Minchenko Yu.S.
Minchenko.Yuliya@inbox.ru
Graduated from the North Caucasus State Technical University (2010), specialization "oil and gas well drilling".PhD in Science (Engineering).
Head of the Research Center for Comprehensive Testing of the North Caucasus Research and Design Institute of Natural Gases (JSC SevKavNIPIgaz).
Area of scientific interests: geology and development of oil and gas fields.
Author of 77 publications and 6 patents.
Geological simulation and issues of petroleum fields development
Article # 41_2021 | submitted on 10/20/2021 displayed on website on 12/10/2021 |
24 p. | Gasumov R.A., Gasumov E.R. , Minchenko Yu.S. |
Analysis of geological features of Oxfordian section to develop a digital model for productive strata | |
The article proposes a methodological approach to the development of a geological model for Oxfordian carbonate section of one of the gas condensate fields in the south of Russia. It makes it possible to improve the quality of design and monitoring of gas condensate field development as well as the efficiency of managing the process of hydrocarbon production. Taking into account the reservoir genesis peculiarities, lithological features, filtration-capacity reservoir, finally target is to achieve the maximum possible recovery factor of the produced hydrocarbons. Based on the results of detailed works on the analysis and generalization of seismic data in combination with drilling resultes, a model for the Oxfordian section structure was proposed as one of the possible options for the studied structure. Principles of a digital geological model development for productive strata on the basis of geological and geophysical data, 3D detailed seismic exploration, including field observations, processing and interpretation of several data (with the boundaries of the zone of diffused bioherms) are stated. A three-dimensional geological model-based calculation of hydrocarbon reserves is presented, a comparison is made with the initial data, discrepancy and compliance with the requirements of the current regulatory documents is determined. The reliability assessment of the Oxfordian productive strata of the model was carried out at each stage of the modeling. A permanent geological and technological model was developed only for the productive of Oxfordian section. Keywords: 3D detailed seismic exploration, carbonate reservoir, Oxfordian strata, geological and technological model, hydrocarbon reserves, filtration and capacity properties, south of Russia. |
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article citation | Gasumov R.A., Gasumov E.R., Minchenko Yu.S. Ispol'zovanie geologicheskikh osobennostey oksfordskikh otlozheniy pri postroenii tsifrovoy modeli produktivnykh zalezhey [Analysis of geological features of Oxfordian section to develop a digital model for productive strata]. Neftegazovaya Geologiya. Teoriya I Praktika, 2021, vol. 16, no. 4, available at: http://www.ngtp.ru/rub/2021/41_2021.html |
DOI | https://doi.org/10.17353/2070-5379/41_2021 |
References
Arsalan S., Yadav A. Application of extended elastic impedance: A case study from Krishna-Godavari Basin, India. The Leading Edge, 2009, vol. 28. pp. 1204-1209.
Gasumov R.A. Prichiny otsutstviya pritokov plastovykh flyuidov pri osvoenii skvazhin malykh mestorozhdeniy (na primere khadum-batalpashinskogo gorizonta) [Reasons for the lack of reservoir fluid inflows during the development of wells of small fields (by example of the Khadum-Batalpashin level)]. Zapiski Gornogo instituta, 2018, vol. 234, pp. 630-636.
Gasumov R.A., Gridin V.A., Kopchenkov V.G., Galay B.F., Dudaev S.A. Issledovaniya gorno-geologicheskikh usloviy dlya provedeniya geologorazvedochnykh rabot v Predkavkaz'e [Studies of geological conditions for exploration in the Ciscaucasia]. Zapiski Gornogo instituta, 2017, vol. 228, pp. 654-661.
Gasumov R.A., Kerimov I.A., Kharchenko V.M. O nepronitsaemosti glinistykh kollektorov malykh mestorozhdeniy [On the tightness of clay reservoirs of small fields]. Neftepromyslovoe delo, 2018, no. 8, pp. 46-52.
Idrisova S.A, Tugarova M.A., Stremichev E.V., Belozerov B.V. Tsifrovoy kern. Kompleksirovanie dannykh petrograficheskikh issledovaniy karbonatnykh porod s rezul'tatami izucheniya kerna [Digital core. Combining data from petrographic studies of carbonate rocks with the results of core studies]. PRONEFT''. Professional'no o nefti, 2018, no.2(8), pp.36-41.
Kontorovich V.A., Kalinina L.M. Usloviya formirovaniya i model' geologicheskogo stroeniya kellovey-oksfordskikh otlozheniy v zone zameshcheniya morskikh otlozheniy kontinental'nymi (na primere Chuziksko-Chizhapskoy zony neftegazonakopleniya [Formation conditions and model of the geological structure of the Callovian-Oxford section in the zone of substitution of continental sequences (by example of the Chuzik-Chizhap oil and gas accumulation zone)]. Geologiya nefti i gaza, 2006, issue 5, pp. 2-13.
