Your search keyword '"horizontal well"' showing total 27 results

1. Numerical-analytical modeling of oil extraction from oil fields with a gas cap using horizontal wells with automatic history matching

Author

D. V. Shevchenko, A. A. Salamatin, A. D. Yarullin, S. A. Usmanov, V. V. Saveliev, V. A. Sudakov, A. P. Roschektaev, E. V. Yudin, D. S. Vorobyov, V. V. Sorokina, and A. A. Sveshnikova

Subjects

oil field, gas cap, horizontal well, gas-oil ratio, Geology, QE1-996.5

Abstract

The article describes a numerical-analytical model for gas breakthrough to a well during the development of oil fields with a gas cap using horizontal wells. The employed semi-analytical model allows describing the process of gas cone development and reproducing oil and gas production parameters from the well by matching to the actual production history using several coefficients. The numerical scheme of the model was implemented as a computational library in the Python 3.6 programming language.The algorithm was tested on oil deposits with a gas cap in the South Yamal oil and gas region and showed good results in history matching and forecasting calculations. The average calculation time of one iteration being less than 10 seconds allows for multiple model run scenarios using optimization algorithms for automatic calibration to actual production data. The results of the testing show the possibility of achieving satisfactory convergence using automated calibration to the production history. The developed algorithm reduces the workload of specialists in forecasting production, thereby enhancing the effectiveness of decisions made for development optimization.

Published

2024

2. Analytical and semi-analytical methods for modeling liquid inflow to a horizontal well (review)

Author

A. V. Nasybullin, P. E. Morozov, M. N. Shamsiev, L. R. Shaikhrazieva, V. A. Sayakhov, O. V. Denisov, and L. K. Shaidullin

Subjects

horizontal well, calculation of inflow, working sections of the horizontal wellbore, permeability anisotropy, hard-to-recover oil reserves, Geology, QE1-996.5

Abstract

The efficiency of using horizontal drilling technology largely depends on a number of factors, including the geological structure of the productive formation, fracturing, anisotropy, heterogeneity, porosity, and permeability. This necessitates the design of the process of oil inflow to the horizontal section of the well. The article presents analytical and numerical methods used in modeling liquid inflow to horizontal and multilateral wells. The main attention is paid to taking into account the anisotropy of reservoir permeability, the trajectory of the horizontal wellbore and hydraulic pressure losses due to friction.

Published

2024

3. Representation of pressure field and fluid flows in the proximity of a horizontal well based on the instant point sources

Author

R. I. Nafikov and A. A. Salamatin

Subjects

horizontal well, variable matrix permeability, transient pressure field, in/outflow rates, method of instant point sources, inverse problem, Geology, QE1-996.5

Abstract

The boundary value problem of transient pressure field development around a horizontal well in a laterally infinite, inhomogeneous, anisotropic reservoir is formulated under assumption of slow spatial variation of the matrix permeability along the well axis. The well is represented as a linear fluid source/sink. The pressure distribution is expressed in the integral form on the basis of the instant point source perturbation function found explicitly. The inverse problem for fluid in/outflow density rates simulation is reduced to solution of the integral equation at a given pressure inside the well. A computational procedure is developed and implemented to predict the in/outflow rates along the well and estimate the impact of the permeability variations on the well performance. Series of calculations for constant, linear, and variable permeability cases are analyzed and compared. The difference of the obtained solution from the so-called “locallyconstant” permeability approximation is demonstrated, accuracy and applicability of the latter approach are discussed.

Published

2024

4. Evaluation of stresses on the surface of production columns equipped with sand filters when downing into a horizontal well

Author

Marat Ya. Khabibullin

Subjects

anti-sand filter, horizontal well, profiled wire, interturn gap, total deflection, drag force, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

