Krutenko D.S.
dskrutenko@gmail.com
Graduated from the National Research Tomsk Polytechnic University (2021), specialization "geophysical methods of well survey".Postgraduate student of the National Research Tomsk Polytechnic University.
Area of scientific interests: geophysical methods of prospecting for minerals, thermal field, heat flow, connection of the thermal field with oil and gas content, paleotemperature modeling.
Author of 22 publications.
Regional petroleum geology
| Article # 32_2022 | submitted on 08/10/2022 displayed on website on 10/03/2022 |
| 28 p. | Krutenko D.S. |
| The heat flow properties and petrographically composition of the Paleozoic basement (the south-eastern part of Western Siberia) | |
| This paper continues comprehensive research on the reasons of heat flow variations in the South-Eastern part of Western Siberia. The purpose of the study is to identify qualitatively and quantitatively the relationship between the heat flow properties and petrographically composition of the basement, which is characterized by specific thermophysical properties – thermal conductivity and radioactive heat production. The values of heat flow from the basement are calculated in 433 exploration wells. The sketch map of heat flow density in the west of Tomsk Region is built on the base of this data. Keywords: heat flow variations, petrographically composition of the basement, thermal conductivity, density of radioactive heat generation, the west of Tomsk Region, South-Eastern part of Western Siberia. |
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| article citation | Krutenko D.S. Teplovoy potok i veshchestvennyy sostav paleozoyskogo fundamenta (yugo-vostok Zapadnoy Sibiri) [The heat flow properties and petrographically composition of the Paleozoic basement (the south-eastern part of Western Siberia)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2022, vol. 17, no. 4, available at: http://www.ngtp.ru/rub/2022/32_2022.html |
| DOI | https://doi.org/10.17353/2070-5379/32_2022 |
References
Atlas. Geologiya i neftegazonosnost' Hanty-Mansiyskogo avtonomnogo okruga [Atlas. Geology and petroleum potential of Khanty-Mansiysk Autonomous Okrug]. Khanty-Mansiysk, Autonomous institution of Khanty-Mansiysk Autonomous Okrug V.I. Shpilman research and analytical centre for the rational use of the subsoil, 2004, 148 p.
Bradski G., Kaehler A. Learning OpenCV: Computer vision with the OpenCV library. Sebastopol, O'Reilly Media, Inc, 2008, 556 p.
Brekhuntsov A.M., Monastyrev B.V., Nesterov I.I. (Jr.). Distribution patterns of oil and gas accumulations in Western Siberia. Russian Geology and Geophysics, 2011, vol. 52, no. 8, pp. 781-791.
Cermak V., Huckenholz H.G., Rybach L., Schmid R., Schopper J.R., Schuch M., Stoffler D., Wohlenberg J. Physical properties of rocks. Landolt–Boernstein, Numerical data and functional relationships in Science and Technology, Group V: Geophysics and Space Research, 1982, pp. 305-370.
Duchkov A.D., Sokolova L.S., Ayunov D.E. RID «Baza dannyh teplovyh svoystv gornyh porod Sibirskogo regiona RF» [RID “Database of thermal properties of rocks in Siberian region of Russia]. Registration certificate no. 2017621489 in 15.12.2017, 2017.
Hantschel T., Kauerauf A.I. Fundamentals of basin and petroleum systems modeling. Heidelberg, Springer, 2009, 476 p.
Hasterok D., Gard M., Webb J. On the radiogenic heat production of metamorphic, igneous, and sedimentary rocks. Geoscience Frontiers, 2018, vol. 9, no. 6, pp. 1777-1794.
Isaev V.I. Paleotemperature modeling of the sedimentary section, and oil-and-gas generation. Geology of the Pacific Ocean, 2004, vol. 23, no 5, pp. 101-115.
Isaev V.I., Krutenko D.S., Lobova G.A., Osipova E.N., Starostenko V.I. Kartirovanie teplovogo potoka Zapadnoy Sibiri (yugo-vostok) [Mapping of Western Siberian heat flow (southeast)]. Geofizicheskiy zhurnal, 2021, vol. 43, no. 6, pp. 173-195.
Isaev V.I., Lobova G.A., Mazurov A.K., Starostenko V.I., Fomin A.N. Rayonirovanie megavpadin yugo-vostoka Zapadnoy Sibiri po plotnosti resursov slancevoy nefti togurskoy i bazhenovskoy materinskih svit [Zoning of mega-depressions by shale oil generation density of Togur and Bazhenov source rocks Formations in the southeast of Western Siberia]. Geologiya nefti i gaza, 2018, no. 1, pp. 49-73.
