Lithological-Mineralogical Peculiarities of Sedimentary Rocks in Abnormal Thermobaric Conditions and Prediction of Oil and Gas Content at Great Depths

The article dedicated to special features of geological structure and petroleum potential of Pripiat-Dniper-Donets-Karpinskiy rift, which extends into Manguslak territory. From petroleum point of view riftogenesis is positive factor, which creates in the basement and sedimentary rocks the system of fauls, which increases permeability.

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OIL AND GAS CONTENT PERSPECTIVES OF POTENTIAL UNCONVENTIONAL-TYPE DEPOSITS (LITHOLOGICALLY LIMITED) OF KHALI-KYAPAZ ANTICLINAL BELT IN CONNECTION WITH ITS GEOLOGICAL DEVELOPMENT HISTORY

Geology Geophysics and Development of Oil and Gas Fields ◽

10.30713/2413-5011-2018-8-20 ◽

2018 ◽

pp. 8-20

Author(s):

Kh.Z. Mukhtarova ◽

◽

G.D. Nasibova ◽

Keyword(s):

Oil And Gas ◽

Gas Content ◽

Development History

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Deep fluids and their role in hydrocarbon migration and oil deposit formation exemplified by supercritical СO2

Earth and Environmental Science Transactions of the Royal Society of Edinburgh ◽

10.1017/s1755691021000013 ◽

2021 ◽

pp. 1-11

Author(s):

Sara LIFSHITS

Keyword(s):

Supercritical Fluid ◽

Oil And Gas ◽

Gas Permeability ◽

Sedimentary Rocks ◽

Source Rocks ◽

Reservoir Properties ◽

Hydrocarbon Migration ◽

Geological Processes ◽

Before And After ◽

Oil Source

ABSTRACT Hydrocarbon migration mechanism into a reservoir is one of the most controversial in oil and gas geology. The research aimed to study the effect of supercritical carbon dioxide (СО2) on the permeability of sedimentary rocks (carbonates, argillite, oil shale), which was assessed by the yield of chloroform extracts and gas permeability (carbonate, argillite) before and after the treatment of rocks with supercritical СО2. An increase in the permeability of dense potentially oil-source rocks has been noted, which is explained by the dissolution of carbonates to bicarbonates due to the high chemical activity of supercritical СО2 and water dissolved in it. Similarly, in geological processes, the introduction of deep supercritical fluid into sedimentary rocks can increase the permeability and, possibly, the porosity of rocks, which will facilitate the primary migration of hydrocarbons and improve the reservoir properties of the rocks. The considered mechanism of hydrocarbon migration in the flow of deep supercritical fluid makes it possible to revise the time and duration of the formation of gas–oil deposits decreasingly, as well as to explain features in the formation of various sources of hydrocarbons and observed inflow of oil into operating and exhausted wells.

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Determining factors of the unconsolidated rocks of Cenomanian reservoir on the Bolshekhetskaya depression

Oil and Gas Studies ◽

10.31660/0445-0108-2021-6-57-68 ◽

2021 ◽

pp. 57-68

Author(s):

N. Yu. Moskalenkо

Keyword(s):

