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Neftyanaya Provintsiya 
No.1(29),2022

Analysis of the efficiency of water shutoff technology in production wells

L.A. Makhmutova, G.R. Ganieva, I.F. Minkhanov, A.Z. Mustafin

DOI: https://doi.org/10.25689/NP.2022.1.238-256

PP.238-25

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Abstract

In this work, domestic and foreign literature on methods for limiting water inflow in production wells was analyzed. As a result of the analysis, a chemical method for limiting water inflow was studied.

Selection of the optimal composition or composition, which, due to the insulating barrier, contributes to the development of undeveloped oil-saturated low-permeability interlayers is an urgent task. Insulating compositions based on polymers, gels, foams, resins, emulsions and their compositions were considered as insulating agents.

Key words:

ORP, water cut, chemicals, surfactant, gel, polymer, biopolymer, emulsion

References

  1. Mustafin A.Z., Yuan Ch., Pu W., Varfolomeev M., Tan T., Zhao Sh., Liu R. Sweep improvement options for highly heterogeneous reservoirs with high temperature and ultra-high salinity: a case study in Tarim basin, China. SPE Annual Caspian Conference, 2021. (in English)

  2. Veliev E.F. Obzor sovremennyh metodov uvelicheniya nefteotdachi plasta s primeneniem potokootklonyayushchih tekhnologij [Review of modern in-situ fluid diversion technologies]. SOCAR Proceedings No.2 (2020) (in Russian)

  3. Kazanfarov F.Ya. Sostavy dlya polucheniya izolyacii plastovyh vod [Water shutoff agents]. Neftyanoe Khozyaistvo [Oil and Gaz Industry]. 1991, No.2, pp. 20-22 (in Russian)

  4. Kuznetsov M.A., Ishkinov S.M., Kuznetsova T.I., Fakhretdinov R.N., Yakimenko G.Kh., Sidorov R.V., Bobylev O.A. Tekhnologiya ogranicheniya pritoka vody v dobyvayushchie skvazhiny [The technology for water shutoff in producing wells]. Neftyanoe Khozyaistvo [Oil and Gaz Industry]. 2017, No.7, pp. 58-60 (in Russian)

  5. Krasnov I.I., Vaganov E.V., Inyakina E.I., Katanova R.K., Tomskaya V.F. Diagnostika istochnikov vodopritoka i perspektivy tekhnologij ogranicheniya proryva vody v skvazhiny  [Diagnostics of water supply sources and prospects for technologies for limiting formation water to wells]. Neft i Gaz: Opyt i Innovatsii [Oil and Gaz: Experience and Innovations]. 2019, No.2, pp.20-34 (in Russian)

  6. Dubinsky G.S. Razvitie tekhnologij ogranicheniya vodopritoka v dobyvayushchie skvazhiny [Development of water shutoff technologies for production wells]. Georesursy, Geoenergetika, Geopolitika [Georesources, Geoenergetics, Geopolicy]. 2018, Np.2, p.60 (in Russian)

  7. Andreev V.E., Safiullina A.R., Fattakhov I.G., Chibisov A.V. Analiz primenyaemyh metodov ogranicheniya vodopritoka i vozmozhnost' primeneniya neftesilornoj emul'sii v dobyvayushchih skvazhinah Minnibaevskoj ploshchadi Romashkinskogo mestorozhdeniya  [Analysis of existing water shutoff technologies and applicability of oil-Silor emulsions in production wells of Minnibaevskaya Area, Romashkinskoye oil field]. Proceedings of Russian National Research-and-Practice Conference, Ufa, 2019, pp. 9-12 (in Russian)

  8. Yarkeeva N.R., Gumerova G.R. Tekhnologiya primeneniya sshityh polimernyh sostavov [Technology of application of crosslinked polymeric compositions]. Neftegazovoye Delo [Petroleum Engineering]. 2017, No.2 (in Russian) 

  9. Sun Y., Fang Y., Chen A. Gelation Behavior Study of a Resorcinol-Hexamethyleneteramine Crosslinked Polymer Gel for Water Shut-Off Treatment in Low Temperature and High Salinity Reservoirs. Energies 2017, 10, 913 (in English)

  10. Chang J., Effect of silicate modulus on tensile properties and microstructure of waterproof coating based on polymer and sodium silicate-activated GGBS. Journal of Petroleum Science and Engineering, 2019 (in English)