Lapshin V.I., Elfimov V.V., Sayfeev T.A, Il'in A.F. Metodicheskie osnovy eksperimental'nogo issledovaniya fazovykh prevrashcheniy gazozhidkostnykh sistem slozhnogo sostava [Methodological foundations for the experimental study of phase transformations of the composite gas-liquid systems]. Gazovaya promyshlennost'. Seriya: Razrabotka i ekspluatatsiya gazovykh i gazokondensatnykh mestorozhdeniy, 2000, 37 p.
Makarova E.S., Sarkisov G.G. Osnovnye etapy trekhmernogo gidrodinamicheskogo modelirovaniya protsessov razrabotki mestorozhdeniy prirodnykh [The main stages of three-dimensional hydrodynamic modeling of the development of hydrocarbon accumulations]. Neftyanoe khozyaystvo, 2001, no.7, pp. 31-33.
Nurmukhametov R.S., Vladimirov I.V. Issledovanie gidrodinamicheskogo vzaimodeystviya mezhdu sistemoy treshchin i poristymi blokami pri vozdeystvii so storony nagnetatel'noy skvazhiny na treshchinno-poristyy kollektor [Investigation of the hydrodynamic interaction between a system of fractures and porous blocks exposed to a fractured porous reservoir from the injection well]. Neftepromyslovoe delo, 2001, no.1, pp. 31-34.
Potekhin D.V., Putilov I.S. Kolichestvennoe obosnovanie parametrov mnogovariantnogo modelirovaniya dlya povysheniya dostovernosti trekhmernykh geologicheskikh modeley neftyanykh mestorozhdeniy [Quantitative substantiation of multivariate modeling parameters to increase the reliability of three-dimensional geological models of oil fields]. Territoriya NEFTEGAZ, 2014, no.2, pp. 20-23.
Salikhov I.M., Shavaliev A.M., Nizaev R.Kh., Sidorov S.V., Kul'mamirov A.L., Lisin A.S. Problemy i printsipy postroeniya trekhmernykh geologicheskikh i gidrodinamicheskikh modeley neftyanykh mestorozhdeniy [Problems and principles of constructing three-dimensional geological and hydrodynamic models of oil fields]. Neftyanoe khozyaystvo, 2004, no. 7, pp. 23-26.
Semenov V.V., Mel'nik I.A., Pitkevich V.T., Sokova K.I., Solonin A.M. Issledovanie nizkoomnykh kollektorov s ispol'zovaniem dannykh kernovogo materiala [Investigation of low-impedance reservoirs using core data]. Geofizika, 2006, no. 2, pp.42-47.
Shakhverdiev A.Kh., Maksimov M.M., Rybitskaya L.P. Modelirovanie zalezhey nefti s pozitsii sistemnoy optimizatsii protsessov [Modeling of oil fields from the position of system optimization of processes]. Neftyanoe khozyaystvo, 2000, no. 12, pp. 19-23.
Shiryaeva I.V., Makanova G.V., Samoylenko I.Yu. Seysmofatsial'nyy analiz nizhnemelovykh otlozheniy severo-vostochnoy chasti Azovskogo morya s tsel'yu poiska neftegazoperspektivnykh ob"ektov [Seismic facies analysis of the Lower Cretaceous strata of the north-eastern part of the Sea of Azov to search for oil and gas prospective objects]. Geologiya, geografiya i global'naya energiya, 2010, no.3, pp. 195-200.
Skuzovatov M.Yu., Glinskikh V.N., Varaksina I.V., Rodyakin S.V., Kugakolov S.A. Otsenka emkostnykh svoystv produktivnykh gorizontov venda Angaro-Lenskogo i Levobrezhnogo mestorozhdeniy po kompleksu GIS i petrofizicheskikh issledovaniy [Assessment of the capacitive properties of the productive units of the Vendian period of the Angara - Lenskoe and Levoberezhnoye fields, using a complex of geophysical and petrophysical studies]. Tekhnologii seysmorazvedki, 2016, no. 3, pp. 48-56.
Smirnov O.A., Volchkova T.N. Postroenie geologo-geofizicheskoy modeli karbonatnykh kollektorov mestorozhdeniy Udmurtii [Development of a geological and geophysical model of carbonate reservoirs of Udmurtia fields]. Karotazhnik, 2002, issue 102, pp. 105-120.