Oil And Gas ◽

The Arctic ◽

Arctic Seas ◽

Reservoir Rocks ◽

Carbonate Cements ◽

Oil And Gas Fields ◽

Determining Factors ◽

Thermobaric Conditions ◽

Gas Fields ◽

Hydrocarbon Reserves

The relevance of the article is associated with the importance of the object of the research. Dozens of unique and giant oil and gas fields, such as Urengoyskoye, Medvezhye, Yamburgskoye, Vyngapurovskoye, Messoyakhskoye, Nakhodkinskoye, Russkoye, have been identified within the Cenomanian complex. The main feature of Cenomanian rocks is their slow rock cementation. This leads to significant difficulties in core sampling and the following studies of it; that is the direct and most informative source of data on the composition and properties of rocks that create a geological section.The identification of the factors, which determine the slow rock cementation of reservoir rocks, allows establishing a certain order in sampling and laboratory core studies. Consequently, reliable data on the reservoir and estimation of hydrocarbon reserves both of discovered and exploited fields and newly discovered fields that are being developed on the territory of the Gydan peninsula and the Bolshekhetskaya depression will be obtained. This study is also important for the exploration and development of hydrocarbon resources of the continental shelf in the waters of the Arctic seas of Russia as one of the most promising areas.As a result of the analysis, it was found that the formation of rocks of the PK1-3 Cenomanian age of the Bolshekhetskaya depression happened under conditions of normal compaction of terrigenous sedimentary rocks that are located in the West Siberian basin. Slow rock cementation of reservoir rocks is associated with relatively low thermobaric conditions of their occurrence, as well as the low content of clay and absence of carbonate cements. Their lithological and petrophysical characteristics are close to the analogous Cenomanian deposits of the northern fields of Western Siberia and can be applied to other unconsolidated rocks studied areas.

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Seismotectonics of the High Mountain Part of the Eastern Caucasus and the Prospects of Gas Content on the Example of the Natural Manifestation of Gas in Tsuschar Village (Dagestan)

Геология и геофизика Юга России ◽

10.46698/vnc.2020.88.37.009 ◽

2020 ◽

pp. 150-163

Author(s):

С.А. Мамаев ◽

А.Р. Юсупов ◽

А.С. Мамаев ◽

З.А. Юсупов

Keyword(s):

Oil And Gas ◽

Geological Structure ◽

Aerial Photographs ◽

Gas Content ◽

Tectonic Activity ◽

High Mountain ◽

Rare Gases ◽

Research Results ◽

Main Research ◽

Mountain Part

В данной статье даны особенности геологического строения района газопроявления «Цущар» в Кулинском районе на отложениях среднеюрского возраста, предлагается геолого-структурная схема возможного формирования залежи нефти и газа. Незначительные проявления газоносности, связанные обычно с минеральными источниками и подчиненные мощной толще юрских сланцев, развитых на значительных площадях нагорного Дагестана, начали обращать на себя внимание с 1931 г., в связи с поисками месторождений легких редких газов. Анализы газов показывают повышенное содержание легких редких газов в целом ряде месторождений нагорного Дагестана. Кроме группы месторождений Южного Дагестана известен пока только один выход горючего газа в Центральном Дагестане – Кулинском районе. На него указывает в своем рукописном отчете Дагестанскому Совнархозу геолог Н. М. Леднев. Этот выход подчинен юрским сланцам, связан с нарушениями неотектонического характера, образованными в результате сейсмической активизации региона. Цель исследования. Целью наших исследований является обоснование перспектив газоносности Горного Дагестана. На изучаемой территории отмечается наличие неправильных куполовидных складок с неожиданными направлениями их осей, пересекающими основное направление складчатости, частичными местными уклонениями в залегании пластов. Методы исследования. Основными методами исследования при изучении перспектив газоносности Горного Дагестана являлись геолого-структурный, стратиграфический, морфологический, тектонический и дешифрирование аэрофотоснимков. Результаты исследования. По сравнению с Предгорным Дагестаном и Прикумским районом, Горный Дагестан был подвержен более интенсивным геотектоническим движениям, неоднократно подвергался складчатости, испытал инверсию, со значительно большей амплитудой, что привело к усиленной денудации, развитию трещиноватости и разрывов, метаморфизму пород и органических образований. Все это отрицательно влияло на сохранение нефти и газа. Можно предполагать, что многие залежи, сформировавшиеся при прохождении продуцирующими толщами главной фазы нефтеобразования, были разрушены в периоды активизации тектонической деятельности на рубеже юры и мела, мела и палеогена. В дальнейшем шла генерация, преимущественно, газообразных углеводородов, которые при особенно благоприятных условиях могли сохраниться до настоящего времени. По результатам исследований можно утверждать, что газовое проявление Цущар могло проявиться в 1622, 1652 гг. в результате сильных землетрясений, эпицентр которых располагался в пределахисследуемого района This article describes the features of the geological structure of the Tsushar gas show area in the Kulinsky region on the Middle Jurassic deposits, and proposes a geological-structural diagram of the possible formation of oil and gas deposits. Minor manifestations of gas content, usually associated with mineral springs and subordinate to a thick stratum of Jurassic shales, developed over large areas of highland Dagestan, began to attract attention from 1931, in connection with the search for deposits of light rare gases. Gas analyzes show an increased content of light rare gases in a number of fields in highland Dagestan. In addition to the group of fields in Southern Dagestan, only one outlet of combustible gas in Central Dagestan is known – the Kulinsky region. It is pointed out in his handwritten report to the Dagestan Economic Council by the geologist N. M. Lednev. This outlet is subordinate to the Jurassic shale and is associated with neotectonic disturbances formed as a result of seismic activation of the region. Aim. The purpose of our research is to substantiate the prospects for gas content in Gorny Dagestan. In the study area, there are irregular dome-shaped folds with unexpected directions of their axes crossing the main direction of folding, partial local deviations in bedding. Methods. The main research methods in the study of the prospects for the gas content of Mountainous Dagestan were geological-structural, stratigraphic, morphological, tectonic and additional aerial photographs. Research results. Compared to Piedmont Dagestan and Prikumskiy region, Gorny Dagestan was subject to more intense geotectonic movements, repeatedly underwent folding, experienced inversion, with a much higher amplitude, which led to increased denudation, the development of fracturing and fractures, metamorphism of rocks and organic formations. All of this negatively affected the conservation of oil and gas. It can be assumed that many deposits, formed during the passage of the producing strata of the main phase of oil formation, were destroyed during periods of intensified tectonic activity at the boundary between the Jurassic and Cretaceous, Cretaceous and Paleogene. In the future, there was the generation of mainly gaseous hydrocarbons, which, under especially favorable conditions, could persist to the present day. According to the research results, it can be argued that the gas manifestation of Tsushar could have manifested itself in 1622, 1652. as a result of strong earthquakes, the epicenter, which was located within the study area

