Investigating the rodless technology of oil and gas fluid production in deviated wells

The article presents the results of field trials of an experimental plunger submersible pumping unit on a directional well at the Romashkino oil field. The authors compare the performance parameters (electricity consumption and torque developed by the drive during steady-state operation) of the rodless oil production technology to the use of rod pump units and traditional pumping units.
It is dealt with the inclinometric parameters of the wellbore, certain characteristics of energy consumption, as well as data on the torque developed during operation on the drive shaft of an experimental plunger submersible pumping unit obtained during field trials.
The authors of the article considered the experimental results obtained and came to the conclusion that the new rodless technology of oil production fundamentally proves its performance under operating conditions in a directional well, and the energy indicators confirm the efficiency and significantly exceed installations based on rod pumps.

1. Mishchenko, I. T. (2003). Skvazhinnaya dobycha nefti. Moscow, Neft' i Gaz Gubkin University Publ., 816 p. (In Russian).

2. Mishchenko, I. T., & Bravicheva, T. B. (2002). Vybor ratsional'nogo sposoba ekspluatatsii skvazhin neftyanykh mestorozhdeniy s trudnoizvlekaemymi zapasami. Moscow, Gubkin University Publ., 120 p. (In Russian).

3. Mishchenko, I. T. Vybor sposoba ekspluatatsii skvazhin neftyanykh mestorozhdeniy s trudnoizvlekaemymi zapasami. Moscow, Neft' i Gaz Gubkin University Publ., 448 p. (In Russian).

4. Adonin, A. N. (1964). Protsessy glubinnonasosnoy neftedobychi. Moscow, Nedra Publ., 264 p. (In Russian).

5. Yakupov, R. N., Khalimov, R. R., & Vildanov, K. Kh. (2009). Results of pilot operation of electrical submersible pump with new generation control stations. Oil Industry, (8), pp. 86-88. (In Russian).

6. Abdullin, A. F., Abdulin, I. K., Sokolyanskaya, E. V., & Yudchits, V. V. (2018). Short-term-periodic work of wells in the deposits of LLC "LUKOIL-Western Siberia". Experience of implementation and prospects of development. Oilfield Engineering, (10), pp. 20-25. (In Russian). DOI: 10.30713/0207-2351-2018-10-20-25

7. Dudin, E. Yu. (2019). Vybor i obosnovanie optimal'nykh pokazateley raboty UETSN, v rezhime periodicheskoy ekspluatatsii na mestorozhdeniyakh Rossii: magisterskaya dissertatsiya. Tomsk, 127 p. (In Russian).

8. Sukhoteplyy, V. P. (2010). Privody na osnove ventil'nykh elektrodvigateley v sostave UETSN pri ekspluatatsii malodebitnogo fonda skvazhin. Inzhenernaya praktika, (7), pp. 91-95. (In Russian).

9. Ivanovsky, V. N. (2004). The maximum and minimum allowable rotational speeds of the ESP rotor when regulating production capabilities using frequency converters. The XII All-Russian technical conference "Production and operation of ESPs". Almetyevsk, pp. 6-23. (In Russian).

10. Sundetov, M. E. (2016). Determining the effectiveness of periodic operation of a marginal well stock on the example of the Shinginskoye field. Problems of geology and subsoil development: Proceedings of the XXI International Symposium named after Academician M.A. Usov of students and young scientists, dedicated to the 120th anniversary of the birth of Professor M.I. Kuchina. Volume 2. Tomsk, Tomsk Polytechnic University Publ., pp. 1096-1099. (In Russian).

11. Dem'yanova, L. A., & Drozdov, A. N. (2000). Teoriya, eksperimental'nye issledovaniya i raschet struynykh apparatov pri otkachke gazozhidkostnykh smesey. Moscow, Gubkin University Publ., 184 p. (In Russian).

12. Ishmurzin, A. A. (2008). Energosberegayushchie tekhnologii dobychi nefti iz malodebitnykh naklonno-napravlennykh skvazhin. Ufa, Neftegazovoe delo Publ., 238 p. (In Russian).

13. Urazakov, K. R., Timashev, E. O., Molchanova, V. A., & Volkov, M. G. (2020). Spravochnik po dobyche nefti. Perm, Aster Plyus Publ., 600 p. (In Russian).

14. Kalinin, A. G. (1974). Iskrivlenie skvazhin. Moscow, Nedra Publ., 304 p. (In Russian).

15. Kalinin, A. G., Nikitin, B. A., Solodkiy, K. M., & Sultanov, B. Z. (1997). Burenie naklonnykh i gorizontal'nykh skvazhin: cpravochnik. Moscow, Nedra Publ., 647 p.

16. Oganov, S. A., Abdrakhmanov, G. S., Perov, A. V., & Oganov, G. S. (1998). Proektirovanie profilya i konstruktsii naklonno napravlennoy pologoy skvazhiny. Construction of Oil and Gas Wells on Land and Sea, (12), pp. 3-8. (In Russian).

17. Ovchinnikov, V. P., Dvoynikov, M. V., Gerasimov, G. T., & Ivantsov, A. Yu. (2008). Tekhnologii i tekhnologicheskie sredstva bureniya iskrivlennykh skvazhin. Tyumen, Tyumen State Oil and Gas University Publ., 150 p. (In Russian).

18. Kharlamov, K. N., Erokhin, V. P., Dolgov, V. G., Shenberger, V. M., & Zozulya, G. P. (1992). Proektirovanie profiley s intervalom bezorientiruemogo nabora krivizny stvola skvazhiny. Sbornik tezisov Mezhdunar. NKT "Resursosberezhenie v toplivno-energeticheskom komplekse Rossii". Tyumen, pp. 24. (In Russian).

19. Ishmurzin, А. А. (2006). Pressure and deformations round sticr columns in spatially curved chink. Neftegazovoye delo, 4(1), рр. 65-72. (In Russian).

20. Urazakov, K. R. (1993). Ekspluatatsiya naklonno napravlennykh nasosnykh skvazhin. Moscow, Nedra Publ., 168 p. (In Russian).

21. Ivanov, S. V., Lishchuk, A. N. [et al.]. Pogruzhnaya neftedobyvayushchaya ustanovka. Patent na izobretenie RF 2750179. No 2020135000. Applied: 26.10.20. Published: 23.06.21. Bulletin No. 18. (In Russian).