Neftyanaya Provintsiya
electronic peer-reviewed scholarly publication
Neftyanaya provintsiya No. 1(37), 2024

Development of technology for limiting premature gas breakthrough into the producing wells of the Goit-Kort field using asphaltene-resinous substances

M.M. Bakraev, I.L-A. Dugaev, A.I. Barkinkhoev, F.Z. Bulyukova
DOI: https://doi.org/10.25689/NP.2024.1.170-183

Abstract


The PPD system of Miocene deposits of the XXIII formation of the Chokrak tier of the Goit-Kort field began to form in 1978 by pumping gas into wells No. 29; 59; 107.The implementation of the technology of impact on the deposit by injection of high–pressure gas in order to increase oil recovery of the XXIII formation of the Goit - Kort field faced in field conditions with the advance of the injected gas into the producing wells, the growth of gas factors and a decrease in the coverage of the reservoir by displacement. In order to increase the efficiency of work to prevent and eliminate gas breakthroughs during the development of oil fields by pumping high-pressure gas through relatively highly permeable layers, it is advisable to block these layers in producing wells and carry out work to limit the flow of gas into them in injection wells. These requirements are most met by the method of selective isolation of gas with compositions based on asphaltene-resinous substances (DIA). The results of the conducted research and field tests indicate the fundamental possibility of using solutions of asphaltene-resinous substances to limit the flow of gas in the wells of the Goit-Kort field, leveling the inflow profiles and increasing oil recovery of the reservoir.

Key words:

asphaltene-resinous substances (DIA), transition zone, selective insulation, gas breakthrough, light absorption coefficient

References

1. Degtyarev N.M. Investigation of the process of pumping hydrocarbon gas under high pressure into the XXIII formation of the Goit-Kort CHIASSR deposit/ Bagov R.A., Konovalov V.I., Borodin V.Ya., Artyukhovich B.K. //Issues of improving the efficiency of oil production: Collection of scientific tr./Sevkavnipineft.- Grozny, 1986, - Issue 44. pp. 5-9.

2. Kessler Yu.A., Kotenev Yu.A., Sultanov Sh.Kh. Modeling of reservoir operation in the water-pressure regime of natural waters using the material balance method and the Carter-Tracy algorithm//The magazine Exposition of oil and gas – 2015. – № 7(46). – pp. 45-47.

3. Technological principles of design and development of deep-submerged deposits using natural reservoir energy /K.E. Jalalov, V.V. Kolbikova, V.S. Kolbikov// − "Scientific and Technical Bulletin of JSC NK Rosneft", 2007.– Pp. 39-45.

4. High–pressure gas injection – a highly efficient technology for the development of objects with complex geological characteristics/ I.V. Kuleshkov, V.V. Kolbikova, O.N. Danilchenko, V.S. Kolbikov// − "Scientific and Technical Bulletin of Rosneft, 2007. – pp. 54-58.

5. Sarkisov V.L. Research effects of precipitation of high-molecular compounds on oil recovery during oil displacement by light hydrocarbon solvents//Azerbaijan. oil household,- 1981. - No. 7 pp. 51-54.

6. Maydebor V.N., Chizhov S.I. Some issues of studying the motion of homogeneous and inhomogeneous liquids in a fractured medium//TNTS VNIIOENG - M.- 1973.- p.40.

7. Bakraev M.M. Efficiency of the method of oil displacement by high-pressure gas in relation to the conditions of the XXIII formation of the Chokrak horizon of the Goit-Kort field/ Bakraev M.M., Abdulkhadzhiev T-A.A., Ushakov I.V., Umalatov S.S.//Materials of the V All-Russian scientific and practical conference of students, postgraduates and young scientists "MILLIONAIRES-2022" with international participation, May 19-20, 2022, Russia, Chechen Republic, GGNTU named after M.D. Millionshchikov, Grozny. pp. 183-190.

8. Ways to combat ASF during the operation of ECN wells in the conditions of the Goyt-Kortovskoye field. Bakraev M.M., Bulyukova F.Z., Dumler E.B. In the collection: Modern problems of oil and gas equipment-2021. Materials of the International Scientific and Technical Conference. 2021. pp. 113-118.

9. Analysis of the effectiveness of the technological system for the development of the XXIII formation of the Goit-Kort deposit. Bakraev M.M., Bulyukova F.Z., Dumler E.B., Soltukiev T.B., Ordashev I.E. Oil and gas technologies. 2021. No. 3 (134). pp. 39-42.

Authors

M.M. Bakraev, Candidate of Technical Sciences, Associate Professor of the Department "Drilling, development and operation of oil and gas fields", Grozny State Oil Technical University named after academician M.D. Millionshchikov
100, H.A. Isayeva avenue, Grozny, 364051, Chechen Republic, Russian Federation
E-mail: mubarik@yandex.ru

I.L-A.Dugaev, Master's student of the Grozny State Oil Technical University named after academician M.D. Millionshchikov
100, H.A. Isayeva avenue, Grozny, 364051, Chechen Republic, Russian Federation
E-mail: dugaevilyas@gmail.com

A.I. Barkhinkhoev, Master's student of Grozny State Petroleum Technical University named after academician M.D. Millionshchikov
100, H.A. Isayeva avenue, Grozny, 364051, Chechen Republic, Russian Federation
E-mail: adambarkinhoev28@gmail.com

F.Z. Bulyukova, Candidate of Technical Sciences, Associate Professor of the Department of Machinery and Equipment of Oil and Gas Fields of the Ufa State Oil Technological University (USPTU)
1, Kosmonavtov st, Ufa, 450064, Russian Federation
E-mail: mongp2017@mail.ru

For citation:

M.M. Bakraev, I.L-A. Dugaev, A.I. Barkinkhoev, F.Z. Bulyukova Razrabotka tekhnologii ogranicheniya prezhdevremennogo proryva gaza v dobyvayushchiye skvazhiny mesto-rozhdeniya Goyt-Kort s ispol'zovaniyem asfal'teno-smolistykh veshchestv [Development of technology for limiting premature gas breakthrough into the producing wells of the Goit-Kort field using asphaltene-resinous substances]. Neftyanaya Provintsiya, No. 1(37), 2024. pp. 170-183. DOI https://doi.org/10.25689/NP.2024.1.170-183. EDN SANKLK (in Russian)

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