

3. Klimentov, P. P., & Kononov, V. M. (1989). Metodika gidrogeologicheskikh issledovaniy. 2 nd edition, revised and expanded. Moscow, Vysshaya shkola Publ., 448 p. (In Russian).

4. Klimentov, P. P., & Kononov, V. M. (1985). Dinamika podzemnykh vod. 2 nd edition, revised and expanded. Moscow, Vysshaya shkola Publ., 384 p. (In Russian).

5. Shestakov, V. M. (1979). Dinamika podzemnykh vod. 2 nd edition, revised and expanded. Moscow, Moscow State University Publ., 368 p. (In Russian).

6. Shestakov, V. M., & Bashkatov, D. N. (Eds.) (1974). Opytno-fil'tratsionnye raboty. Moscow, Nedra Publ., 202 p. (In Russian).

7. 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).

8. Kozyrev, V. I., Timusheva, L. V., Druzhinin, I. A., & Serchenya, A. V. (2009). Osobennosti gidrogeologicheskih issledovaniy pri otsenke ekspluatatsionnyh zapasov presnyh podzemnyh vod na uchastkah nedr, ekspluatiruemyh odinochnymi vodozaborami (mestorozhdeniya nefti Shirotnogo Priob'ya). materialy Vserossiyskogo soveshchaniya po podzemnym vodam vostoka Rossii (XIX Soveshchanie po podzemnym vodam Sibiri i Dal'nego Vostoka), June, 22-25, 2009. Tyumen, Tyumenskiy dom pechati OJSC Publ., pp. 238-241. (In Russian).

9. Kozyrev, V. I. (2008). Supply of West Siberia oil fields with underground fresh water in the Middle Ob area. Higher Educational Institutions News. Neft' i Gas, (5), pp. 4-8. (In Russian).

10. Kurchikov, A. R., & Kozyrev, V. I. (2020). Study of the "aquifer-well" geotechnogenic system using precision observations at the water intakes of Tyumen region. Oil and Gas Studies, (4), pp. 8-20. (In Russian). DOI: 10.31660/0445-0108-2020-4-8-20

11. 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).

12. 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).

13. 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 gidroproslushivaniy. Kompleksnoe osvoenie mineral'no-syr'evykh resursov Zapadnoy Sibiri. Trudy ZapSibNIGNI, Vyp. 197. Tyumen, pp. 76-78. (In Russian).

14. Matusevich, V. M., Rylkov, A. V., & Ushatinskiy, I. N. (2005). Geofluid systems and oil and gas problems of the West Siberian megabasin. Tyumen, Tyumtn State Oil and Gas University Publ., 225 p. (In Russian).

15. Borevskiy, B. V., Samsonov, B. G. & Yazvin, L. S. (1973). Metodika opredeleniya parametrov vodonosnykh gorizontov po dannym otkachek. Moscow, Nedra Publ., 304 p. (In Russian).

16. Sindalovskiy, L. N. (2006). Spravochnik analiticheskikh resheniy dlya interpretatsii opytno-fil'tratsionnykh oprobovaniy. St. Petersburg, St. Petersburg State University Publ., 796 p. (In Russian).

17. Mironenko, V. A., & Shestakov, V. M. (1978). Teoriya i metody interpretatsii opytnofil'tratsionnykh rabot. Moscow, Nedra Publ., 325 р. (In Russian).

18. Plotnikov, N. I. (1973). Poiski i razvedka presnykh podzemnykh vod. Moscow, Nedra Publ., 368 p. (In Russian).

19. Plotnikov, N. I. (1973). Ekspluatatsionnaya razvedka podzemnykh vod. Moscow, Nedra Publ., 296 p. (In Russian).

20. Mironenko, V. A. (2001). Dinamika podzemnykh vod. Moscow, Moscow State University Publ., 519 p. (In Russian).