Relevance. The need to estimate the time of formation sand accumulation near the annulus of a horizontal well and the unit length of filter elements in the bottom of production strings and to determine the stresses on the surface of production strings equipped with sand filters when lowering into the well. Aim. Based on a study of the reasons for the continued flow of sand into wells equipped with anti-sand filters, to develop and propose measures related to the need to choose a reduction in the number of filters that provide the design flow rate of a horizontal well or a significant increase in the length of the filtering surface of the filters in order to reduce erosive wear of the wire winding. Objects. We are considering a well with a horizontal section, equipped with sand filters, the same size as the casing strings. It was assumed that the integrity of the surface of the filter elements would be preserved and the conditions for their destruction would be eliminated when lowering into the horizontal shaft. This presupposes the necessary efficient operation of the well throughout the entire operational period. The section of the first set of curvature and the forces arising during this are considered as wellas stability of a pipe string during possible stops. Centralizers are evenly located along the length of the column, then in some sections we will have a multi-span statically indeterminate beam, in each section of which a radial load acts. Methods. When studying the time of formation sand accumulation in the annular space of a horizontal well and a unit length of filter elements in the bottom of production strings, it is necessary at the first stage to determine the stresses on the surface of production strings equipped with sand filters when lowering into the well. Studying the assessment of the existence time of the transition period is of particular interest. This is, in other words, during what operational period there is a complete accumulation of formation sand in the annular space and the transition of formation drainage along the entire length of the horizontal wellbore to drainage of only zones adjacent to the filters. To calculate the fluid flow rate when the annular space of the horizontal well is completely filled with sand, the design values ​​of the AC4.8 formation parameters were used. The maximum value of depressions used in the calculations is assumed to be 1.5 MPa. Results. Consideration of situations that arise when filters are lowered into horizontal wells indicates that the outer surface of the filter elements is not protected from destruction as a result of contact stresses with the walls of the drilled wellbore. To protect against destruction and rubbing open gaps by clay-containing rocks, rigid centralizers should be installed along the edges of the filter elements, the maximum allowable distances between which should not exceed 4.0–4.5 m.

Published

2024

5. TECHNOLOGY FOR DEVELOPMENT OF A MASSIVE TYPE INHOMOGENEOUS DEPOSIT WITH GAS-OIL AND WATER-OIL CONTACTS

Author

Dmitriy S. Leontev, Yuriy V. Vaganov, Denis V. Shalyapin, Adelya D. Shalyapina, and Maria I. Zhigalkovskaya

Subjects

hard-to-recover reserves, horizontal well, cenomanian tier, pokurskaya formation, gas-oil contact, water-oil contact, heterogeneous deposit, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

Relevance. Today due to the entry of most large oil fields into the late stage of development, as well as the increase in the share of hard-to-recover reserves, non-standard methods of increasing oil recovery, characterized by increased controllability, energy efficiency and environmental friendliness, are becoming increasingly popular. For hard-to-recover reserves, which are characterized by complex geological features, expressed in the heterogeneity of reservoir layers, low filtration and capacitance properties, controlled physical impact on filtration processes will allow targeted impact on zones with residual reserves. Objective: to develop an effective technology for increasing the coefficient of oil recovery of a massive type deposit composed of an inhomogeneous terrigenous reservoir with the presence of gas-oil and water-oil contacts. Object: massive type deposit composed of an inhomogeneous terrigenous reservoir, with the presence of gas-oil and water-oil contacts. Methods: analysis of modern scientific and technical literature and production reports on the results of the application of various technical and technological solutions to increase the flow rate of wells and reduce the water content of products; the proposal of a new technology for the development of heterogeneous deposits of massive type with gas-oil and water-oil contacts. Results. The authors have proposed the technology for the development of an inhomogeneous deposit of a massive type with gas-oil and water-oil contacts. The technology will improve the efficiency of oil production by increasing the coverage area of the deposit in the oil-saturated part of the reservoir. The novelty lies in the system of placing producing wells with a horizontal end with inclined branches relative to the levels of water-oil and gas-oil contacts in massive deposits, as well as the direction and sequence of drilling of inclined branches from the zones of gas-oil contact and water-oil contact.

Published

2022

6. Development of a hydrocarbon completion system for wells with low bottomhole temperatures for conditions of oil and gas fields in Eastern Siberia

Author

Mikhail V. Dvoynikov and Margarita E. Budovskaya

Subjects

well drilling, well completion, horizontal well, chayandinskoye oil and gas condensate field, hydrocarbon-based drilling mud, destructor solution, Mining engineering. Metallurgy, TN1-997

Abstract

The paper presents the results of investigations on the influence of low bottomhole temperatures in the intervals of productive formations on the technological properties of solutions used for drilling and completion of wells in order to determine the possibility of increasing gas recovery coefficient at the field of the “Sila Sibiri” gas pipeline. The analysis of technological measures determining the quality of the productive horizon drilling-in was carried out. It was found out that the dispersion of bridging agent in the composition of the hydrocarbon-based drilling mud selected from the existing methods does not have significant influence on the change in the depth of filtrate penetration into the formation in conditions of low bottomhole temperatures. The main reason for the decrease in the near-bottomhole zone permeability was found out – the increase in plastic viscosity of the dispersion medium of the hydrocarbon-based drilling mud under the influence of low bottomhole temperatures. A destructor solution for efficient wellbore cleaning from hydrocarbon-based solution components in conditions of low bottomhole temperatures was developed. The paper presents the results of laboratory investigations of hydrocarbon-based drilling mud and the developed destructor solution, as well as its pilot field tests. The mechanism of interaction between the destructor solution and the filter cake of the hydrocarbon-based drilling mud ensuring the reduction of the skin factor in the conditions of the geological and hydrodynamic structure of Botuobinsky, Khamakinsky and Talakhsky horizons of the Chayandinskoye oil and gas condensate field has been scientifically substantiated.