Isaev, V.I., Lobova, G.A., Fomin, A.N., Bulatov, V.I., Kuzmenkov, S.G., Galieva, M.F., Krutenko, D.S. Teplovoy potok i neftegazonosnost' (p-ov Yamal, Tomskaya obl.) [Heat flow and presence of oil and gas (the Yamal peninsula, Tomsk region)]. Georesursy, 2019, vol. 21, no. 3, pp. 125-135.
Karta veshhestvennogo sostava domezozojskogo osnovanija. Masshtab 1:1 000 000 [Map of the pre-Mesozoic petrographically composition. Scale 1:1 000 000]. Ed. A.E. Kontorovich, 2001.
Khutorskoy M.D. Vvedenie v geotermiyu: kurs lekciy [Introduction to Geothermy: lecture course]. Moscow: RUDN Publ., 1996, 156 p.
Kontorovich V.A. Tektonika i neftegazonosnost mezozoysko-kaynozoyskikh otlozheniy yugo-vostochnykh rayonov Zapadnoy Sibiri[Tectonics and oil and gas potential of the Mesozoic and Cenozoic rocks in the south-eastern part of Western Siberia]. Novosibirsk, Izd-vo SO RAN, 2002, 253 p.
Krutenko D.S., Isaev V.I., Kuzmenkov S.G. Teplovoy potok, triasovaya riftovaya sistema i mezozoysko-kaynozoyskie razlomy (yugo-vostok Zapadnoy Sibiri) [Heat flow, Triassic rift system and Mesozoic-Cenozoic faults (south-east of Western Siberia)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2021, vol. 16, no. 2, available at: http://www.ngtp.ru/rub/2021/19_2021.html. DOI: https://doi.org/10.17353/2070-5379/19_2021
Kurchikov A.R. Gidrogeotermicheskie kriterii neftegazonosnosti [Hydrogeothermal criteria of oil and gas potential]. Moscow, Nedra, 1992, 231 p.
Lunyova T.E. Zonal'noe rayonirovanie doyurskogo neftegazonosnogo kompleksa s ispol'zovaniem dannyh geotermii (promyslovye rayony Tomskoy oblasti) [Zoning of the pre-Jurassic petroleum bearing play using geothermal data (industrial areas of Tomsk Region): PhD Diss. Abstract] Avtoreferat na soiskanie uch. st. k. g.-m. n. Tomsk, 2020, 24 p.
Macgregor D.S. Regional variations in geothermal gradient and heat flow across the African plate. Journal of African Earth Sciences, 2020, vol. 171, pp. 1-17. DOI: https://doi.org/10.1016/j.jafrearsci.2020.103950
Mather B., McLaren S., Taylor D., Roy S., Moresi L. Variations and controls on crustal thermal regimes in Southeastern Australia. Tectonophysics, 2018, vol. 723, pp. 261-276.
Petrofizika: Spravochnik. V treh knigah. Kniga pervaya. Gornye porody i poleznye iskopaemye [Petrophysics: Manual. In three books. The first book. Rocks and natural resources]. Ed. N.B. Dortman. Moscow, Nedra, 1992, 391 p.
Smyslov A.A., Moiseenko U.I., Chadovich T.Z. Teplovoy rezhim i radioaktivnost' Zemli [Thermal regime and radioactivity of the Earth]. Leningrad, Nedra, 1979, 191 p.
Starostenko V.I., Kutas R.I., Shuman V.N., Legostaeva O.V. Generalization of the Rayleigh-Tikhonov stationary geothermal problem for a horizontal layer. Izvestiya, Physics of the Solid Earth, 2006, vol. 42, no. 12, pp. 1044–1050.
Surkov V.S., Zhero O.G. Fundament i razvitie platformennogo chekhla Zapadno-Sibirskoy plity [The basement and platform development of Western Siberian Plate]. Moscow, Nedra, 1981, 143 p.
Bradski G., Kaehler A. Learning OpenCV: Computer vision with the OpenCV library. Sebastopol, O'Reilly Media, Inc, 2008, 556 p.
Brekhuntsov A.M., Monastyrev B.V., Nesterov I.I. (Jr.). Distribution patterns of oil and gas accumulations in Western Siberia. Russian Geology and Geophysics, 2011, vol. 52, no. 8, pp. 781-791.
Cermak V., Huckenholz H.G., Rybach L., Schmid R., Schopper J.R., Schuch M., Stoffler D., Wohlenberg J. Physical properties of rocks. Landolt–Boernstein, Numerical data and functional relationships in Science and Technology, Group V: Geophysics and Space Research, 1982, pp. 305-370.
