Development potential of jet pumps and technology in the oil and gas industry

The article deals with innovative technologies for the development and research of oil and gas wells by jet devices in various conditions of occurrence of productive formations. Data are given about the results of work with jet pumps for intensifying the inflows in fields of Western Siberia and about their efficiency to change well productivity. We show development potential of jet pumps and technology in the oil and gas industry to improve the quality of well construction and well operation. Attention is drawn to new technologies and designs of jet pumps, which have been developed for well development, research of two or more reservoirs with the aim of combining them into one production facility. The article gives valuable information on effective technical and technological solutions for well development and stimulation of inflows from reservoirs with abnormally high reservoir pressure. The use of this technique and technology in well development processes allows you to obtain enhanced information about the reservoir properties of productive formations, as well as to increase their productivity.

1. Yagafarov, A. K., Fedortsov, V. K., Telkov, A. P., & Shlein, G. A. (2006). Gidrodinamicheskie issledovaniya malodebitnykh neftyanykh skvazhin. Tyumen, Vektor Buk Publ., 352 p. (In Russian).

2. Shlein, G. A., Yagafarov, A. K., Fedortsov, V. K., & Kleshchenko, I. I. (2011). Osvoenie i issledovanie neftyanykh skvazhin struynymi apparatami. Tyumen, Vektor Buk Publ., 192 p. (In Russian).

3. Sokolov, E. Ya., & Zinger, N. M. (1989). Struynye apparaty. 3rd edition, revised. Moscow, Energoatomizdat Publ., 352 p. (In Russian).

4. Shlein, G. A., Gazimov, R. R., & Iripkhanov, R. D. (2000). Primenenie vibratsionnotsiklicheskikh metodov intensifikatsii pritokov i vosstanovleniya priemistosti pri osvoenii skvazhin. Oil Industry, (9), pp. 76-79. (In Russian).

5. Fedortsov, V. K., Yagafarov, A. K., & Klevtsur, A. P. (1988). Prakticheskie ukazaniya po ispytaniyu poiskovykh i razvedochnykh skvazhin na neft' i gaz. Chast' 2. Osvoenie skvazhin, intensifikatsiya pritokov iz porovykh kollektorov. Tyumen, Glavtyumen'geologiya; ZapSibBurNIPI, 365 p. (In Russian).

6. Yagafarov, A. K., Kuramshin, R. M., & Demichev, S. S. (2000). Intensifikatsiya pritokov nefti iz skvazhin na mestorozhdeniyakh Zapadnoy Sibiri. Tyumen, Slovo Publ., 223 p. (In Russian).

7. Drozdov, A. N. (2008). The Technology and technique of oil production by submergible pumps in the complicated conditions. Moscow, MAKS Press Publ., 309 p. (In Russian).

8. Fedortsov, V. K., Zamakhaev, V. S., & Ametov, I. K. (1985). Optimizatsiya usloviy intensifikatsii pritokov nefti iz granulyarnykh kollektorov. Puti povysheniya effektivnosti ispol'zovaniya skvazhin na mestorozhdeniyakh Zapadnoy Sibiri. Trudy ZapSibNIGNI, (66). Tyumen, pp. 70-80. (In Russian).

9. Shlein, G. A., Kalinchuk, A. N., Grechkan, A. V., Volgin, D. F., & Mirabdullaev, A. A. (2018). Opyt primeneniya struynykh nasosov pri ispytanii kollektorov v Nepsko-Botuobinskoy oblasti. Young Scientist, (24(210)), pp. 90-92. (In Russian).

10. Orlov, D. G., Terikov, V. A., & Drozdov, A. N. (2003). Promyslovye ispytaniya eksperimental'nykh obraztsov bespakernoy komponovki gidrostruynogo nasosa s dvukhryadnym liftom na Samotlorskom mestorozhdenii. Oilfield Engineering, (11), pp. 20-24. (In Russian).

11. Yagafarov, A. K., Fedortsov, V. K., Shlein, G. A., Gornostaev, S. N., & Aleskerov, S. M. (2004). The technological feasibility of studying the rheological properties of oil-saturated systems in a weakly permeable reservoir. Oil Industry, (12), pp. 58-60. (In Russian).

12. Shlein, G. A. (2008). Sovershenstvovanie i razrabotka novykh tekhnologiy osvoeniya neftyanykh skvazhin s pomoshch'yu struynykh apparatov na mestorozhdeniyakh Zapadnoy Sibiri. Avtoref. diss. kand. tekh. nauk. Tyumen, 22 p. (In Russian).

13. Yagafarov, A. K., Kleshchenko, I. I., Zozulya, G. P., Zeygman, 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).

14. Shlein, G. A., Lytkin, A. E., Gazimov, R. R., Safiullin, R. I., Prokhorov, N. N., & Brilliant, L. S. Sposob osvoeniya, issledovaniya skvazhin i intensifikatsii neftegazovykh pritokov, osushchestvlenie vo-doizolyatsionnykh rabot, ustroystvo dlya ego osushchestvleniya. Pat. RF No 2179631 RF MKI E21V43/25, 49/00. No 2001105231/03. Applied: 23.02.01. Published: 20.02.02, Byul No 5. (In Russian).

15. Kleshchenko, I. I., Shenberger, V. M., Shlein, G. A., Yagafarov, A. K., Leontiev, D. S., & Popova, Zh. S. (2015). Teoriya i praktika stroitel'stva bokovykh stvolov v neftyanykh skvazhinakh: Osvoenie i issledovanie struynymi apparatami. Tyumen, Tyumen State Oil and Gas University Publ., 352 p. (In Russian).

16. Matthews, C. S., & Russell, D. G. (1967). Pressure Build-Up and Flow Tests in Wells: Monograph Series, Soсiety of Petroleum Engineers. Dallas, 172 p. (In English).

17. Van Poollen, H. K. (1961). Status of Drill-Stem Testing Techniques and Analysis. Journal of Petroleum Technology, 13(04), pp. 333-339. (In English). DOI: 10.2118/1647-G-PA

18. Lukash, E. B., Shlein, G. A., Kustyshev, A. V., & Kalimulina L. B. (2015). Evaluation of the state of the repaired well near bottomhole zone by skin-factor. Oil and Gas Studies, (1), pp. 33-39. (In Russian). DOI: 10.31660/0445-0108-2015-1-33-39

19. McAlister, J. A., Nutter, B. P., & Lebourg, M. A (1965). New System of Tools for Better Control and Interpretation of Drill-Stem Tests. Journal of Petroleum Technology, 17(02), pp. 207- 214. (In English). DOI: 10.2118/965-PA

20. Edwards, A. G., & Winn, R. H. (1973). A Summary of Modern Tools and Techniques Used in Drill Stem Testing. Halliburton Services, Duncan, Oklahoma. (In English).

21. Testers, J. (1964). Review of Basic Formation Evaluation. Houston, Texas, 2 p. (In English).