Published

2022

7. MEASURING THE SOIL COMPACTION ZONE AND PRESSURE OF DEFORMED SOIL ON UNDERGROUND OBJECTS WITH AN ASYMMETRIC CYLINDRICAL TIP

Author

Vladimir Suponyev, Nataliia Fidrovska, Sergii Balesnyi, Vitaliy Ragulin, and Svyatoslav Kravets

Subjects

trenchless technologies, soil puncture, soil compaction, engineering communications, horizontal well, communication cavity, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

At trenchless laying of engineering communications in soil the method of static puncture has received wide application at formation of a well. Power plants that implement it have small dimensions, which make them more effective in laying distribution engineering networks in tight urban conditions. Problem. The main disadvantages of the method are the low accuracy of the trajectory and the significant stress in the soil after its compaction, which can lead to the destruction of adjacent under-ground objects. The first disadvantage is solved by controlling the trajectory of the soil-piercing working body. To solve the second question, it is necessary to know and take into account the specifics of the formation of communication cavities in the soil with an asymmetric tip, which is used for this purpose. Goal. The aim of the work is to establish the regularity of the process of soil puncture by the soil-piercing working body with an asymmetric tip in the form of a cylinder cut at an angle. Methodology. The approaches adopted in the work to solve this goal are based on the theories of deep soil cutting, scientific foundations of soil mechanics, their normative physical and mechanical properties and the law of conservation of soil mass before and after compaction. Results. The calculated dependences for determining the size of the destructive zone from the elastic-plastic deformation of the soil during its puncture by an asymmetric tip with a frontal surface in the form of a beveled cylinder and the pressure of the deformed soil on underground objects are obtained. It is established that the maximum size of the destruction zone and its pressure on underground objects will occur in solid sand. With a tip diameter of 0.3 m, their values can reach 5 m and 0.245 MPa, respectively. Originality. The obtained regularities of soil puncture by a working body with an asymmetric tip in the form of a beveled cylinder made it possible to get an idea of the influence of its deformed state on adjacent communications depending on geometric parameters of the tip and physical and mechanical properties of soils. Practical value. The obtained results can be recommended in the design and determination of technological capabilities of installations for static soil puncture.

Published

2021

8. SYSTEM OF DEVICE FOR CONTROLLING FLUID INJECTION IN A WELL

Author

Rustem A. Ismakov, Ekaterina V. Denisova, Marina A. Chernikova, and Sergey P. Sidorov

Subjects

inflow control device, horizontal well, neural networks, matrix approach, modeling, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

The relevance of the research is in the fact that fluid flow control devices can serve as a practical solution to premature breakthrough of water or gas in a horizontal well due to heterogeneity of inflow profile along the axis of the horizontal trunk, changes in reservoir pressure at various sites, as well as development of contact fields, especially as the deposits are depleted, serve as fluid control devices. There are active Interval Control Valve (ICV) or passive Inflow Control Device (ICD). ICD devices are able to equalize the inflow along the horizontal well, creating additional resistance to fluid flow, depending on the amount of inflow in this horizontal section. The drawback of modern ICDs is that they do not have the ability to regulate and activate ICD after installation in the wellbore. This creates certain risks associated with the uncertainty in description of reservoir properties that are present at all stages of field development. ICV systems are operated remotely from the surface of the well, but are not able to determine the nature of the incoming fluid (oil, gas, water) into the well and make a decision in automatic mode. Objects of the research are a horizontal wells and a fluid flow control device. Methods: simulation Simulink, neural networks, matrix methods, methods of linearization of nonlinear equations. The main aim of the research is to development of a new design scheme of the inflow control device, with the possibility of continuous monitoring of the nature of the incoming liquid, and software for controlling the valve with the wellhead. Results. The authors have proposed a new design scheme of inflow control device in a horizontal well, which helps continuous assessment the nature of the incoming fluid. This design allows you automatically adjust the position of the actuator mechanism, as reported by measuring instruments. The mathematical description of the valve operation is given. The model of the valve was developed in Simulink simulation environment, using the matrix approach and neural networks, to build a qualitative dependence of the valve position on pressure drop value. The results of the neural network block operation and the final result of modeling are presented.