Duchkov A.D., Sokolova L.S., Ayunov D.E. RID «Baza dannyh teplovyh svoystv gornyh porod Sibirskogo regiona RF» [RID “Database of thermal properties of rocks in Siberian region of Russia]. Registration certificate no. 2017621489 in 15.12.2017, 2017.
Hantschel T., Kauerauf A.I. Fundamentals of basin and petroleum systems modeling. Heidelberg, Springer, 2009, 476 p.
Hasterok D., Gard M., Webb J. On the radiogenic heat production of metamorphic, igneous, and sedimentary rocks. Geoscience Frontiers, 2018, vol. 9, no. 6, pp. 1777-1794.
Isaev V.I. Paleotemperature modeling of the sedimentary section, and oil-and-gas generation. Geology of the Pacific Ocean, 2004, vol. 23, no 5, pp. 101-115.
Isaev V.I., Krutenko D.S., Lobova G.A., Osipova E.N., Starostenko V.I. Kartirovanie teplovogo potoka Zapadnoy Sibiri (yugo-vostok) [Mapping of Western Siberian heat flow (southeast)]. Geofizicheskiy zhurnal, 2021, vol. 43, no. 6, pp. 173-195.
Isaev V.I., Lobova G.A., Mazurov A.K., Starostenko V.I., Fomin A.N. Rayonirovanie megavpadin yugo-vostoka Zapadnoy Sibiri po plotnosti resursov slancevoy nefti togurskoy i bazhenovskoy materinskih svit [Zoning of mega-depressions by shale oil generation density of Togur and Bazhenov source rocks Formations in the southeast of Western Siberia]. Geologiya nefti i gaza, 2018, no. 1, pp. 49-73.
Isaev, V.I., Lobova, G.A., Fomin, A.N., Bulatov, V.I., Kuzmenkov, S.G., Galieva, M.F., Krutenko, D.S. Teplovoy potok i neftegazonosnost' (p-ov Yamal, Tomskaya obl.) [Heat flow and presence of oil and gas (the Yamal peninsula, Tomsk region)]. Georesursy, 2019, vol. 21, no. 3, pp. 125-135.
Karta veshhestvennogo sostava domezozojskogo osnovanija. Masshtab 1:1 000 000 [Map of the pre-Mesozoic petrographically composition. Scale 1:1 000 000]. Ed. A.E. Kontorovich, 2001.
Khutorskoy M.D. Vvedenie v geotermiyu: kurs lekciy [Introduction to Geothermy: lecture course]. Moscow: RUDN Publ., 1996, 156 p.
Kontorovich V.A. Tektonika i neftegazonosnost mezozoysko-kaynozoyskikh otlozheniy yugo-vostochnykh rayonov Zapadnoy Sibiri[Tectonics and oil and gas potential of the Mesozoic and Cenozoic rocks in the south-eastern part of Western Siberia]. Novosibirsk, Izd-vo SO RAN, 2002, 253 p.
Krutenko D.S., Isaev V.I., Kuzmenkov S.G. Teplovoy potok, triasovaya riftovaya sistema i mezozoysko-kaynozoyskie razlomy (yugo-vostok Zapadnoy Sibiri) [Heat flow, Triassic rift system and Mesozoic-Cenozoic faults (south-east of Western Siberia)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2021, vol. 16, no. 2, available at: http://www.ngtp.ru/rub/2021/19_2021.html. DOI: https://doi.org/10.17353/2070-5379/19_2021
Kurchikov A.R. Gidrogeotermicheskie kriterii neftegazonosnosti [Hydrogeothermal criteria of oil and gas potential]. Moscow, Nedra, 1992, 231 p.
Lunyova T.E. Zonal'noe rayonirovanie doyurskogo neftegazonosnogo kompleksa s ispol'zovaniem dannyh geotermii (promyslovye rayony Tomskoy oblasti) [Zoning of the pre-Jurassic petroleum bearing play using geothermal data (industrial areas of Tomsk Region): PhD Diss. Abstract] Avtoreferat na soiskanie uch. st. k. g.-m. n. Tomsk, 2020, 24 p.
Macgregor D.S. Regional variations in geothermal gradient and heat flow across the African plate. Journal of African Earth Sciences, 2020, vol. 171, pp. 1-17. DOI: https://doi.org/10.1016/j.jafrearsci.2020.103950
Mather B., McLaren S., Taylor D., Roy S., Moresi L. Variations and controls on crustal thermal regimes in Southeastern Australia. Tectonophysics, 2018, vol. 723, pp. 261-276.
Petrofizika: Spravochnik. V treh knigah. Kniga pervaya. Gornye porody i poleznye iskopaemye [Petrophysics: Manual. In three books. The first book. Rocks and natural resources]. Ed. N.B. Dortman. Moscow, Nedra, 1992, 391 p.