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KEROGEN TYPES OF BAZHENOV FORMATION BASED ON PYROLYSIS DATA AND THEIR COMPARISON WITH OIL PARAMETERS

Oil and Gas Studies ◽

10.31660/0445-0108-2017-5-34-43 ◽

2017 ◽

pp. 34-43

Author(s):

E. E. Oksenoyd ◽

V. A. Volkov ◽

E. V. Oleynik ◽

G. P. Myasnikova

Keyword(s):

Organic Matter ◽

Lower Cretaceous ◽

Alternative Model ◽

Oil And Gas ◽

Upper Jurassic ◽

Gas Content ◽

Basin Modeling ◽

Bazhenov Formation ◽

Gas Bearing

Based on pyrolytic data (3 995 samples from 208 wells) organic matter types of Bazhenov Formation are identified in the central part of Western Siberian basin. Zones of kerogen types I, II, III and mixed I-II and II-III are mapped. Content of sulfur, paraffins, resins and asphaltenes, viscosity, density, temperature and gas content in oils from Upper Jurassic and Lower Cretaceous sediments (3 806 oil pools) are mapped. Oil gradations are identified and distributed. The alternative model of zones of kerogen II and IIS types is presented. The established distributions of organic matter types can be used in basin modeling and in assessment of oil-and-gas bearing prospects.

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Role of multiple reflections in the formationof wave field in the cretaceous successions of the Middli Kura depression in Azerbaijan

Geofizicheskiy Zhurnal ◽

10.24028/gzh.v43i3.236384 ◽

2021 ◽

Vol 43 (3) ◽

pp. 123-134

Author(s):

T. R. Akhmedov ◽

T. Kh. Niyazov

Keyword(s):