Published

2019

9. DETERMINING SOIL REACTIONS AND THE VALUE OF DEVIATION FROM A LINEAR TRAJECTORY OF ASYMMETRICAL SOIL THRUST WORKING BODY

Author

S. Kravets, V. Suponev, and S. Balesniy

Subjects

mathematical model, trenchless technologies, communication, horizontal well, soil thrust boring head, soil thrust boring plant, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

The construction of underground communications in urban conditions is very difficult due to the large number of existing communications. Thus, it is necessary to change the trajectory of the horizontal well during soil thrust boring. An analytical method for determining soil reactions and the deviation of the trajectory of an asymmetric soil thrust working body, which can be used to correct or control the trajectory during puncture, is suggested.

Published

2017

10. Multisensor Research Technologies of Oil Horizontal Wells on Fields of the Republic of Tatarstan

Author

M.Kh. Khairullin, E.R. Badertdinova, and N.A. Nazimov

Subjects

horizontal well, pressure, temperature, permeability, multi-sensor technologies, inverse task, Geology, QE1-996.5

Abstract

In the Republic of Tatarstan the development widely involves hard-to-recover reserves of hydrocarbons, confined to low-permeable, heterogeneous and dissected reservoirs. Improvement of recovery efficiency of such reserves largely depends on the operational control system based on information about the filtration and thermal properties of the oil reservoir. Issues, related to the interpretation of geological field information, lead to incorrect mathematical problems in terms of Hadamard. The numerical solution of such problems requires the development of special methods. A mathematical model of thermohydrodynamic processes occurring in the ‘horizontal well’ system is constructed in the paper. Based on this model and regularization methods of A.N. Tikhonov, a computational algorithm is proposed for interpreting the results of thermohydrodynamic studies of horizontal wells and layers. Curves of the temperature changes are taken as the initial information, taken simultaneously by several deep instruments installed at different parts of the horizontal part of the wellbore. This approach makes it possible to evaluate the filtration parameters of an inhomogeneous reservoir and to construct an inflow profile along the trunk of a horizontal well.

Published

2017

11. Numerical Simulation of One-Phase Flow to Multi-Stage Hydraulically Fractured Horizontal Well

Author

M.R. Khamidullin

Subjects

horizontal well, multi-stage hydraulic fracturing, one-phase filtration, algebraic multigrid method, preconditioner, Mathematics, QA1-939

Abstract

This paper presents a method of numerical simulation of one-phase flow near multi-stage fractured horizontal well in oil reservoir. Differential models for flows within reservoir and within fractures are formulated separately on the basis of Darcy's law. Numerical approximations of these models are performed using the finite volume method. The resulting systems of linear equations are then assembled into the single system to avoid an iterative coupling of numerical solutions for problems in the reservoir and fractures. Different solution methods for coupled ill-conditioned systems of linear equations are examined.

Published

2016

12. Mathematical Model of Fluid Filtration to a Multistage Hydraulically Fractured Horizontal Well

Author

A.B. Mazo, K.A. Potashev, and M.R. Khamidullin

Subjects

horizontal well, multistage hydraulic fracturing, one-phase filtration, Mathematics, QA1-939

Abstract

This paper presents a three-dimensional numerical model based on the finite volume method for simulation of single-phase fluid filtration towards a multistage hydraulically fractured horizontal well (MHFHW). The impact of fracture and well characteristics on the well productivity is numerically investigated. The approximation method for multistage fracturing efficiency estimation is proposed. It is based on a 3D problem simplification to a one-dimensional partial differential model due to different kinds of flow symmetry in the near well-bore area. The resulting solution of the simplified problem is improved with the help of 3D simulation. The technique can be used for rapid multistage fracturing efficiency estimation. Furthermore, it can be embedded into generic oil reservoir simulation models.

Published

2015

13. GEODYNAMIC ASPECTS IN THE STUDY OF COMPLEX MINING AND GEOLOGICAL CONDITIONS FOR DRILLING INTO OIL-AND-GAS RESERVOIRS IN THE RIPHEAN CARBONATE ROCKS: AN OVERVIEW OF THE PROBLEM AS EXEMPLIFIED BY THE DEPOSITS IN THE BAIKIT PETROLIFEROUS DISTRICT

Author

A. G. Vakhromeev, S. A. Sverkunov, V. M. Ivanishin, R. K. Razyapov, and E. V. Danilova

Subjects

geodynamics, production drilling, horizontal well, mud-loss, drilling technology, riphean carbonate reservoir, Science