Smyslov A.A., Moiseenko U.I., Chadovich T.Z. Teplovoy rezhim i radioaktivnost' Zemli [Thermal regime and radioactivity of the Earth]. Leningrad, Nedra, 1979, 191 p.
Starostenko V.I., Kutas R.I., Shuman V.N., Legostaeva O.V. Generalization of the Rayleigh-Tikhonov stationary geothermal problem for a horizontal layer. Izvestiya, Physics of the Solid Earth, 2006, vol. 42, no. 12, pp. 1044–1050.
Surkov V.S., Zhero O.G. Fundament i razvitie platformennogo chekhla Zapadno-Sibirskoy plity [The basement and platform development of Western Siberian Plate]. Moscow, Nedra, 1981, 143 p.
Regional petroleum geology
| Article # 19_2021 | submitted on 06/03/2021 displayed on website on 06/29/2021 |
| 24 p. | Krutenko D.S., Isaev V.I., Kuzmenkov S.G. |
| Heat flow, Triassic rift system and Mesozoic-Cenozoic faults (south-east of Western Siberia) | |
| A qualitative and quantitative assessment of the influence of the Triassic rift system and Mesozoic-Cenozoic faults on the modern thermal field in the west of the Tomsk region has been carried out. It was revealed that the rift structures of the basement are not reflected in the modern thermal field, as well as disjunctive disturbances of the sedimentary cover, which is explained by the ancient age of their formation. Keywords: thermal field, basement rift structures, disjunctive disturbances, Tomsk region. |
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| article citation | Krutenko D.S., Isaev V.I., Kuzmenkov S.G. Teplovoy potok, triasovaya riftovaya sistema i mezozoysko-kaynozoyskie razlomy (yugo-vostok Zapadnoy Sibiri) [Heat flow, Triassic rift system and Mesozoic-Cenozoic faults (south-east of Western Siberia)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2021, vol. 16, no. 2, available at: http://www.ngtp.ru/rub/2021/19_2021.html |
| DOI | https://doi.org/10.17353/2070-5379/19_2021 |
References
Balázs A., Maţenco L., Granjeon D., Alms K., François T., Sztanó O. Towards stratigraphic-thermo-mechanical numerical modelling: Integrated analysis of asymmetric extensional basins. Global and Planetary Change, 2021, vol. 196, pp. 1-21. DOI: https://doi.org/10.1016/j.gloplacha.2020.103386.
Bradski G., Kaehler A. Learning OpenCV: Computer vision with the OpenCV library. - Sebastopol, O'Reilly Media, Inc. 2008, 556 p.
Brekhuntsov A.M., Monastyrev B.V., Nesterov I.I. (Jr.) Distribution patterns of oil and gas accumulations in West Siberia. Russian Geology and Geophysics, 2011, vol. 52, no. 8, pp. 781-791.
Duchkov A. D., Sokolova L. S. Temperatura litosfery Sibiri po geotermicheskim dannym [Temperature of the Siberiaт lithosphere according to geothermal data]. Geologiya i geofizika, 1985, no. 12, pp. 60-71.
Duchkov A.D., Balobaev V.T., Lysak S.V., Sokolova L.S., Devyatkin V.N., Volod'ko B.V., Levchenko A.N. Teplovoy potok Sibiri [Heat flow in Siberia]. Geologiya i geofizika, 1982, no. 1, pp.42-51.
Duchkov A.D., Sokolova L.S., Lebedev V.I., Molchanov I.V., Novikov G.N., Rastvorov V.I., Frizen L.F. Novye dannye o teplovom potoke Zapadnoy Sibiri [New data on heat flow in the Western Siberia]. Geologiya i geofizika, 1989, no. 1, pp. 140-144.
Ermakov V.I., Skorobogatov V.A. Teplovoe pole i neftegazonosnost' molodykh plit SSSR [Thermal field and oil and gas potential of young plates within USSR]. Moscow, Nedra, 1986, 222 p.