Wave Field ◽

Upper Cretaceous ◽

Oil And Gas ◽

Geophysical Methods ◽

Geological Structure ◽

Gas Content ◽

Seismic Exploration ◽

Time Interval ◽

Multiple Reflections ◽

Seismic Sections

The article is devoted to the elucidation of the nature of the wave field recorded below the supporting-dominant seismic horizon «P» in the Middle Kura depression of Azerbaijan. A brief overview of the work carried out here is given; it is indicated that some geologists and geophysicists of our country, in our opinion, mistakenly assume that the observed wave field below the specified horizon is formed mainly by multiple reflections. Since the introduction of the common depth point method into the practice of seismic exploration, individual areas of the Middle Kura depression in Azerbaijan, including the Yevlakh-Agjabedi trough, have been repeatedly studied with varying degrees of frequency tracking. On the basis of this, a fairly large number of promising structures have been identified and mapped. But the structure of the Mesozoic, in particular the deposits of the Upper Cretaceous, still remains insufficiently studied. The study of the geological structure of the Mesozoic sediments, which are considered promising in terms of oil and gas content, is an urgent geological task; exploration work was carried out in the studied areas of the Middle Kura depression using a complex of geophysical methods at the modern technical and methodological level and new results were obtained. The constructed seismic sections show a dynamically pronounced and well-traceable seismic horizon corresponding to the Mesozoic surface and located deeper than it, relatively weak, short, discontinuous reflective boundaries that characterize the structure within the Mesozoic deposits. The studies carried out on the basis of modeling and velocity analysis made it possible to prove that the wave field in the time interval corresponding to the Mesozoic deposits owes its origin to intermittent single reflections from volcanic-carbonate deposits of the Upper Cretaceous age.

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SEPARATE QUANTITATIVE PREDICTION OF OIL AND GAS CONTENT PROSPECTS FOR DZHEBOL STAGE PALEOZOIC DEPOSITS OF TIMAN-PECHORA OIL AND GAS BASIN

Oil and Gas Studies ◽

10.31660/0445-0108-2015-1-9-15 ◽

2015 ◽

pp. 9-15

Author(s):

A. I. Diyakonov ◽

L. V. Parmuzina ◽

S. V. Kochetov ◽

A. Yu. Malikova

Keyword(s):

Oil And Gas ◽

Sedimentary Basin ◽

Scientific Basis ◽

Source Rocks ◽

Gas Content ◽

Quantitative Prediction ◽

Oil And Gas Resources ◽

Gas Bearing

It is shown that the evolutionary-catagenetic model for calculating the initial potential hydrocarbon resources can serve as a scientific basis for the separate quantitative prediction of areas of oil-and-gas content. In this case retrospectively evaluated are the scales of generation and accumulation of hydrocarbons in the source rocks during catagenetic evolution of sedimentary basin. The authors propose a method, the results of evaluation of generation and accumulation scales and initial potential oil and gas resources for major oil-and-gas bearing complexes of Dzhebol stage.

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Hydrocarbon systems of the Crimean-Caucasian segment of the Alpine folded system

Georesursy ◽

10.18599/grs.2021.4.3 ◽

2021 ◽

Vol 23 (4) ◽

pp. 21-33

Author(s):

Vagif Kerimov ◽

Nurdin Yandarbiev ◽

Rustam Mustaev ◽

Andrey Kudryashov

Keyword(s):

Oil And Gas ◽

Foreland Basin ◽

Gas Content ◽

Hydrocarbon Generation ◽

Gas Source ◽

Coal Petrology ◽

Geochemical Studies ◽

Cenozoic Sediments ◽

Oil Formation ◽

Residual Potential

The article is devoted to the generation and accumulation systems in the territory of the Crimean-Caucasian segment of the Alpine folded system. An area of prolonged and stable sagging in the Mesozoic and Cenozoic – the Azov-Kuban Trough, which is a typical foreland basin – is distinguished within this segment. According to the results of geological and geochemical studies and modelling, depocentres are identified in this area, consolisated in four generative and accumulative hydrocarbon systems: Triassic-Jurassic, Cretaceous, Eocene and Maikop. Chemical-bitumenological, pyrolytic and coal petrology analysis of rock samples were carried out to assess geochemical conditions of oil and gas content in Meso-Cenozoic sediments. The modelling results made it possible to study and model the elements and processes of hydrocarbon systems in the Meso-Cenozoic in the Western Crimean-Caucasian region. It has been established that the extended catagenetic zoning is typical for these areas, which is caused by high rates of sedimentation and sagging, and large thicknesses of oil-bearing sediments in the source of oil formation, accordingly. The degree of organic matter depletion characterized the residual potential of the oil and gas source strata, was investigated. It is important for predicting and assessing the possibility of hydrocarbon generation.

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