Zhuravleva L.M.
zhurawlewa.lilia@yandex.ru
Graduated from the Ministry of Agriculture and Gubkin State Agricultural University (1981), specialization "Geology and Exploration of Oil and Gas Fields".
PhD in Geology and Mineralogy, Associate Professor.
Associate Professor of the Department of Lithology at Gubkin Russian State University of Oil and Gas (NRU).
Area of scientific interests: carbonate rocks, reefs, reef natural reservoirs of oil and gas.
Author of 30 publications.
Geological simulation and issues of petroleum fields development
| Article # 35_2025 | submitted on 07/30/2025 displayed on website on 09/29/2025 |
| 10 p. | Ageev N.P., Desyatkin A.S., Zhuravleva L.M. |
| Reef facies zones for most effective use of the plasma-impulse impact method | |
| Methods for stimulating productive units to increase hydrocarbon recovery are being developed, refined, and successfully applied alongside the development of the oil and gas production industry. However, discoveries of hydrocarbon accumulations in heterogeneous reservoirs require a rational and careful approach to selecting such methods. This paper briefly describes a method for increasing well productivity using plasma-pulse stimulation of the reservoir and discusses its potential application in hydrocarbon accumulations related with reef structures. Reefs are complex biogenic geological bodies that sometimes contain reservoirs oil and gas. The distribution of reservoir rocks within reef bodies is characterized by regular zoning, which manifests itself differently in reefs and associated natural reservoirs of different morphological and genetic types. The plasma-impulse impact method is appropriate for use in zones of relatively denser and, consequently, less permeable reservoirs, typically microgranular and pelitomorphic carbonate rock varieties. Such varieties are localized in the core areas of isolated atoll-like and flat-topped structures, in the peripheral parts of dome-shaped massifs, and in transition zones where reef facies are replaced by depression facies on the outer slopes of both reef types. Back-reef zones of reservoirs associated with asymmetric structures are recommended for plasma-impulse treatment. Nevertheless, in this case, it is necessary to accurately determine the range of plasma-pulse treatment to prevent "technical" fracturing from compromising the insulating properties of the flank screen of back-reef facies. Keywords: plasma-impulse impact method, morphological and genetic types of reefs, reservoir distribution, hydrocarbon accumulation, zones of application of the plasma-impulse impact method. |
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| article citation | Ageev N.P., Desyatkin A.S., Zhuravleva L.M. Fatsial'nye zony rifov dlya naibolee effektivnogo ispol'zovaniya metoda plazmenno-impul'snogo vozdeystviya [Reef facies zones for most effective use of the plasma-impulse impact method]. Neftegazovaya Geologiya. Teoriya I Praktika, 2025, vol. 20, no. 3, available at: https://www.ngtp.ru/rub/2025/35_2025.html EDN: DPQTIE |
References
Ageev P.G., Ageev N.P., Ageev D.P., Desyatkin A.S., Pashchenko A.F. Plazmenno-impul'snoe vozdeystvie - innovatsionnyy podkhod k dobyche traditsionnykh i netraditsionnykh uglevodorodov i zablagovremennoy degazatsii ugol'nykh plastov [Plasma pulse effect - an innovative approach to the extraction of traditional and unconventional hydrocarbons and early degassing of coal seams]. Burenie i neft', 2016, no. 7-8, pp. 34-40. (In Russ.). EDN: WHAGHR
Ageev P.G., Ageev N.P., Pashchenko A.F., Kasilov V.P., Ganiev S.R., Kurmenev D.V. Eksperimental'nye issledovaniya plazmenno-impul'snogo vozdeystviya. Intensivnost' pul'satsiy davleniya v obrabatyvaemoy srede [Experimental studies of plasma pulse action. The intensity of pressure pulsations in the treated medium]. Problemy mashinostroeniya i nadezhnosti mashin, 2019, no. 2, pp. 106-112. (In Russ.). DOI: 10.1134/S0235711919020032
Ageev P.G., Koldoba A.V., Gasilova I.V., Poveshchenko N.Yu., Yakobovskiy M.V., Tkachenko S.I. Kompleksnaya model' otklika plasta na plazmenno-impul'snoe vozdeystvie [A complex model of the reservoir response to plasma-pulse action]. Mathematica Montisnigri, 2013, vol. XXVIII, pp.77-100. (In Russ.).