Fuchs S., Balling N., Mathiesen A. Deep basin temperature and heat-flow field in Denmark - New insights from borehole analysis and 3D geothermal modelling. Geothermics, 2020, vol. 83, pp. 1-18. DOI: https://doi.org/10.1016/j.geothermics.2019.101722
Galieva M.F., Aleeva A.O., Isaev V.I. Ochagi generatsii uglevodorodov i ikh akkumulyatsiya v doyurskom razreze Sel'veykinskoy ploshchadi glubokogo bureniya (Tomskaya oblast') [Hydrocarbons generation focis and accumulation within the pre-Jurassic section of the deep drilling Selveikin area (Tomsk Region)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2020, vol. 15, no. 3, available at: http://www.ngtp.ru/rub/2020/26_2020.html. DOI: https://doi.org/10.17353/2070-5379/26_2020
Galushkin Yu. Non-standard Problems in Basin Modelling. Switzerland: Springer, 2016, 274 p. DOI: https://doi.org/10.1007/978-3-319-33882-8
Golovanova I.V., Sal'manova R.Yu., Demezhko D.Yu. O roli teplovogo klimaticheskogo signala v verkhney chasti zemnoy kory v formirovanii anomaliy teplovogo potoka na Urale [On the role of thermal climatic signal in the upper part of the Earth's crust in forming thermal anomalies in the Urals]. Izvestiya vysshikh uchebnykh zavedeniy. Geologiya i razvedka, 2009, no. 2, pp. 46-52.
Isaev V.I. Otsenka vliyaniya tolshch vechnoy merzloty pozdnechetvertichnogo klimaticheskogo pokholodaniya na geotermicheskiy rezhim neftematerinskikh otlozheniy Zapadnoy Sibiri [Assessment of the influence of permafrost strata of late quaternary climate cooling on the geothermal regime of oil-sorce deposits of Western Siberia]. Neftegazovaya Geologiya. Teoriya I Praktika, 2015, vol. 10, no. 2, available at: http://www.ngtp.ru/rub/12/21_2015.pdf. DOI: https://doi.org/10.17353/2070-5379/21_2015
I saev V.I., Gulenok R.Yu., Veselov O.V., Bychkov A.V., Soloveychik Yu.G. Komp'yuternaya tekhnologiya kompleksnoy otsenki neftegazovogo potentsiala osadochnykh basseynov [Computer technology of the integrated assessment of oil and gas potential of sedimentary basins]. Geologiya nefti i gaza, 2002, no. 6, pp. 48-54.
Isaev V.I., Iskorkina A.A, Lobova G.A., Starostenko V.I., Tikhotskii S.A., Fomin A.N. Mesozoic-Cenozoic climate and neotectonic events as factors in reconstructing the thermal history of the source-rock Bazhenov Formation, Arctic region, West Siberia, by the example of the Yamal Peninsula. Izvestiya, Physics of the Solid Earth, 2018, vol. 54, no. 2, pp. 310-329.
Isaev V.I., Iskorkina A.A., Lobova G.A., Fomin A.N. Paleoklimaticheskie faktory rekonstruktsii termicheskoy istorii bazhenovskoy i togurskoy svit yugo-vostoka Zapadnoy Sibiri [Paleoclimatic factors of reconstruction of thermal history of parent petroleum Bazhenov and Togur Formations of southeast of West Siberia]. Geofizicheskiy zhurnal, 2016, vol. 38, no. 4, pp. 3-25.
Isaev V.I., Lobova G.A., Mazurov A.K., Starostenko V.I., Fomin A.N. Rayonirovanie megavpadin yugo-vostoka Zapadnoy Sibiri po plotnosti resursov slantsevoy nefti togurskoy i bazhenovskoy materinskikh svit [Zoning of mega-depressions by shale oil generation density of Togur and Bazhenov source strata in the southeast of Western Siberia]. Geologiya nefti i gaza, 2018a, no. 1, pp. 49-73.
Isaev V.I., Lobova G.A., Starostenko V.I., Stotskiy V.V., Fomin A.N. Zonal'noe rayonirovanie neftenosnykh slantsevykh tolshch yuzhnogo segmenta Koltogorsko-Urengoyskogo paleorifta [Zoning of the shale oil area belonging to the southern part of the Koltogor-Urengoy paleorift]. Neftegazovaya Geologiya. Teoriya I Praktika, 2017, vol. 12, no. 2, available at: http://www.ngtp.ru/rub/11/15_2017.pdf. DOI: https://doi.org/10.17353/2070-5379/15_2017
Isaev V.I., Lobova G.A., Stotskiy V.V., Fomin A.N. Geotermiya i zonal'nost' slantsevoy neftenosnosti Koltogorsko-Urengoyskogo paleorifta (yugo-vostok Zapadnoy Sibiri) [Geothermy and zoning of shale oil prospects of the Koltogor-Urengoy paleorift (southeastern part of West Siberia)]. Geofizicheskiy zhurnal, 2018b, vol. 40, no. 3, pp. 54-80.
Khutorskoy M.D. Vvedenie v geotermiyu: kurs lektsiy [Introduction to Geothermy: lecture course]. Moscow: RUDN Publ., 1996, 156 p.