Trofimov D.M., Raykunov G.G., Evdokimenkov V.N., Zakharov A.I., Shuvaeva M.K., Serebryakov V.B., Nagornaya I.A. Reshenie sovremennykh problem neftegazovoy geologii distantsionnymi metodami [Solution of modern problems of oil and gas geology using remote methods]. Moscow: Infra-Inzheneriya, 2018, 124 p.
Zakirov S.N. Trekhmernye mnogofaznye zadachi prognozirovaniya, analiza i regulirovaniya razrabotki mestorozhdeniy nefti i gaza [Three-dimensional multiphase problems of forecasting, analysis and regulation of oil and gas field development]. Moscow: Traal', 2001, 303 p.
Zaripov O.G., Sonich V.P. Vliyanie litologii porod-kollektorov na udel'noe elektricheskoe soprotivlenie plastov [The influence of lithology of reservoir rocks on the electrical resistivity of the strata]. Geologiya i geologorazvedochnye raboty, 2001, no.9, pp. 18-21.
Zhukov V.S., Motorygin V.V. Vliyanie razlichnykh vidov poristosti na skorosti uprugikh voln i elektroprovodnost' kollektorov Chayandinskogo mestorozhdeniya [Influence of various types of porosity on the speed of elastic waves and the electrical conductivity of the Chayanda field’s reservoirs]. Nauchno-tekhnicheskiy sbornik «Vesti gazovoy nauki», 2017, no. 2 (30).
Gasumov R.A. Prichiny otsutstviya pritokov plastovykh flyuidov pri osvoenii skvazhin malykh mestorozhdeniy (na primere khadum-batalpashinskogo gorizonta) [Reasons for the lack of reservoir fluid inflows during the development of wells of small fields (by example of the Khadum-Batalpashin level)]. Zapiski Gornogo instituta, 2018, vol. 234, pp. 630-636.
Gasumov R.A., Gridin V.A., Kopchenkov V.G., Galay B.F., Dudaev S.A. Issledovaniya gorno-geologicheskikh usloviy dlya provedeniya geologorazvedochnykh rabot v Predkavkaz'e [Studies of geological conditions for exploration in the Ciscaucasia]. Zapiski Gornogo instituta, 2017, vol. 228, pp. 654-661.
Gasumov R.A., Kerimov I.A., Kharchenko V.M. O nepronitsaemosti glinistykh kollektorov malykh mestorozhdeniy [On the tightness of clay reservoirs of small fields]. Neftepromyslovoe delo, 2018, no. 8, pp. 46-52.
Idrisova S.A, Tugarova M.A., Stremichev E.V., Belozerov B.V. Tsifrovoy kern. Kompleksirovanie dannykh petrograficheskikh issledovaniy karbonatnykh porod s rezul'tatami izucheniya kerna [Digital core. Combining data from petrographic studies of carbonate rocks with the results of core studies]. PRONEFT''. Professional'no o nefti, 2018, no.2(8), pp.36-41.
Kontorovich V.A., Kalinina L.M. Usloviya formirovaniya i model' geologicheskogo stroeniya kellovey-oksfordskikh otlozheniy v zone zameshcheniya morskikh otlozheniy kontinental'nymi (na primere Chuziksko-Chizhapskoy zony neftegazonakopleniya [Formation conditions and model of the geological structure of the Callovian-Oxford section in the zone of substitution of continental sequences (by example of the Chuzik-Chizhap oil and gas accumulation zone)]. Geologiya nefti i gaza, 2006, issue 5, pp. 2-13.
Lapshin V.I., Elfimov V.V., Sayfeev T.A, Il'in A.F. Metodicheskie osnovy eksperimental'nogo issledovaniya fazovykh prevrashcheniy gazozhidkostnykh sistem slozhnogo sostava [Methodological foundations for the experimental study of phase transformations of the composite gas-liquid systems]. Gazovaya promyshlennost'. Seriya: Razrabotka i ekspluatatsiya gazovykh i gazokondensatnykh mestorozhdeniy, 2000, 37 p.
Makarova E.S., Sarkisov G.G. Osnovnye etapy trekhmernogo gidrodinamicheskogo modelirovaniya protsessov razrabotki mestorozhdeniy prirodnykh [The main stages of three-dimensional hydrodynamic modeling of the development of hydrocarbon accumulations]. Neftyanoe khozyaystvo, 2001, no.7, pp. 31-33.
Nurmukhametov R.S., Vladimirov I.V. Issledovanie gidrodinamicheskogo vzaimodeystviya mezhdu sistemoy treshchin i poristymi blokami pri vozdeystvii so storony nagnetatel'noy skvazhiny na treshchinno-poristyy kollektor [Investigation of the hydrodynamic interaction between a system of fractures and porous blocks exposed to a fractured porous reservoir from the injection well]. Neftepromyslovoe delo, 2001, no.1, pp. 31-34.
