Zoning of the Bazhenov suite and clinoforms of Neocomian according to the density resources of shale and primaryly-accumulated oil (Nurol megadepression as an example)
Complex representation of the methodology, of search criteria and basis for the use of data of Geothermal technology for solution of the problem of forecasting oil and gas potential has been given. The technology is based on the method paleotemperature modeling, allowing to reconstruct the thermal history of maternal deposits and allocate geothermal criteria and mapping the source of oils generation. The resource estimate is determined by an integral indicator, which is directly dependent on the time of maternal suite location in the main zone of oil generation and on geo-temperature of the zone. Perspective areas and plots for search of the shale (accumulated in situ) Bazhenov oil and of primaryly accumulated oil of terrigenous Achimov Neocomian reservoir Nurol megadepression (Western Siberia) have been identified. Consistency of zoning has been argued by the oil shows and flows of oil in deep wells of the intervals of the parent rocks and clastic reservoirs
Shale resource potential of the Bazhenov Formation and difficult-to-determine resources of Neocomian are the subject to priority economic development in accordance with the new strategy of development of hydrocarbon resource base of the Russian Federation.
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Brylina N. A., Kamynina L. I., Moskalenko V. A., Shatilova T. N., 2000. Lower Cretaceous deposits of Tomsk region (geological zoning): Proceedings of the regional conference of geologists in Siberia, the Far East and North-East of Russia. Vol. 1. Tomsk: GalaPress, P. 231—233 (in Russian).
Burshteyn L. M., Zhidkova L. V., Kontorovich A. E., Melenevskiy V. N., 1997. Model katagenesis organic matter (for example, the Bazhenov Formation). Geologiya i geofizika 38(6), 1070—1078 (in Russian).
Vassoyevich N. B., 1967. The theory of the sedimentary-migration origin of oil (historical review and current state). Izvestiya AN SSSR. Ser. geol. (11), 135—156 (in Russian).
Danenberg E. E., Belozerov V. B., Brylina N. A., 2006. Geological structure and petroleum potential of Upper Jurassic-Lower Cretaceous deposits of the south-east of the West Siberian Plate (Tomsk Region). Tomsk: Publ. house TPU, 291 p. (in Russian).
Duchkov A. D., Galushkin Yu. I., Smirnov L. V., Sokolova L. S., 1990. Evolution of the temperature field of the sedimentary cover of the West Siberian Plain. Geologiya i geofizika (10), 51—60 (in Russian).
Zhil’tsova A. A., Isaev V. I., Korzhov Yu. V., 2013. Vertical geochemical zoning of oil and gas complexes (for example, Rogozhnikovsky and North Rogozhnikovsky fields). Izvestiya Tomskogo politekhnicheskogo universiteta (1), 69—82 (in Russian).
Isaev V. I., Gulenok R. Yu., Veselov O. V., Bychkov A. V., Soloveychik Yu. G., 2002a. Computer technology integrated assessment of oil and gas potential of sedimentary basins. Geologiya nefti i gaza (6), 48—54 (in Russian).
Isaev V. I., Iskorkina A. A., 2014. Mesozoic-Cenozoic variation of temperature on the Earth's surface and geothermal regime Jurassic oil source deposits (paleoclimate south zone of Western Siberia). Geofizicheskiy zhurnal 36(5), 64—80 (in Russian).
Isaev V. I., Korzhov Yu. V., Lobova G. A., Zhil’tsova A. A., Kuzina M. Ya., 2013. Search geochemistry on aromatic hydrocarbons and model interstratal vertical migration of petroleum hydrocarbons. Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy (12), 30—36 (in Russian).
Isaev V. I., Kosygin V. Yu., Soloveychik Yu. G., Yurchuk A. A., Gulenok R. Yu, Shpakova N. V., 2002b. Problems of evaluating the oil and gas source potential of sedimentary basins of the Far Eastern region. Geofizicheskiy zhurnal 24(1), 28—52 (in Russian).
Isaev V. I., Lobova G. A., Royak M. E., Fomin A. N., 2009. Presence of oil and gas central part of the Yugorian dome. Geofizicheskiy zhurnal 31(2), 15—46 (in Russian).
Isaev V. I., Lobova G. A., Starostenko V. I., Fomin A. N., 2015. Schemes zoning Ust-Tym megadepression density of shale oil resources Togur and Bazhenov Formation. Izvestiya Tomskogo politekhnicheskogo universiteta. Inzhiniring georesursov 326(12), 6—19 (in Russian).
Isaev V. I., Starostenko V. I., 2004. Evaluation the oil and gas source potential of sedimentary basins of the Far Eastern region according to the data gravity and geothermic. Geofizicheskiy zhurnal 26(2), 46—61 (in Russian).
Karatayev A., 2015. Today the company is able to introduce new technology in the home. Nedra i TEK Sibiri (9), 8—9 (in Russian).
Kontorovich V. A., 2002. Tectonics and petroleum potential of the Mesozoic-Cenozoic deposits of the south-eastern regions of Western Siberia. Novosibirsk: Publ. SB RAS, 253 p. (in Russian).
Kontorovich V. A., Belyayev S. Yu., Kontorovich A. E., Krasavchikov V. O., Kontorovich A. A., Suprunenko O. I., 2001. Tectonic structure and history of the West Siberian geosyneclise in the Mesozoic and Cenozoic. Geologiya i geofizika 42(11-12), 1832—1845 (in Russian).