Kiessling W., Flügel E. Paleoreefs - datebase on Phanerozoic reefs. Phanerozoic Reef Patterns. SEPM Sp. Publ., 2002, no. 72, pp. 77-92. DOI: 10.2110/pec.02.72.0077
Kuznetsov V.G., Zhuravleva L.M. Litologicheskie, biologicheskie i tektonicheskie faktory, opredelyayushchie stroenie rifovykh rezervuarov nefti i gaza [Lithological, biological and tectonic factors determining the structure of reef oil and gas reservoirs]. Litologiya i poleznye iskopaemye, 2021, no. 4, pp. 349-363. (In Russ.). DOI: 10.31857/S0024497X21040042
Sovremennye i iskopaemye rify. Terminy i opredeleniya. Spravochnik [Modern and fossil reefs. Terms and definitions. Handbook]. I.T. Zhuravleva, V.N. Kosmynin, V.G. Kuznetsov, G.V. Belyaeva, K.N. Volkova, N.M. Zadorozhnaya, G.D. Isaev, I.K. Korolyuk, E.V. Krasnov, V.A. Luchinina, M.V. Mikhaylova, E.I. Myagkova, B.V. Preobrazhenskiy, T.A. Punina, Yu.I. Tesakov, V.G. Khromykh, V.P. Shuyskiy. Moscow: Nedra, 1990, 184 p. (In Russ.). EDN: VCOWPJ
Zhuravleva L.M., Kuznetsov V.G. Kharakter ekranirovaniya zalezhey uglevodorodov v rifakh [The nature of screening of hydrocarbon accumulations in reefs]. Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy, 2021, no. 7 (355), pp. 5-12. (In Russ.). DOI: 10.33285/2413-5011-2021-7(355)-5-12
Ageev P.G., Ageev N.P., Pashchenko A.F., Kasilov V.P., Ganiev S.R., Kurmenev D.V. Eksperimental'nye issledovaniya plazmenno-impul'snogo vozdeystviya. Intensivnost' pul'satsiy davleniya v obrabatyvaemoy srede [Experimental studies of plasma pulse action. The intensity of pressure pulsations in the treated medium]. Problemy mashinostroeniya i nadezhnosti mashin, 2019, no. 2, pp. 106-112. (In Russ.). DOI: 10.1134/S0235711919020032
Ageev P.G., Koldoba A.V., Gasilova I.V., Poveshchenko N.Yu., Yakobovskiy M.V., Tkachenko S.I. Kompleksnaya model' otklika plasta na plazmenno-impul'snoe vozdeystvie [A complex model of the reservoir response to plasma-pulse action]. Mathematica Montisnigri, 2013, vol. XXVIII, pp.77-100. (In Russ.).
Kiessling W., Flügel E. Paleoreefs - datebase on Phanerozoic reefs. Phanerozoic Reef Patterns. SEPM Sp. Publ., 2002, no. 72, pp. 77-92. DOI: 10.2110/pec.02.72.0077
Kuznetsov V.G., Zhuravleva L.M. Litologicheskie, biologicheskie i tektonicheskie faktory, opredelyayushchie stroenie rifovykh rezervuarov nefti i gaza [Lithological, biological and tectonic factors determining the structure of reef oil and gas reservoirs]. Litologiya i poleznye iskopaemye, 2021, no. 4, pp. 349-363. (In Russ.). DOI: 10.31857/S0024497X21040042
Sovremennye i iskopaemye rify. Terminy i opredeleniya. Spravochnik [Modern and fossil reefs. Terms and definitions. Handbook]. I.T. Zhuravleva, V.N. Kosmynin, V.G. Kuznetsov, G.V. Belyaeva, K.N. Volkova, N.M. Zadorozhnaya, G.D. Isaev, I.K. Korolyuk, E.V. Krasnov, V.A. Luchinina, M.V. Mikhaylova, E.I. Myagkova, B.V. Preobrazhenskiy, T.A. Punina, Yu.I. Tesakov, V.G. Khromykh, V.P. Shuyskiy. Moscow: Nedra, 1990, 184 p. (In Russ.). EDN: VCOWPJ
Zhuravleva L.M., Kuznetsov V.G. Kharakter ekranirovaniya zalezhey uglevodorodov v rifakh [The nature of screening of hydrocarbon accumulations in reefs]. Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy, 2021, no. 7 (355), pp. 5-12. (In Russ.). DOI: 10.33285/2413-5011-2021-7(355)-5-12