Abstract

The practical aspects are discussed in the geodynamic studies of the massive vugular-fractured oil-and-gas reservoir in the Riphean carbonate rocks of the Yurubcheno-Tokhoma oil-gas-condensate field in the Baikit petroli­ferous district. This field is a part of the Yurubcheno-Tokhoma zone that includes the Kuyumba oil-and-gas field, Omorinsk gas-condensate field (a satellite field) and the promising Kamovsky, Vaividinsky, Shushuksky, Seismorazvedochny and Kordinsky areas [Kontorovich et al., 1988]. Potential recoverable resources are predicted to amount to two billion tonnes of fuel equivalent in this zone, which area exceeds 60000 km2, also known as the Kuyumba-Yurub­cheno-Tokhoma oil-and-gas accumulation zone [Trofimuk, 1992; Trofimuk et al., 1989; Kharakhinov, Shlenkin, 2011]. A key factor for the economically effective development of the deposits in the Baikit petroliferous district is the feasibi­lity of efficient primary recovery of oil and gas by horizontal wells to be drilled to large depths to reach the complex fractured natural reservoirs in the Riphean carbonate rocks. This paper discusses one field as an example from the Baikit petroliferous district and summarizes the results of the detailed studies of the geodynamic and hydrodynamic conditions of the oil-gas-condensate reservoir in the Riphean rocks. The reported results are compared with the actual field data, including the annulus pressure sensor measurements [Vakhromeev et al., 2013, 2015, 2016]. The previous findings are confirmed and extended: when vertical fractures are penetrated by drilling, and the hydraulic pressure variations amount to 0.5–1.5 % of the formation pressure, the effect of alternating mud-loss / kicks occurs in the near-wellbore zone due to the high permeability of the reservoir and the lack of the skin-effect in the bottomhole zone [Sverkunov et al., 2016]. The allowable ranges of the variations in the dynamic bottomhole pressure are estimated and justified for primary penetration into the oil-saturated vugular-fractured strata. Within an allowable range of pressure rates, a horizontal well can be drilled with minimal complications caused by alternating adjustable mud-loss and kick effects. Based on our study results, prerequisites are determined for developing the new technology of penetrating into pay zones in carbonate vugular-fractured reservoirs with anomalously low formation pressure rates.

Published

2017

14. Comprehensive studies of aluminum drill pipe materials

Author

Alina Ildarovna Shakirova, Rustem Adipovich Ismakov, and Akhtyam Khalimovich Agliullin

Subjects

drill string, light alloy drill pipe, equal-channel angular pressing (ECAP), margin of safety, horizontal well, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

The relevance of the discussed issue is caused by the need to use high quality material of drilling and rock cutting tool for developing remote regions of the Far North and Arctic offshore. The main aim of the study is the enhancement of Light Alloy Drill Pipe material properties based on the results of the comprehensive studies of the aluminum alloy samples series, including its tribological tests on friction machines. The methods used in the research: study of light alloy drill pipe specimens wear in contact with the steel casing (45 D group) on the friction machine UMT 2168 and tester FANN in fluid medium-work-study of light alloy drill pipe specimens in contact «metal-rock» on the friction machine AI-3M in fluid medium-work-study of light alloy drill pipe specimens in «casing - drill pipe» system on the friction machine II-5018 in fluid medium. The results. The paper demonstrates that the methods based on machines UMT-2168, II-5018, AI-3M and tester FANN allow simulating friction process of drill pipe made of light alloy providing physical similarity of tribological process of «drill pipe - casing», «drill pipe - rock» pairs in various drilling fluids. The authors have studied the effect of the applied drilling fluids with lubricants and polymeric additives on performance of tribological drilling fluids properties in relation to the friction pair «metal-rock». It is recommended to apply the severe deformation technique, in particular the equal channel angular pressing, to obtain ultra-fine grain structure in aluminum alloys with the given physical and mechanical properties required to improve the tribotechnical features and increase of operating life of drill pipes.

Published

2017

15. Technology for development of a massive type inhomogeneous deposit with gas-oil and water-oil contacts

Author

Leontev, Dmitry Sergeevich, Vaganov, Yuri Vladimirovich, Shalyapin, Denis Valerievich, Shalyapina, Adela Daniyarovna, and Zhigalkovskaya, Maria Igorevna

Subjects

покурская свита, углеводороды, добыча, Materials Science (miscellaneous), Cenomanian tier, Management, Monitoring, Policy and Law, Geotechnical Engineering and Engineering Geology, gas-oil contact, нефтеизвлечение, Fuel Technology, сеноманский ярус, водонефтяной контакт, Pokurskaya formation, неоднородные залежи, hard-to-recover reserves, трудноизвлекаемые запасы, добывающие скважины, Economic Geology, horizontal well, heterogeneous deposit, Waste Management and Disposal, газонефтяной контакт

