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1.
《Russian Geology and Geophysics》2014,55(12):1418-1428
The paper describes Lower Jurassic (horizons J16 and J15) and Achimovka (Neocomian clinoforms) reservoirs in the area of the Nyurol’ka megadepression and its framing (42,000 km2). The total thicknesses of seven Achimovka sedimentary cycles are mapped. The thermal history of the Togur and Bazhenov parental sediments in the sections of 39 deep wells is reconstructed by paleotemperature modeling. The geotemperature criterion is used to identify paleosources of oil generation, starting from the Jurassic. The distribution of the relative density of the resources of the generated Togur and Bazhenov oils is estimated and shown on sketch maps. The Lower Jurassic reservoir is divided into zones depending on the distribution of the relative density of the Togur oil resources, and the Achimovka reservoir, of the Bazhenov oil resources. The priority oil search zones are proposed. 相似文献
2.
S.V. Ryzhkova L.M. Burshtein S.V. Ershov V.A. Kazanenkov A.E. Kontorovich V.A. Kontorovich A.Yu. Nekhaev B.L. Nikitenko M.A. Fomin B.N. Shurygin A.L. Beizel E.V. Borisov O.V. Zolotova L.M. Kalinina E.V. Ponomareva 《Russian Geology and Geophysics》2018,59(7):846-863
The type sections of the Bazhenov Horizon and formations recognized within this horizon have been identified based on a comprehensive analysis of paleontological, lithological, geophysical (well-log and CDP seismic data), and geochemical data on the West Siberian Basin. The Bazhenov Horizon was traced throughout the entire West Siberian sedimentary basin. The criteria for the recognition of the top and base of this horizon within the stratigraphic equivalents of the Bazhenov Formation were suggested. The proposed facies-stratigraphic zonation of the Bazhenov Horizon reflects the spatial location of all formations identified within this horizon. As seen on the newly proposed thickness map, the Bazhenov Horizon reaches a thickness of 15-25 m within the Bazhenov and Tutleim Formations, 30-35 m within the Mulym’ya Formation, 30-45 m within the Danilov Formation, 40-65 m within the Mar’yanovka Formation, up to 100 m within the Golchikha Formation, > 350 m within the Yanovstan Formation, up to 35 m within the Bagan Formation, and 35-40 m within the Maksimkin Yar Formation. A marginal filter (according to A.P. Lisitzin) has been identified along the East Siberian land. 相似文献
3.
Organic Carbon versus Major Elements Relationship in Rocks of the Bazhenov Formation,Western Siberia
Eder V. G. Krasavchikov V. O. Zanin Yu. N. Zamirailova A. G. 《Lithology and Mineral Resources》2001,36(3):236-242
A close relation of the organic carbon (Corg) content with major has been established for rocks of the Upper Jurassic–Lower Cretaceous Bazhenov Formation. Applying the method of multiple linear regression, it has been demonstrated that the Corgcontent in rocks of the Bazhenov Formation is stringently controlled by its bulk chemical composition. This inference is consistent with the existing ideas regarding a close interrelation between the following main components of rocks: organic carbon and authigenic quartz formed on remains of Radiolaria; pyrite formed in a highly reducing medium of Corg-rich sediments; and terrigenous clayey material diluting the authigenic siliceous–carbonaceous–pyritic matrix. These components chiefly determine the spectrum of major elements in the Bazhenov Formation. The establishment of the close relation between the Corgcontent and the group of major elements refutes the suggestion of some authors that siliceous material was supplied to nonlithified sediments of the Bazhenov sea by hydrothermal solutions, because this mechanism would have inevitably upset geochemical relations between elements in the studied rocks. 相似文献
4.
N. S. Balushkina G. A. Kalmykov V. S. Belokhin R. A. Khamidullin D. V. Korost 《Moscow University Geology Bulletin》2014,69(2):91-100
The reservoirs of the oil-bearing Tutleym formation, Bazhenov horizon (analog of the Bazhenov Formation for Middle Nazym Oil Field), are studied. Their material composition, porosity and permeability, the geochemical characteristics of their organic matter, and pore space characteristics are examined, and the factors affecting the reservoir porosity and permeability are found. The changes in the structure of the porous medium, which provide primary oil migration from oil source rocks into the Tutleym formation reservoirs, are revealed. 相似文献
5.
在特定地质背景下,低熟气可以聚集成藏。由于沉积盆地的古环境、母质类型及有机质演化程度的不同,仅以低熟气源岩物理化学性质为侧重点的烃源岩评价方法很难对不同沉积盆地中的烃源岩的生烃潜力进行相对优劣排序。因此,为了快速有效评价低熟气源岩的生烃潜力,分析了w(TOC)、IH、w("A")等10个因素对气源岩生气能力的影响,建立有效低熟气源岩评价指标体系。并运用层次分析法和模糊数学,建立低熟气源岩生烃潜力评价模型。应用此模型对乌连戈伊气田进行了生烃潜力评价,评价结果表明:Achimov气藏、Bazhenov气藏、Vasyugan气藏、Pokur气藏烃源岩是低熟气源岩;Neocomian气藏和Tyumen气藏烃源岩介于低熟气源岩和常规气源岩之间;Tampey气藏烃源岩属于常规气源岩。这与Galimov所得结论是完全吻合的,说明模型的评价结果是可靠的,可以实现低熟气源岩的综合评价,值得推广应用。 相似文献
6.