Kontorovich V.A. Tektonika i neftegazonosnost' mezozoysko-kaynozoyskikh otlozheniy yugo-vostochnykh rayonov Zapadnoy Sibiri [Tectonics and oil and gas potential of the Mesozoic and Cenozoic rocks in the south-eastern part of Western Siberia]. Novosibirsk, Izd-vo SO RAN, 2002, 253 p.
Kosarev A.M., Golovanova I.V., Shafigullina G.T. Osobennosti raspredeleniya oksida kaliya, urana i toriya v vulkanitakh Yuzhnogo Urala v svyazi s problemoy genezisa minimuma teplovogo potoka [Potassium, uranium and thorium distribution in the South Urals volcanites in connection with the problem of negative heat anomaly genesis]. Litosfera, 2009, no. 6, pp. 17-32.
Kurchikov A.R.Geotermicheskiy rezhim uglevodorodnykh skopleniy Zapadnoy Sibiri [The geothermal regime of hydrocarbon pools in West Siberia]. Geologiya i geofizika, 2001, vol. 42, no.11, pp. 1846-1853.
Kurchikov A.R. Gidrogeotermicheskie kriterii neftegazonosnosti [Hydrogeothermal criteria of oil and gas potential]. Moscow, Nedra, 1992, 231 p.
Kurchikov A.R. Teplovoy rezhim neftegazonosnykh oblastey Zapadnoy Sibiri [Thermal conditions of areas in Western Siberia with potential for oil and gas: DSc Diss. Abstract]. Avtoreferat na soiskanie uch. st. d. g.-m. n. Novosibirsk, 1995, 61 p.
Mel'nik I.A., Kharlamov S.N. K voprosu gidrodinamicheskogo modelirovaniya protsessov voskhodyashchey migratsii slozhnykh neodnorodnykh flyuidov iz glubinnykh podzemnykh kollektorov [On the issue of hydrodynamic modelling of upward migration of rheologically complex inhomogeneous fluids from deep underground reservoirs]. Izvestiya Tomskogo politekhnicheskogo universiteta. Inzhiniring georesursov, 2021, vol. 332, no. 4, pp. 24-37.
Starostenko V.I., Kutas R.I., Shuman V.N., Legostaeva O.V. Generalization of the Rayleigh-Tikhonov stationary geothermal problem for a horizontal layer. Izvestiya, Physics of the Solid Earth, 2006, vol. 42, no. 12, pp. 1044-1050.
Strakhov V.N., Golizdra G.Ya., Starostenko V.I. Theory and practice of interpreting potential fields: Evolution in the 20th century. Izvestiya, Physics of the Solid Earth, 2000, vol. 36, no. 9, pp.742-762.
Surkov V.S., Zhero O.G. Fundament i razvitie platformennogo chekhla Zapadno-Sibirskoy plity [The basement and platform development of Western Siberian Plate]. Moscow, Nedra, 1981, 143 p.
Theissen S., Rüpke L.H. Feedbacks of sedimentation on crustal heat flow: New insights from the Voring Basin, Norwegian Sea. Basin Research, 2010, vol. 22, pp. 976-990. DOI: https://doi.org/10.1111/j.1365-2117.2009.00437.x
Zubkov M.Yu. Mekhanizm formirovaniya kollektorov i uglevodorodnykh zalezhey v bazhenovsko-abalakskom komplekse Zapadnoy Sibiri, prognoz ikh rasprostraneniya [A mechanism of generation of reservoirs and hydrocarbon accumulations in some Western Siberia Bazhenov-Abalakov strata, a forecast on their propagation zones]. Karotazhnik, 2021, no. 2, pp. 23-63.
Bradski G., Kaehler A. Learning OpenCV: Computer vision with the OpenCV library. - Sebastopol, O'Reilly Media, Inc. 2008, 556 p.
Brekhuntsov A.M., Monastyrev B.V., Nesterov I.I. (Jr.) Distribution patterns of oil and gas accumulations in West Siberia. Russian Geology and Geophysics, 2011, vol. 52, no. 8, pp. 781-791.
Duchkov A. D., Sokolova L. S. Temperatura litosfery Sibiri po geotermicheskim dannym [Temperature of the Siberiaт lithosphere according to geothermal data]. Geologiya i geofizika, 1985, no. 12, pp. 60-71.
Duchkov A.D., Balobaev V.T., Lysak S.V., Sokolova L.S., Devyatkin V.N., Volod'ko B.V., Levchenko A.N. Teplovoy potok Sibiri [Heat flow in Siberia]. Geologiya i geofizika, 1982, no. 1, pp.42-51.
Duchkov A.D., Sokolova L.S., Lebedev V.I., Molchanov I.V., Novikov G.N., Rastvorov V.I., Frizen L.F. Novye dannye o teplovom potoke Zapadnoy Sibiri [New data on heat flow in the Western Siberia]. Geologiya i geofizika, 1989, no. 1, pp. 140-144.
