Scientific and technical journal
«Equipment and technologies for oil and gas complex»
ISSN 1999-6934
Back to issue Pathologic-anatomic experience of oil and gas fields development
UDC: 622.276.1.4
DOI: 10.33285/1999-6934-2022-4(130)-36-45
Authors:
1,11 National University of Oil and Gas "Gubkin University", Moscow, Russia
Keywords: oil and gas fields development control, open hole logging, close hole field-geophysical logging, well hydro-dynamic testing, oil recovery factor, initially recoverable reserves of raw hydrocarbons, pressure maintenance system, reservoir characteristics, reservoir development simulations (hydro-dynamic models), methods of oil recovery enhancement, hydraulic fracturing of a formation
Annotation:
Pathologists are medical specialists who study irreversible changes in the structure of organs and tissues caused by diseases. In recent years, oil engineering specialists engaged in field and geophysical studies of wells in oil and gas deposits have increasingly felt themselves not so much as diagnosticians and resuscitators of wells and formations, but as a pathologists of fields and deposits. It has to be mentioned, that potential problems that arise in the course of large fields development, contrary to the results of diagnostic studies and engineers conclusions, are persistently not seen or realized by field operators, finally assuming irretrievable losses from initially recoverable reserves (IRR) of raw hydrocarbons (RHC) amounting to tens of millions of tons. At the same time, the messages about the fact that someday new technologies will allow reviving the incompetently squandered oil and gas reserves today come into clear contradiction with the economic realities in the industry. At the same time, the "responsible" reservoir management based on the large-scale application of modern methods of studying and diagnostic monitoring of formations and wells, already nowadays, allows initial introduction of some mechanisms of raw hydrocarbons (RHC) displacement, contributing to achievement of maximum wells productivity indexes and maximum oil and gas recovery.
Bibliography:
1. Zotov G.A., Tverkovkin S.M. Gazogidrodinamicheskie metody issledovaniy gazovykh skvazhin. – M.: Nedra, 1970. – 192 s.2. Orlinskiy B.M. Kontrol' za razrabotkoy zalezhey nefti geofizicheskimi metodami. – M.: Nedra, 1977. – 239 s.
3. Termogidrodinamicheskie issledovaniya pri razlichnykh rezhimakh (rukovodstvo po issledovaniyu i interpretatsii) / R.A. Valiullin, G.R. Vakhitova, A.Sh. Ramazanov [i dr.]. – Ufa: BGU, 2002. – 248 s.
4. Ipatov A.I., Kremenetskiy M.I. Geofizicheskiy i gidrodinamicheskiy kontrol' razrabotki mestorozhdeniy uglevodorodov. – M.-Izhevsk: NITs "Regulyarnaya i khaoticheskaya dinamika"; In-t komp'yuter. issled., 2006. – 780 s.
5. Kremenetskiy M.I., Ipatov A.I., Gulyaev D.N. Informatsionnoe obespechenie i tekhnologii gidrodinamicheskogo modelirovaniya neftyanykh i gazovykh zalezhey. – M.-Izhevsk: In-t komp'yuter. issled., 2012. – 894 s.
6. Kuznetsov G.S., Leont'ev E.I., Rezvanov R.A. Geofizicheskie metody kontrolya razrabotki neftyanykh i gazovykh mestorozhdeniy: ucheb. dlya vuzov. – M.: Nedra, 1991. – 223 s.
7. Ipatov A.I., Kremenetskiy M.I. Geofizicheskie metody kontrolya razrabotki mestorozhdeniy nefti i gaza: ucheb. dlya vuzov. – M.: RGU nefti i gaza im. I.M. Gubkina, 2012. – 374 s.
8. Kremenetskiy M.I., Ipatov A.I. Gidrodinamicheskie i promyslovo-tekhnologicheskie issledovaniya skvazhin: ucheb. posobie. – M.: MAKS Press, 2008. – 475 s.
9. Rukovodstvo po issledovaniyu skvazhin / A.I. Gritsenko, Z.S. Aliev, O.M. Ermilov [i dr.]. – M.: Nauka, 1995. – 523 s.
10. RD 153-39.0-072-01. Tekhnicheskaya instruktsiya po provedeniyu geofizicheskikh issledovaniy i rabot priborami na kabele v neftyanykh i gazovykh skvazhinakh. – Vved. 2001–07–01. – M.: Minenergo Rossii, 2001. – VII, 271 s.
11. RD 153-39.0-109-01. Metodicheskie ukazaniya po kompleksirovaniyu i etapnosti vypolneniya geofizicheskikh, gidrodinamicheskikh i geokhimicheskikh issledovaniy neftyanykh i neftegazovykh mestorozhdeniy. – Vved. 2002–03–01. – M.: Minenergo Rossii, 2002. – IV, 75 s.
12. Geologiya, razrabotka i ekspluatatsiya Romashkinskogo neftyanogo mestorozhdeniya: v 2 t. T. 1 / R.Kh. Muslimov, R.B. Khisamov, A.M. Shavaliev, I.G. Yusupov. – M.: VNIIOENG, 1995. – 492 s.
13. Gidrodinamicheskiy i geofizicheskiy monitoring razrabotki slozhnopostroennykh mestorozhdeniy uglevodorodov / A.I. Ipatov, M.I. Kremenetskiy, D.N. Gulyaev [i dr.] // Neft. khoz-vo. – 2015. – № 9. – S. 68–72.
14. Osobennosti razrabotki neftyanykh zalezhey, oslozhnennykh vysokoprovodyashimi prosloyami / M.M. Khasanov, A.I. Ipatov, E.A. Zhukovskaya [i dr.] // Neft. khoz-vo. – 2019. – № 12. – S. 38–43. – DOI: 10.24887/0028-2448-2019-12-38-43
15. Ipatov A.I., Zhukovskaia E.A., Lazutkin D.M. Highly Conductive Layers and their Role in the Development of Oil Fields of the Bazhen-Abalak Complex // SPE Russian Petroleum Technology Conf., Oct. 26–29. – 2020. – DOI: 10.2118/201814-MS
16. Kremenetskiy M.I., Ipatov A.I. Statsionarnyy gidrodinamiko-geofizicheskiy monitoring razrabotki mestorozhdeniy nefti i gaza. – M.-Izhevsk: In-t komp'yuter. issled., 2018. – 795 s.
17. Kremenetskiy M.I., Ipatov A.I. Primenenie promyslovo-geofizicheskogo kontrolya dlya optimizatsii razrabotki mestorozhdeniy nefti i gaza: v 2 t. T. 2. Rol' gidrodinamiko-geofizicheskogo monitoringa v upravlenii razrabotkoy. – M.-Izhevsk: In-t komp'yuter. issled., 2020. – 755 s.
18. Ipatov A.I., Kremenetskiy M.I. Problemy promyslovo-geofizicheskogo kontrolya v usloviyakh novoy ekonomicheskoy politiki. – URL: https://gubkin-center.ru/library/#articles