Doklady Earth Sciences - The Bazhenov Formation is represented by Late Jurassic black shales. Russia is the first in the world by the reserves of shale oil, which is mostly related to the Bazhenov... 相似文献
7.
The cavity structure in oil-saturated Bazhenov and Abalak shale rock is analyzed. The Bazhenov reservoirs are of pore and pore–microcavern type. Their cavity structure is formed as a result of the transformation of the mineral component (biogenic silica) and organic component (kerogen) in the rock. The ratio of pore types depends on the mineral composition of the reservoir rock and its degree of catagenesis. Pyrite is the main mineral filling the pore volume and impairing the filtrational properties. The reservoirs of the lower Bazhenov formation are confined to the Correlation Layer and are of fracture-cavern type. 相似文献
8.
R. M. Gilaev A. V. Stupakova A. N. Stafeev A. A. Suslova E. S. Shelkov 《Moscow University Geology Bulletin》2018,73(4):361-365
A new variant of the structural-facies zonation of the Bazhenov horizon (Tithonian–Lower Berriasian) in the northeastern part of West Siberia was considered using lithofacies and structural analysis. The low content of terrigenous sedimentary material in the high-carbon facies of the Bazhenov Formation is explained by the capturing of the material by the relatively deep Pur–Taz Paleobasin, where the fan of the Yenisei–Khatanga strait was formed. The Pur–Taz Paleobasin was filled by the sediments of the Yanovstanov Formation. In the northeast the basin borders the vast and relatively shallow Ob Paleobasin, where the black shales of the oil-source Bazhenov Formation were accumulated. 相似文献
9.
Lithology and Mineral Resources - A complex of lithological-geochemical studies was carried out in rocks of the Upper Jurassic–Lower Cretaceous Bazhenov Formation and their transition zones... 相似文献
10.
E. V. Kozlova N. P. Fadeeva G. A. Kalmykov N. S. Balushkina N. V. Pronina E. N. Poludetkina O. V. Kostenko A. Yu. Yurchenko R. S. Borisov A. Yu. Bychkov A. G. Kalmykov R. A. Khamidullin E. D. Strel’tsov 《Moscow University Geology Bulletin》2015,70(6):409-418
The international interest in shale oil has recently provoked special attention to the Russian unconventional oil-source formations, including the Bazhenov Formation of West Siberia, domanik deposits in the Volga–Ural region, and the lower Maikop Group of the Cis-Caucasus. High contents of para-autochthonous soluble organic matter (bitumen) in clayey–carbonate, clayey–siliceous, carbonate–clayey–siliceous rocks with low filtration–capacity properties results in significant uncertainties in the identification of the generation potential of organic matter (OM). Examination of a large database on the OM of the Bazhenov Formation allowed us to propose an optimum complex technique for study of the source rock potential and assessment of the amount of produced hydrocarbons in the kerogen-rich sediments. The investigations include a combination of Rock Eval pyrolysis prior to and after extraction with different solvents, the comparison of bituminological and pyrolytic characteristics, and the determination of the group composition of soluble organic matter, as well as chromatography and chromato-mass spectrometry. 相似文献
11.
12.
Neocomian reservoirs in the Mesozoic sedimentary cover of West Siberia have a complex geological structure. Their wedge-like (clinoform) geometry, with abrupt thickness changes and facies diversity (continental, shoreface, and pelagic deposits), causes difficulty in correlation between drilling- and seismics-based sand formations and clay caps. East-wedging (west-dipping) clinoforms consisting of interbedded clay and sand have the greatest reservoir potential in the West Siberian basin. Prediction of new oil and gas plays and their reservoir potential assessment require regional reconstructions in addition to local contour maps of individual zones and fields. However, the simulation technology which has been applied for years to Jurassic regional reservoirs is not fully applicable to the Neocomian clinoform sequences. Therefore we have adapted it correspondingly and suggest new tools to make due regard for the clinoform reservoir structure. The new approach has been tested through computing several structure and thickness contour maps of clinoform sequences for three largest regional Neocomian reservoirs (sub-Sarman, sub-Pim, and sub-Alymka) in northern and arctic West Siberia. 相似文献
13.
The composition of rocks of the Bazhenov and Abalak formations in Western Siberia is described. Correlations of the concentrations of the major and minor components in rocks with the concentrations of minor elements and organic material are shown. Study of the concentration of minor elements allows us to determine the conditions of sedimentation: redox potential, hydrogen sulfide contamination, and the source of sedimentary material. The results show that rocks of the Bazhenov Formation were formed under the conditions of low fluxes of clastic material, a reduced environment, and a periodically occurring hydrogen sulfide mode. 相似文献
14.