Ermakov V.I., Skorobogatov V.A. Teplovoe pole i neftegazonosnost' molodykh plit SSSR [Thermal field and oil and gas potential of young plates within USSR]. Moscow, Nedra, 1986, 222 p.
Fuchs S., Balling N., Mathiesen A. Deep basin temperature and heat-flow field in Denmark - New insights from borehole analysis and 3D geothermal modelling. Geothermics, 2020, vol. 83, pp. 1-18. DOI: https://doi.org/10.1016/j.geothermics.2019.101722
Galieva M.F., Aleeva A.O., Isaev V.I. Ochagi generatsii uglevodorodov i ikh akkumulyatsiya v doyurskom razreze Sel'veykinskoy ploshchadi glubokogo bureniya (Tomskaya oblast') [Hydrocarbons generation focis and accumulation within the pre-Jurassic section of the deep drilling Selveikin area (Tomsk Region)]. Neftegazovaya Geologiya. Teoriya I Praktika, 2020, vol. 15, no. 3, available at: http://www.ngtp.ru/rub/2020/26_2020.html. DOI: https://doi.org/10.17353/2070-5379/26_2020
Galushkin Yu. Non-standard Problems in Basin Modelling. Switzerland: Springer, 2016, 274 p. DOI: https://doi.org/10.1007/978-3-319-33882-8
Golovanova I.V., Sal'manova R.Yu., Demezhko D.Yu. O roli teplovogo klimaticheskogo signala v verkhney chasti zemnoy kory v formirovanii anomaliy teplovogo potoka na Urale [On the role of thermal climatic signal in the upper part of the Earth's crust in forming thermal anomalies in the Urals]. Izvestiya vysshikh uchebnykh zavedeniy. Geologiya i razvedka, 2009, no. 2, pp. 46-52.
Isaev V.I. Otsenka vliyaniya tolshch vechnoy merzloty pozdnechetvertichnogo klimaticheskogo pokholodaniya na geotermicheskiy rezhim neftematerinskikh otlozheniy Zapadnoy Sibiri [Assessment of the influence of permafrost strata of late quaternary climate cooling on the geothermal regime of oil-sorce deposits of Western Siberia]. Neftegazovaya Geologiya. Teoriya I Praktika, 2015, vol. 10, no. 2, available at: http://www.ngtp.ru/rub/12/21_2015.pdf. DOI: https://doi.org/10.17353/2070-5379/21_2015
I saev V.I., Gulenok R.Yu., Veselov O.V., Bychkov A.V., Soloveychik Yu.G. Komp'yuternaya tekhnologiya kompleksnoy otsenki neftegazovogo potentsiala osadochnykh basseynov [Computer technology of the integrated assessment of oil and gas potential of sedimentary basins]. Geologiya nefti i gaza, 2002, no. 6, pp. 48-54.
Isaev V.I., Iskorkina A.A, Lobova G.A., Starostenko V.I., Tikhotskii S.A., Fomin A.N. Mesozoic-Cenozoic climate and neotectonic events as factors in reconstructing the thermal history of the source-rock Bazhenov Formation, Arctic region, West Siberia, by the example of the Yamal Peninsula. Izvestiya, Physics of the Solid Earth, 2018, vol. 54, no. 2, pp. 310-329.
Isaev V.I., Iskorkina A.A., Lobova G.A., Fomin A.N. Paleoklimaticheskie faktory rekonstruktsii termicheskoy istorii bazhenovskoy i togurskoy svit yugo-vostoka Zapadnoy Sibiri [Paleoclimatic factors of reconstruction of thermal history of parent petroleum Bazhenov and Togur Formations of southeast of West Siberia]. Geofizicheskiy zhurnal, 2016, vol. 38, no. 4, pp. 3-25.
Isaev V.I., Lobova G.A., Mazurov A.K., Starostenko V.I., Fomin A.N. Rayonirovanie megavpadin yugo-vostoka Zapadnoy Sibiri po plotnosti resursov slantsevoy nefti togurskoy i bazhenovskoy materinskikh svit [Zoning of mega-depressions by shale oil generation density of Togur and Bazhenov source strata in the southeast of Western Siberia]. Geologiya nefti i gaza, 2018a, no. 1, pp. 49-73.