Potekhin D.V., Putilov I.S. Kolichestvennoe obosnovanie parametrov mnogovariantnogo modelirovaniya dlya povysheniya dostovernosti trekhmernykh geologicheskikh modeley neftyanykh mestorozhdeniy [Quantitative substantiation of multivariate modeling parameters to increase the reliability of three-dimensional geological models of oil fields]. Territoriya NEFTEGAZ, 2014, no.2, pp. 20-23.
Salikhov I.M., Shavaliev A.M., Nizaev R.Kh., Sidorov S.V., Kul'mamirov A.L., Lisin A.S. Problemy i printsipy postroeniya trekhmernykh geologicheskikh i gidrodinamicheskikh modeley neftyanykh mestorozhdeniy [Problems and principles of constructing three-dimensional geological and hydrodynamic models of oil fields]. Neftyanoe khozyaystvo, 2004, no. 7, pp. 23-26.
Semenov V.V., Mel'nik I.A., Pitkevich V.T., Sokova K.I., Solonin A.M. Issledovanie nizkoomnykh kollektorov s ispol'zovaniem dannykh kernovogo materiala [Investigation of low-impedance reservoirs using core data]. Geofizika, 2006, no. 2, pp.42-47.
Shakhverdiev A.Kh., Maksimov M.M., Rybitskaya L.P. Modelirovanie zalezhey nefti s pozitsii sistemnoy optimizatsii protsessov [Modeling of oil fields from the position of system optimization of processes]. Neftyanoe khozyaystvo, 2000, no. 12, pp. 19-23.
Shiryaeva I.V., Makanova G.V., Samoylenko I.Yu. Seysmofatsial'nyy analiz nizhnemelovykh otlozheniy severo-vostochnoy chasti Azovskogo morya s tsel'yu poiska neftegazoperspektivnykh ob"ektov [Seismic facies analysis of the Lower Cretaceous strata of the north-eastern part of the Sea of Azov to search for oil and gas prospective objects]. Geologiya, geografiya i global'naya energiya, 2010, no.3, pp. 195-200.
Skuzovatov M.Yu., Glinskikh V.N., Varaksina I.V., Rodyakin S.V., Kugakolov S.A. Otsenka emkostnykh svoystv produktivnykh gorizontov venda Angaro-Lenskogo i Levobrezhnogo mestorozhdeniy po kompleksu GIS i petrofizicheskikh issledovaniy [Assessment of the capacitive properties of the productive units of the Vendian period of the Angara - Lenskoe and Levoberezhnoye fields, using a complex of geophysical and petrophysical studies]. Tekhnologii seysmorazvedki, 2016, no. 3, pp. 48-56.
Smirnov O.A., Volchkova T.N. Postroenie geologo-geofizicheskoy modeli karbonatnykh kollektorov mestorozhdeniy Udmurtii [Development of a geological and geophysical model of carbonate reservoirs of Udmurtia fields]. Karotazhnik, 2002, issue 102, pp. 105-120.
Trofimov D.M., Raykunov G.G., Evdokimenkov V.N., Zakharov A.I., Shuvaeva M.K., Serebryakov V.B., Nagornaya I.A. Reshenie sovremennykh problem neftegazovoy geologii distantsionnymi metodami [Solution of modern problems of oil and gas geology using remote methods]. Moscow: Infra-Inzheneriya, 2018, 124 p.
Zakirov S.N. Trekhmernye mnogofaznye zadachi prognozirovaniya, analiza i regulirovaniya razrabotki mestorozhdeniy nefti i gaza [Three-dimensional multiphase problems of forecasting, analysis and regulation of oil and gas field development]. Moscow: Traal', 2001, 303 p.
Zaripov O.G., Sonich V.P. Vliyanie litologii porod-kollektorov na udel'noe elektricheskoe soprotivlenie plastov [The influence of lithology of reservoir rocks on the electrical resistivity of the strata]. Geologiya i geologorazvedochnye raboty, 2001, no.9, pp. 18-21.
Zhukov V.S., Motorygin V.V. Vliyanie razlichnykh vidov poristosti na skorosti uprugikh voln i elektroprovodnost' kollektorov Chayandinskogo mestorozhdeniya [Influence of various types of porosity on the speed of elastic waves and the electrical conductivity of the Chayanda field’s reservoirs]. Nauchno-tekhnicheskiy sbornik «Vesti gazovoy nauki», 2017, no. 2 (30).