Operation problems of booster pumping stations during the development of the Imilorskoye oil field
https://doi.org/10.31660/0445-0108-2021-4-84-94
Abstract
The article is devoted to the problems of operating a booster pumping station in the process of developing an oil field. During operation, the water cut of the product increases, and accordingly there is a need for engineering solutions that ensure the preservation of the throughput of the site, a decrease in the proportion of water in the oil produced, and a decrease in the workload of the operating technological equipment. The practical significance of the article is due to the solution of the above-described problem by designing a booster pumping station and installing a preliminary water discharge in two independent stages, which will make it possible to put into operation first a booster pumping station, then, as fluid production increases, a preliminary discharge of produced water. This solution allows you to maintain the throughput of the site, to prepare field oil for reception at the central points of reception and preparation of oil. When designing and implementing the first stage, connection points, land acquisition, power supply are provided, taking into account the promising stage. The commissioning of the preliminary water discharge unit solves the problem of maintaining the throughput of the pipeline section to the receiving point and, at the same time, is a source of water for maintaining reservoir pressure.
About the Authors
E. R. Shakirov
KogalymNIPIneftBranch of LUKOIL-EngineeringLLC
Russian Federation
Russian Federation
Evgeny R. Shakirov, Engineer of the 1st category of the Department for the Development and Examination of Information Models of the Design Department of the Design and Survey Work.
Tyumen
N. N. Konushina
KogalymNIPIneftBranch of LUKOIL-EngineeringLLC
Russian Federation
Russian Federation
Natalia N. Konushina, Chief Specialist of the Department for Typification and Unification of Projects in the Direction of the Design and Survey Work.
Tyumen
S. A. Leontiev
Industrial University of Tyumen
Russian Federation
Russian Federation
Sergey A. Leontiev, Doctor of Engineering, Professor at the Department of Development and Exploitation of Oil and Gas Fields.
Tyumen
References
1. Zemenkov, Yu. D., Aleksandrov, M. A., Markova, L. M., Dudin, S. M., Podorozhnikov, S. Yu., & Nikitina, A. V. (2015). Tekhnika i tekhnologii sbora i podgotovki nefti i gaza. Tyumen, Tyumen State Oil and Gas University Publ., 160 p. (In Russian).
2. Sitenkov, V. T. (2007). Tekhnologicheskoe proektirovanie obustroystva neftyanykh mestorozhdeniy. Moscow, VNIIOENG Publ., 456 p. (In Russian).
3. Ishmurzin, A. A., & Khramov, R. A. (2003). Protsessy i oborudovanie sistemy sbora i podgotovki nefti, gaza i vody. Ufa, Ufa State Petroleum Technological University Publ., 143 p. (In Russian).
4. Kasparyants, K. S. (1994). Proektirovanie obustroystva neftyanykh mestorozhdeniy. Samara, SAMVEN Publ., 415 p. (In Russian).
5. Tronov, V. P., & Zakharova, E. F. (2003). Sistemy sbora skvazhinnoy produktsii i pervichnaya podgotovka nefti. Almetyevsk, 59 p. (In Russian).
6. Lutoshkin, G. S. (1979). Sbor i podgotovka nefti, gaza i vody. Moscow, Nedra Publ., 320 p. (In Russian).
7. Kasparyants, K. S., Kuzin, V. I., & Grigoryan, L. G. (1977). Protsessy i apparaty dlya ob"ektov promyslovoy podgotovki nefti i gaza. Moscow, Nedra Publ., 254 p. (In Russian).
8. Kaplan, L. S. (2000). Tekhnologiya i tekhnika vozdeystviya na neftyanoy plast. Ok-tyabrsky, 181 p. (In Russian).
9. Korolev, M. S. (2013). Optimizatsiya sistem podderzhaniya plastovogo davleniya. St. Petersburg, Nedra Publ., 175 p. (In Russian).
10. Baykov, N. M., Pozdnyshev, G. N., & Mansurov, R. I. (1981). Sbor i promyslovaya podgotovka nefti, gaza i vody. Moscow, Nedra Publ., 261 p. (In Russian).
11. Svarovskaya, N. A. (2004). Podgotovka, transport i khraneniya skvazhinnoy produktsii. Tomsk, Tomsk Polytechnic University Publ., 268 p. (In Russian).
12. Yagafarov, A. K., Kleshchenko, I. I., Zozulya, G. P., Zeigman, Yu. V., Rogachev, M. K., & Shlein, G. A. (2010). Razrabotka neftyanykh i gazovykh mestorozhdeniy. Tyumen, Tyumen State Oil and Gas University Publ., 396 p. (In Russian).
13. Eponskiy, V. A. (1987). Ekspluatatsiya sistem zavodneniya plastov. Moscow, Nedra Publ., 193 p. (In Russian).
14. Eronin, V. A. (1973). Podderzhanie plastovogo davleniya na neftyanykh mestorozhdeni-yakh. Moscow, Nedra Publ., 200 p. (In Russian).
15. Leontiev, S. A., Galikeev, R. M., & Tarasov, M. Yu. (2015). Tekhnologicheskiy raschet i podbor standartnogo oborudovaniya dlya ustanovok sistem sbora i podgotovki skvazhinnoy produktsii. Tyumen, Tyumen State Oil and Gas University Publ., 123 p. (In Russian).
16. Tronov, A. V. (2001). Nauchnoe obosnovanie i sozdanie kompleksa tekhnologiy ochistki neftepromyslovykh vod dlya povysheniya effektivnosti razrabotki neftyanykh mestorozhdeniy. Diss. ... dokt. tekhn. nauk. Bugulma, Nedra Publ., 323 p. (In Russian).
17. Zeigman, Yu. V. (2007). Ekspluatatsiya sistem PPD pri razrabotke neftyanykh mestorozhdeniy. Ufa, Neftegazovoe delo Publ., 231 p. (In Russian).
18. Krainova, E. A. (2009). Ekonomika i organizatsiya proektirovaniya neftegazovykh ob''ektov. Moscow, Neft' i gaz Publ., 98 p. (In Russian).
19. Grebnev, V. D. (2012). Stroitel'stvo neftegazopromyslovykh ob''ektov. Perm, 115 p. (In Russian).
20. Zemenkov, Yu. D., Bogatenkov, Yu. V., Gul'kov, A. N., Zemenkova, M. Yu., Tyryl-gin, I. V., Dudin, S. M.,... Petryakov, V. A. (2010). Ekspluatatsiya nasosno-silovogo oborudo-vaniya na ob''ektakh truboprovodnogo transporta. Tyumen, Tyumen State Oil and Gas University Publ., 456 p. (In Russian).
Review
For citations:
Shakirov E.R., Konushina N.N., Leontiev S.A. Operation problems of booster pumping stations during the development of the Imilorskoye oil field. Oil and Gas Studies. 2021;(4):84-94. (In Russ.) https://doi.org/10.31660/0445-0108-2021-4-84-94
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