Isaev V.I., Lobova G.A., Starostenko V.I., Stotskiy V.V., Fomin A.N. Zonal'noe rayonirovanie neftenosnykh slantsevykh tolshch yuzhnogo segmenta Koltogorsko-Urengoyskogo paleorifta [Zoning of the shale oil area belonging to the southern part of the Koltogor-Urengoy paleorift]. Neftegazovaya Geologiya. Teoriya I Praktika, 2017, vol. 12, no. 2, available at: http://www.ngtp.ru/rub/11/15_2017.pdf. DOI: https://doi.org/10.17353/2070-5379/15_2017
Isaev V.I., Lobova G.A., Stotskiy V.V., Fomin A.N. Geotermiya i zonal'nost' slantsevoy neftenosnosti Koltogorsko-Urengoyskogo paleorifta (yugo-vostok Zapadnoy Sibiri) [Geothermy and zoning of shale oil prospects of the Koltogor-Urengoy paleorift (southeastern part of West Siberia)]. Geofizicheskiy zhurnal, 2018b, vol. 40, no. 3, pp. 54-80.
Khutorskoy M.D. Vvedenie v geotermiyu: kurs lektsiy [Introduction to Geothermy: lecture course]. Moscow: RUDN Publ., 1996, 156 p.
Kontorovich V.A. Tektonika i neftegazonosnost' mezozoysko-kaynozoyskikh otlozheniy yugo-vostochnykh rayonov Zapadnoy Sibiri [Tectonics and oil and gas potential of the Mesozoic and Cenozoic rocks in the south-eastern part of Western Siberia]. Novosibirsk, Izd-vo SO RAN, 2002, 253 p.
Kosarev A.M., Golovanova I.V., Shafigullina G.T. Osobennosti raspredeleniya oksida kaliya, urana i toriya v vulkanitakh Yuzhnogo Urala v svyazi s problemoy genezisa minimuma teplovogo potoka [Potassium, uranium and thorium distribution in the South Urals volcanites in connection with the problem of negative heat anomaly genesis]. Litosfera, 2009, no. 6, pp. 17-32.
Kurchikov A.R.Geotermicheskiy rezhim uglevodorodnykh skopleniy Zapadnoy Sibiri [The geothermal regime of hydrocarbon pools in West Siberia]. Geologiya i geofizika, 2001, vol. 42, no.11, pp. 1846-1853.
Kurchikov A.R. Gidrogeotermicheskie kriterii neftegazonosnosti [Hydrogeothermal criteria of oil and gas potential]. Moscow, Nedra, 1992, 231 p.
Kurchikov A.R. Teplovoy rezhim neftegazonosnykh oblastey Zapadnoy Sibiri [Thermal conditions of areas in Western Siberia with potential for oil and gas: DSc Diss. Abstract]. Avtoreferat na soiskanie uch. st. d. g.-m. n. Novosibirsk, 1995, 61 p.
Mel'nik I.A., Kharlamov S.N. K voprosu gidrodinamicheskogo modelirovaniya protsessov voskhodyashchey migratsii slozhnykh neodnorodnykh flyuidov iz glubinnykh podzemnykh kollektorov [On the issue of hydrodynamic modelling of upward migration of rheologically complex inhomogeneous fluids from deep underground reservoirs]. Izvestiya Tomskogo politekhnicheskogo universiteta. Inzhiniring georesursov, 2021, vol. 332, no. 4, pp. 24-37.
Starostenko V.I., Kutas R.I., Shuman V.N., Legostaeva O.V. Generalization of the Rayleigh-Tikhonov stationary geothermal problem for a horizontal layer. Izvestiya, Physics of the Solid Earth, 2006, vol. 42, no. 12, pp. 1044-1050.
Strakhov V.N., Golizdra G.Ya., Starostenko V.I. Theory and practice of interpreting potential fields: Evolution in the 20th century. Izvestiya, Physics of the Solid Earth, 2000, vol. 36, no. 9, pp.742-762.
Surkov V.S., Zhero O.G. Fundament i razvitie platformennogo chekhla Zapadno-Sibirskoy plity [The basement and platform development of Western Siberian Plate]. Moscow, Nedra, 1981, 143 p.
Theissen S., Rüpke L.H. Feedbacks of sedimentation on crustal heat flow: New insights from the Voring Basin, Norwegian Sea. Basin Research, 2010, vol. 22, pp. 976-990. DOI: https://doi.org/10.1111/j.1365-2117.2009.00437.x
Zubkov M.Yu. Mekhanizm formirovaniya kollektorov i uglevodorodnykh zalezhey v bazhenovsko-abalakskom komplekse Zapadnoy Sibiri, prognoz ikh rasprostraneniya [A mechanism of generation of reservoirs and hydrocarbon accumulations in some Western Siberia Bazhenov-Abalakov strata, a forecast on their propagation zones]. Karotazhnik, 2021, no. 2, pp. 23-63.