Abstract

Актуальность. В настоящее время нефтегазодобывающей промышленности России приходится сталкиваться с определенными трудностями, влияющими на эффективность добычи углеводородов и уровень разработанности месторождений нефти и газа, соответственно. Особый интерес добывающих предприятий и научного сообщества представляют трудноизвлекаемые запасы, поскольку их объем велик и с каждым годом повсеместно увеличивается. На данный момент, по оценке Минэнерго РФ, доля трудноизвлекаемых запасов составляет более 65 % от общего объема доказанных запасов в стране. Время «легкой нефти» заканчивается. На данный момент в общероссийской добыче доля трудноизвлекаемых запасов составляет около 10 %. По этой причине существует необходимость разработки и внедрения новых технологий воздействия на пласты, содержащие такую нефть, и усовершенствования существующих методик. Цель: разработать эффективную технологию повышения коэффициента нефтеизвлечения залежи массивного типа, сложенной неоднородным терригенным коллектором с наличием газонефтяного и водонефтяного контактов. Объектом является залежь массивного типа, сложенная неоднородным терригенным коллектором с наличием газонефтяного и водонефтяного контактов. Методы: анализ современной научно-технической литературы и производственных отчетов по результатам применения различных технико-технологических решений по повышению дебита скважин и снижению обводненности продукции; описание новой технологии разработки неоднородной залежи массивного типа с газонефтяным и водонефтяным контактами. Результаты. Предложена технология разработки неоднородной залежи массивного типа с газонефтяным и водонефтяным контактами. Технология позволит повысить эффективность добычи нефти за счет увеличения зоны охвата залежи в нефтенасыщенной части пласта. Новизна заключается в системе расстановки добывающих скважин с горизонтальным окончанием и наклонными ответвлениями относительно уровней водонефтяного и газонефтяного контактов в залежи массивного типа, а также направленности и очередности бурения наклонных ответвлений от зон указанных контактов. Relevance. Today due to the entry of most large oil fields into the late stage of development, as well as the increase in the share of hardto-recover reserves, non-standard methods of increasing oil recovery, characterized by increased controllability, energy efficiency and environmental friendliness, are becoming increasingly popular. For hard-to-recover reserves, which are characterized by complex geological features, expressed in the heterogeneity of reservoir layers, low filtration and capacitance properties, controlled physical impact on filtration processes will allow targeted impact on zones with residual reserves. Objective: to develop an effective technology for increasing the coefficient of oil recovery of a massive type deposit composed of an inhomogeneous terrigenous reservoir with the presence of gas-oil and water-oil contacts. Object: massive type deposit composed of an inhomogeneous terrigenous reservoir, with the presence of gas-oil and water-oil contacts. Methods: analysis of modern scientific and technical literature and production reports on the results of the application of various technical and technological solutions to increase the flow rate of wells and reduce the water content of products; the proposal of a new technology for the development of heterogeneous deposits of massive type with gas-oil and water-oil contacts. Results. The authors have proposed the technology for the development of an inhomogeneous deposit of a massive type with gas-oil and water-oil contacts. The technology will improve the efficiency of oil production by increasing the coverage area of the deposit in the oilsaturated part of the reservoir. The novelty lies in the system of placing producing wells with a horizontal end with inclined branches relative to the levels of water-oil and gas-oil contacts in massive deposits, as well as the direction and sequence of drilling of inclined branches from the zones of gas-oil contact and water-oil contact.

Published

2022

16. АНАЛИЗ ВОЗМОЖНЫХ СПОСОБОВ ПОВЫШЕНИЯ ЭФФЕКТИВНОСТИ ПРОВЕДЕНИЯ МНОГОСТАДИЙНОГО ГИДРАВЛИЧЕСКОГО РАЗРЫВА ПЛАСТА НА НЕФТЯНЫХ МЕСТОРОЖДЕНИЯХ

Subjects

proppant, гидравлический разрыв пласта, многостадийный гидравлический разрыв пласта, multi-stage hydraulic fracturing, горизонтальная скважина, horizontal well, проппант, hydraulic fracturing