Kontorovich A. E., Burshteyn L. M., Malyshev N. A., Safronov P. I., Gus’kov S. A., Yershov S. V., Kazanenkov V. A., Kim N. S., Kontorovich V. A., Kostyreva E. A., Melenevskiy V. N., Livshits V. R., Polyakov A. A., Skvortsov M. B., 2013. Historical and geological modeling naftidogenesis processes in the Mesozoic-Cenozoic sedimentary basin of the Kara sea (basin modeling ). Geologiya i geofizika 54(8), 1179—1226 (in Russian).
Kontorovich V. A., Lapkovskiy V. V., Lunev B. V., 2014. Model Neocomian formation of wedge-like complex of the West Siberian oil and gas province in view of isostasy.Geologiya nefti i gaza (1), 65—72 (in Russian).
Kontorovich A. E., Parparova G. M., Trushkov P. A., 1967. Metamorphism of organic matter and some oil and gas potential issues (for example, Mesozoic West Siberian Plain).Geologiya i geofizika (2), 16—29 (in Russian).
Kontorovich A. E., Fomin A. N., Krasavchikov V. O., Istomin A. V., 2009. Maturation of organic matter in the top and base of the Jurassic in the West Siberian megabasin. Geologiya i geofizika 50(11), 1191—1200 (in Russian).
Kontorovich A. E., Eder L. V., 2015. The new paradigm of the development strategy of the raw material base of the oil industry of the Russian Federation. Mineral'nye resursy Rossii. Ekonomika i upravleniye (5), 8—17 (in Russian).
Lobova G. A., Popov S. A., Fomin A. N., 2013. Localization of forecast resources of oil Jurassic-Cretaceous NGK Ust-Tym megadepression. Neftyanoye khozyaystvo (2), 36—40 (in Russian).
Mel’nik I. A., Yerofeyev L. Ya., 2014. Physical and geochemical model of low resistivity reservoir and its practical application. Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy (3), 46—50 (in Russian).
Osipova E. N., Lobova G. A., Isaev V. I., Starostenko V. I., 2015. Lower Oil and gas reservoirs Nurol megatrough. Izvestiya Tomskogo politekhnicheskogo universiteta 326(1), 14—33 (in Russian).
Popov S. A., Isaev V. I., 2011. Modeling naftidogenesis Southern Yamal. Geofizicheskiy zhurnal 33(2), 80—104 (in Russian).
Prishchepa O. M., Sukhanov A. A., Makarova I. R., 2015. Method for determining the maturity of organic matter in sapropel domanikitah and evaluation of their hydrocarbon resources. Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy (7), 4—8 (in Russian).
Skachek K. G., Larichev A. I., Bostrikov O. I., Brylina A. V., Vidik S. V., 2012. Petroleum potential of the Bazhenov Formation in the central part Shirotnoye Priobye. Ways of realization of oil and gas and ore potential of the Khanty-Mansiysk Autonomous Okrug — Yugra. XV scientific conference. Vol. 1. Khanty-Mansiysk: IzdatNaukaServis, P. 105—113 (in Russian).
Starostenko V. I., 1978. Stable numerical methods in problems of gravimetry. Kiev Naukova Dumka, 228 p. (in Russian).
Sungurova O. G., Mazurov A. K., Isaev V. I., 2014. Resource efficiency strategy is the discovery of oil deposits in the pre-Jurassic basement of Western Siberia. Izvestiya Tomskogo politekhnicheskogo universiteta 325(1), 147—154 (in Russian).
Fomin A. N., 2011. Catagenesis organic matter and oil and gas Mesozoic and Paleozoic deposits of the West Siberian megabasin. Novosibirsk: Publ. IPGG SB RAS, 331 p. (in Russian).
Hunt J., 1982. Geochemistry and geology of oil and gas. Moscow: Mir, 704 p. (in Russian).
Harland W. B., Cox A. V., Llewellyn P. G., Picton C. A. G., Smith A. G., Walters R. W., 1985. A geological time scale. Moscow: Mir, 1985. 140 p. (in Russian).
Spil’man A. V., Zakharchenko N. N., Dushenko O. O., Filatov S. A., 2015. Determination of economic conditions, the effectiveness of the development of stocks of the Bazhenov Formation. Neftyanoe khozyaystvo (9), 14—17 (in Russian).
Connan J., 1974. Time-temperature relation in oil genesis. AAPG Bull. 58, 2516—2521.
Gulenok R. Yu., Isaev V. I., Kosygin V. Yu., Lobova G. A., Starostenko V. I., 2011. Estimation of the Oil-and-Gas Potential of Sedimentary Depression in the Far East and West Siberia Based on Gravimetry and Geothermy Data. Russian Journal of Pacific Geology 5(4), 273—287.
Isaev V. I., Fomin A. N., 2006. Loki of generation of bazhenov- and togur-type oils in the southern Nyurol`ka megadepression. Russian Geology and Geophysics 47(6), 734—745.
Isaev V. I., Lobova G. A., Osipova E. N., 2014. The oil and gas contents of the Lower Jurassic and Achimovka reservoirs of the Nyurol’ka megadepression. Russian Geology and Geophysics 55, 1418—1428.
Kurchikov A. R., Borodkin V. N., 2011. Stratigraphy and paleogeography of Berriasian-Lower Aptian deposits of West Siberia in connection with the clinoform structure of the section. Russian Geology and Geophisics 52(8), 859—870.
Tissot B. Р., 2003. Preliminary Data on the Mechanisms and Kinetics of the Formation of Petroleum in Sediments. Computer Simulation of a Reaction Flowsheet. Oil & Gas Science and Technology — Rev. IFP 58(2), 183—202.