In light of the new clinoform model of the Neocomian, introduced at the last stratigraphic meeting, it is suggested to distinguish clinoform units instead of formations in the clinoform zone. Formations (12 in number) remain only west of the central part of the Neocomian basin (east-dipping clinoforms). In the eastern and southeastern parts of the basin, all the formations beyond the clinoform zone, which consist mostly of continental sediments, should be united into the Ust’-Taz Group. 相似文献
15.
A. V. Stupakova A. N. Stafeev A. A. Suslova R. M. Gilaev 《Moscow University Geology Bulletin》2017,72(1):8-17
Based on facies, structural, and general paleogeographic analyses, new models of the bottom topography and accumulation of the Tithonian–Early Berriasian Bazhenov Formation (West Siberian Basin) are proposed. According to these patterns, quite a low proportion of the terrigenous material in the high-carbon facies of the Bazhenov Formation can be explained by its accumulation in relatively deep troughs that frame the uplifted shallow-water central part of the West Siberian basin. In addition, the structure and dynamics of ocean currents are considered. During the Tithonian–Early Berriasian, these currents were related to the aeration stages of bottom waters enriched in hydrogen sulfide and carbon dioxide. As a result of the convection of the water mass suffocation periods occurred. 相似文献
16.
A technique akin to Galton’s composite portraiture is suggested for creating a generalized image of a stratigraphic unit based on well log data from a group of well sections. The procedure begins with superimposing stratigraphically equivalent section points according to pairwise correlation models followed by weighted summation of similar logs. The superimposition highlights persistent common features of the sections, while their minor individual details become suppressed. A generalized model of the Bazhenov Formation in the Salym area has been constructed from gamma-ray, apparent resistivity, and self-potential logs. Radioactivity and resistivity anomalies, which are often used as constraints on the Bazhenov Formation boundaries, show a significant spatial discrepancy. According to the correlation, the formation volume in each well depends on the depth interval corresponding to the hypostratotype. The results were used to map the Bazhenov Formation thickness and its standard deviation, as well as average values of different logs. 相似文献
17.
O. M. Makarova N. I. Korobova A. G. Kalmykov G. A. Kalmykov 《Moscow University Geology Bulletin》2018,73(2):213-217
The section structure was characterized according to the lithological and petrophysical studies of the core from the Bazhenov Formation that has been uncovered in the central part of the Tundrin Depression. The productive oil intervals where the reservoirs of the pore and fissure-pore types occur were identified. 相似文献
18.
A. A. Erofeev A. A. Pachezhercev I. A. Karpov N. V. Morozov A. G. Kalmykov A. N. Cheremisin E. V. Kozlova A. Yu. Bychkov 《Moscow University Geology Bulletin》2017,72(5):339-348
The influence of temperature on rock samples of the Bazhenov Formation is shown. The samples underwent pyrolysis at 300–480°C, as well as in closed autoclaves in the presence of water under formation pressure. The temperature impact at 400°C resulted in a decrease in the S2 pyrolytic peak by 90–95% and almost complete formation of the generation potential of the rocks. Microtomographic studies of samples combined with raster electron microscopy revealed a correlation between the variable reservoir properties of the rocks. At 350°C, the rocks are characterized by a system of fractures; as a result of impacts, the porosity and permeability can increase from several to several tens of times. Our results will allow more precise modeling of the influence of tertiary processes on the rocks of the Bazhenov Formation in order to increase the final oil recovery of the bed. 相似文献
19.
E. V. Ponomareva L. M. Burshtein A. E. Kontorovich E. A. Kostyreva 《Doklady Earth Sciences》2018,481(1):918-921
The distribution of organic carbon in the Bazhenov horizon rocks of the western Siberian sedimentary basin is investigated. The organic carbon concentration in rocks is estimated by the results of core analyses (4094 core analyses) and by the calculations of the core-log data correlations (48 500 measurements) according to the data of radiation and electrical loggings. The average content of organic carbon in the rocks of the Bazhenov and Tutleim (lower subformation) formation is 7.7%. The map of organic carbon concentrations in the sedimentary rocks of the basin is constructed. In the basin, Corg is distributed asymmetrically. The region of maximum Corg concentrations occupies the southwestern part of the internal area of the sedimentary basin. Silicites and biogene silica-enriched mixtites are enriched with organic matter most of all. 相似文献
20.
Division of sedimentary strata according to groundwater chemistry is discussed with implications for petroleum reservoir potential. It is suggested to process multiparametric water chemistry data from West Siberia using formalized clustering techniques. The efficiency of this approach has been tested for Neocomian clinoform reservoirs with reference to regional-scale appraisal and subregional petroleum division. 相似文献