A. Yu. Kosmacheva scite author profile

A. Yu. Kosmacheva

5Publications

2Citation Statements Received

11Citation Statements Given

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Affiliations

Institute of Petroleum Geology and Geophysics

Publications

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Basin and petroleum system modeling in conjunction zone of the Alexander and Srednevasyugan anticlines and Ust-Tym depression, southeastern part of the West Siberian hydrocarbon province (Russia)

Kosmacheva

Fedorovich

2020

J Petrol Explor Prod Technol

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The paper is aimed at the basin and petroleum system modeling in the conjunction zone of the Alexander and Srednevasyugan anticlines and Ust-Tym depression during the Mesozoic-Cenozoic time. The exploration area is located in the southeastern part of the West Siberian hydrocarbon province. The present research primarily identifies the oil-window-entry time, maturity, generation points, generation power, and remaining potential of the Togur and Bazhenov source rocks. The Togur oil-window-entry time is 139.5 Ma. The Bazhenov oil-window-entry time is 99 Ma. Liquid hydrocarbons are extensively generated by the source rocks at the present time, since the Togur and Bazhenov Formations are found to be in the oil window. The significant amount of generated hydrocarbons is lost in migration processes. The source rock generation power and remaining potential are 1.1 and 1.5 billion tons of hydrocarbons, respectively.

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Seismogeological model of the mesozoic–cainozoic sedimentary cover of the western part of the Vilyui hemisyneclise (by the example of the Srednetyungskoye field)

Fedorovich

Ivashinenko

Kosmacheva³

2022

Russian Journal of geophysical technologies

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In the work, a comprehensive interpretation of seismic materials and drilling data was carried out, sets of structural maps and isopach maps of seismogeological complexes were constructed, which served as the basis for structural-tectonic analysis and study of the history of the formation of the Srednetyungsky uplift, which controls gas deposits in the Upper Permian and Lower Triassic deposits. It is concluded that in the relief of the base of the Triassic, the Middle Tyung uplift was formed in the Cretaceous as a result of an increase in tectonic activity in the territory of the entire Vilyui hemisyneclise.

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Revising Source Rocks of the Central Part of Loglor Structure According to One-Dimensional Petroleum System Modeling (Andylakh Field, the Republic of Sakha (Yakutia))

Kosmacheva

Fedorovich

2021

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Computer Modeling of the Sand Bodies Depositional History of the Middle Jurassic Petroleum Play (By the Example of the Gerasimovskoe Field, Western Siberia)

Fedorovich¹,

Ras²,

Kosmacheva³

2020

GAMROS

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The present paper describes the DIONISOS software package (Beicip-Technologies), where the reconstruction of the accumulation conditions and facies modeling of sand reservoirs Yu10, Yu9, Yu8, Yu7 and Yu6 of the Tyumenskaya Formation and carbonaceous-clay members acting as fluid seals within the Gerasimovskoye oil and gas condensate field located in the south of the Parabel district of the Tomsk region. Reconstructions of facies environments make it possible to consistently restore conditions and create a general principled model of the accumulation of sandy-argillaceous deposits of the Middle Jurassic PP in a given territory. Polyfacies deposits of the Bajocian are represented by sands of distributaries and stream-mouth bars, underwater slope of delta, above-water and underwater delta plains, argillaceous-carbonaceous sediments of floodplain lakes, bogs, marshes and lagoons, clays formed at the border of the above-water and underwater deltaic plains, silt deposits of above-water and underwater delta plains, prodelta clays. As a result of the 3D facies model construction, it is shown that the subcontinental sedimentary environments of sand reservoirs Yu10–Yu8 are replaced by deltaic and floodplain-lacustrine-boggy ones, and the formation of Yu7–Yu6 reservoirs occurs in conditions of coastal plain, periodically flooded by the sea. In total, 5 lithotypes of sand deposits have been identified, 1 – argillaceous-carbonaceous, 2 – argillaceous and 1 – silty. Computer facies 3D modeling of the sand bodies assemblage (hydrocarbon reservoirs) of the Bajocian age for the Gerasimovskoye oil and gas condensate field has been performed.

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Three-dimensional basin and petroleum system modeling of the Upper Paleozoic and Mesozoic in the Vilyui hemisyneclise

Kosmacheva¹,

Fedorovich²

2021

OIJ

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A. Yu. Kosmacheva

Basin and petroleum system modeling in conjunction zone of the Alexander and Srednevasyugan anticlines and Ust-Tym depression, southeastern part of the West Siberian hydrocarbon province (Russia)

Seismogeological model of the mesozoic–cainozoic sedimentary cover of the western part of the Vilyui hemisyneclise (by the example of the Srednetyungskoye field)

Revising Source Rocks of the Central Part of Loglor Structure According to One-Dimensional Petroleum System Modeling (Andylakh Field, the Republic of Sakha (Yakutia))

Computer Modeling of the Sand Bodies Depositional History of the Middle Jurassic Petroleum Play (By the Example of the Gerasimovskoe Field, Western Siberia)

Three-dimensional basin and petroleum system modeling of the Upper Paleozoic and Mesozoic in the Vilyui hemisyneclise

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