Abstract

Целью настоящей работы является определение комплекса технических мероприятий, обеспечивающих технологически и экономически наиболее эффективное проведение многостадийного гидроразрыва пласта (МГРП) на нефтяных месторождениях. Задачей работы является провести анализ современных разработок в области повышения эффективности проведения МГРП, выявить актуальные проблемы и резервы улучшения проектирования МГРП, а также выявить наиболее вероятные риски при реализации проектов многостадийного гидравлического разрыва пласта., The purpose of this study is to determine a set of technical measures that ensure the most technologically and economically efficient multi-stage hydraulic fracturing at oil fields. The objectives are to analyze modern developments in the field of improving the efficiency of multistage hydraulic fracturing, to identify current problems and reserves for improving the design of multistage hydraulic fracturing, as well as to identify the most likely risks in the implementation of the projects of the practce under study., Международный научно-исследовательский журнал, Выпуск 7 (109) 2021, Pages 102-106

Published

2021

17. Анализ эффективности применения горизонтальных скважин с помощью гидродинамических исследований

Subjects

well test, горизонтальная скважина, horizontal well, гидродинамические исследования

Abstract

В работе изучены характеристики эффективности работы горизонтальных скважин с помощью гидродинамических исследований методом установившихся отборов, позволяющие оценить их преимущества по сравнению с вертикальными скважинами. Проведен анализ особенностей интерпретации гидродинамических исследований методом восстановления давления, связанных с отсутствием достоверной информации об эффективной длине горизонтального ствола скважины, The paper studies the characteristics of horizontal wells performance with the help of Wells Testing in applying of pressure transient test which allows to evaluate their advantages compared to vertical wells. Analysis of Wells Testing in applying of pressure build up interpretation features are performed associated with reliable information deficiency about effective length of horizontal shaf, №5 (2020)

Published

2020

18. ОПЫТ РАЗРАБОТКИ КАРБОНАТНЫХ ОТЛОЖЕНИЙ С АКТИВНОЙ ВОДОНЕФТЯНОЙ ЗОНОЙ

Subjects

давление смыкания трещин, production decline curve, коэффициент извлечения нефти (КИН), induced cavern, горизонтальная скважина (ГС), oil recovery factor, waterflooding, well spacing, overburden pressure, relative cleanout efficiency, pilot development, maximum allowable injection bottomhole pressure, плотность сетки скважин (ПСС), dual completion, искусственный каверн-накопитель (ИКНН), horizontal well, заводнение, горное давление (Ргор), опытно-промышленные работы (ОПР), относительная эффективность промывки (ОЭП), fracture closure pressure

Abstract

Обеспечение полноты извлечения нефти из карбонатных залежей с активными водонефтяными зонами (ВНЗ) относятся к важнейшим и актуальным задачам в нефтяной отрасли. Как известно, основными проблемами разработки объектов с контактными ВНЗ являются преждевременное обводнение добываемой продукции и, как следствие, сокращение периода рентабельной работы скважин, снижение коэффициента извлечения нефти. Природу преждевременного нарастания обводненности добываемой продукции можно объяснить развитой сетью трещиноватости пронизывающей нефтенасыщенные и водонасыщенные толщи карбонатных коллекторов 1-4, The issue of maximizing oil recovery from carbonate deposits containing active water-oil zone is one of the main challenges that the oil industry is facing currently. It is common knowledge, that the main problem associated with the development of production targets with water/oil contact zones is premature high water-cut production with resultant decrease in economic life of wells and reduction of oil recovery factor. The nature of premature water cut growth is attributable to well-developed fracture network penetrating oil-and-water saturated intervals of carbonate reservoirs 1-4, №4(20) (2019)

Published

2019

19. Интерпретация гидродинамических исследований горизонтальных скважин при неустановившейся фильтрации

Subjects

well test, горизонтальная скважина, horizontal well, transient flow, гидродинамические исследования, неустановившаяся фильтрация

Abstract

В работе представлен анализ и обобщение математических моделей для интерпретации гидродинамических исследований горизонтальных скважин методами нестационарной фильтрации. Даны рекомендации и рассмотрены примеры интерпретации реальных промысловых данных, The paper presents an analysis and generalization of mathematical models for the interpretation of horizontal wells testing using nonstationary flow methods. Recommendations are given and examples of interpretation of real production data are considered., №4 (2019)

Published

2019

20. Исследование неустановившегося притока к горизонтальным скважинам

Subjects

кривая восстановления давления (КВД), кривая падения давления (КПД), авто - ГРП, нагнетательные скважины, injection well, reservoir cooling, pressure transient tests, горизонтальные скважины, hydraulic fracturing, pressure buildup curve, self-induced hydraulic fracturing, охлаждение пласта, pressure decline curve, гидравлический разрыв пласта (ГРП), horizontal well, гидродинамические исследования