  11. RF Patent RU02456439 Sposob vyravnivaniya profilya priemistosti v nagnetatelnyh skvazhinah I ogranichenie vodopritoka v dobyvayushchie skvazhiny [Technology of conformance control in injection wells and water shutoff in production wells]. (in Russian)

  12. Khaladov A.Sh., Dudnikov Yu.V., Yamaletdinova K.Sh., Dudaev M.M., Tasueva Y.D Rezul'taty razrabotki mezozojskih zalezhej putem zavodneniya i perspektivy razvitiya neftedobychi (na primere Groznenskogo neftyanogo rajona) [The results of the development of Mesozoic deposits by waterflooding and the prospects for the development of oil production (on the example of the Grozny oil region)]. Neftepromyslovoye Delo [Petroleum Engineering]. 2019, No.7 (607), Moscow (in Russian)

  13. Nozdrya V.I., Semenov Yu.V., Kosnov E.K., Lygach V.N., Shustrov V.P., Samorukova V.D. Kineticheskie zakonomernosti processa geleobrazovaniya v sisteme nefelin-sernaya kislota [Kinetic patterns of gelation process in nepheline-sulfuric acid system]. Gornyj Informacionno-analiticheskij Byulleten' [Mineral Resources Research Bulletin]. 2003, No.7, pp.226-229 (in Russian)

  14. Gasumov R.A., Kukulinskaya E.Yu., Tretiak A.Ya., Mochalov V.P. Issledovanie sostava na silikatnoj osnove dlya ukrepleniya slaboscementirovannoj porody plasta [Analysis of silica-based system for incompetent rock consolidation]. Nauka i Tekhnika v Gazovoj Promyshlennosti [Science and Technology in the Gas Industry]. 2017, No.1 (69), pp.54-61 (in Russian)

  15. Koptiaeva E.I., Karazeev D.V., Strizhnev V.A., Vezhnin S.A., Telin A.G. Novye sshitye polimernye sostavy na osnove chastichno gidrolizovannogo poliakrilamida dlya ogranicheniya vodopritoka i vyravnivaniya profilya priemistosti [New cross-linked polymer compositions at the basis of partially hydrolyzed PAA for water shut-off and conformance control]. Neft, Gaz, Novatsii [Oil, Gas, Innovations]. 2014, No.10, pp.45-49 (in Russian)

Authors

L.A. Makhmutova, student of the Department of Development and Operation of Hard-to-Recover Hydrocarbons, Institute of Geology and Oil and Gas Technologies, Kazan Federal University

4/5, Kremlevskaya st., Kazan, 420111, Russian Federation

E-mail: liana.mah164@mail.ru

 

G.R. Ganieva, Candidate of Technical Sciences, Associate Professor of the Department of Development and Operation of Hard-to-Recover Hydrocarbons, Institute of Geology and Oil and Gas Technologies, Kazan Federal University

4/5, Kremlevskaya st., Kazan, 420111, Russian Federation

E-mail: gguzelrafikovna@mail.ru

 

I.F. Minkhanov, Assistant of the Department of Development and Operation of Hard-to-Recover Hydrocarbon Fields, Institute of Geology and Oil and Gas Technologies, Kazan Federal University

4/5, Kremlevskaya st., Kazan, 420111, Russian Federation

E-mail: minkhanov@mail.ru

 

A.Z. Mustafin, Assistant of the Department of Development and Operation of Hard-to-Recover Hydrocarbon Fields, Institute of Geology and Oil and Gas Technologies, Kazan Federal University

4/5, Kremlevskaya st., Kazan, 420111, Russian Federation

E-mail: AjdaZMustafin@kpfu.ru

For citation:

L.A. Makhmutova, G.R. Ganieva, I.F. Minkhanov, A.Z. Mustafin Analiz jeffektivnosti metodov ogranichenija vodopritoka v dobyvajushhih skvazhinah [Analysis of the efficiency of water shutoff technology in production wells]. Neftyanaya Provintsiya, No. 1(29), 2022. pp. 238-256. DOI https://doi.org/10.25689/NP.2022.1.238-256 (in Russian)

 
 
 

   © L.A. Makhmutova, G.R. Ganieva, I.F. Minkhanov, A.Z. Mustafin, 2022
       This is an open access article under the Creative Commons Attribution 4.0 License (https://creativecommons.org/licenses/by/4.0/)