Abstract

Приведён анализ гидродинамических исследований горизонтальной скважины на протяжении долгого периода времени разработки, влияние закачки на добычу горизонтальной скважины и проблемы интерпретации гидродинамических исследований скважин (ГДИС). Геологическая среда представляет на каждом иерархическом уровне совокупность перемежающихся участков с разными физико-механическими свойствами. В каждом геологическом блоке действует своя динамически подвижная система напряжений. При интенсивной разработке изменение давления приводит к различию напряжений на соседних участках. При исследованиях падения давления (КПД) в добывающих скважинах значение эффективных толщин выше, чем при исследованиях восстановления давления (КВД) Исследованиями Юсупова и Медведского [1] выявлено, что при длительной добыче возможно образование трещин. На графике гидродинамических исследований добывающей горизонтальной скважины выявлен длительный линейный приток вероятно связанный с трещиной. Исследования нагнетательной скважины обнаруживают на диагностическом графике параметры, свойственные трещинам, при этом ГРП на скважине не проводился. Охлаждение пласта в результате закачки в нагнетательные скважины холодной воды, существенно отличающейся по температуре от пластовой, приводит к снижению упругих напряжений и гидравлическому разрыву в нагнетательных скважинах при забойных давлениях, используемых при заводнении. В настоящее время известно, что в нагнетательных скважинах при большом контрасте температур пласта и закачиваемой воды происходит гидравлический разрыв, что видно по исследованиям кривой падения давления в нагнетательной скважине - при длительной закачке образовалась трещина автоГРП. Напряжения смыкания увеличивается с истощением продуктивного пласта, что приводит более низкой проводимости трещины. При длительном времени наблюдений выявляется изменчивость размеров трещины., The paper presents analysis of pressure transient tests in a horizontal well over a long development period, effect of injection on a horizontal well production rate, and pressure transient test interpretation problems. Geological environment is a combination of interbedded layers with different physical and chemical properties. Each geological block is characterized by inherent dynamic stress system. In case of rapid-rate reservoir development, pressure events result in difference between rock stresses in the adjacent zones. Pressure decline tests in producing wells give higher net-pay thickness values than pressure buildup tests. Yusupov and Medvedsky’s studies show that long-term production can be accompanied by fracturing. Pressure transient test curve for a horizontal producing well demonstrates continuous linear flow, which can probably be due to a fracture presence. The injection well testing curve reveals parameters typical of fractures, though hydrofrac jobs were not performed in that well. Reservoir cooling due to injection of cold water with temperature significantly lower than reservoir temperature results in elastic stress decrease and reservoir fracturing in injection wells under pressures applied during water-flooding. By now, we know that significant difference between reservoir temperature and the injected water temperature results in reservoir fracturing, which is proved by pressure decline curve for the injection well, where long-term injection entailed self-induced hydraulic fracturing. Fracture closure stress increases with reservoir pressure depletion, resulting in lower fracture conductivity. Long-term observations revealed fracture dimensions variability., №1(17) (2019)

Published

2019

21. Обзор новых интерпретационных моделей при гидродинамических исследованиях скважин

Subjects

гидродинамические исследования скважин (ГДИС), горизонтальная скважина, complex-architecture wells, скважины сложной конфигурации, horizontal well, hydraulic fracturing, well testing, гидроразрыв пла-ста (ГРП)

Abstract

Настоящая статья посвящена обзору новых интерпретационных моделей при гидроди-намических исследованиях скважин, среди которых наибольший интерес представляют модели горизонталь-ной скважины с многостадийным гидроразрывом пласта (МГРП) и скважины сложной конфигурации. Для модели горизонтальной скважины с МГРП приведен диагностический график, примеры расчетов, а также формулы для расчета изменения дебита для анизотропного пласта. Приведены формулы и пример расчета для модели скважины сложной конфигурации и пласта малой толщины, а также алгоритм расчета устано-вившейся и неустановившейся фильтрации для любых типов скважин с любыми работающими участками, Article overviews new flow models for well test interpretation, among which multi-fractured horizontal well and complex-architecture well models are of the great interest. Diagnostic plot for multi-fractured horizontal well provided calculation examples and anisotropic reservoir rate calculation formulas. Also provided formulas and calculation examples for complex-architecture well and thin reservoir, steady and transient filtration calculation formulas for any type of wells with different flow intervals configuration, №5 (2018)

Published

2018

22. Особенности притока к скважинам с горизонтальным окончанием

Subjects

productive index, multilateral well, trajectories of laterals, определение оптимальной длины, горизонтальная скважина, многоствольная скважина, траектории стволов, продуктивные характеристики, horizontal well, неустановившаяся фильтрация, unsteady flow, determination of optimum length

Abstract

Для разработки низкорентабельных месторождений все большее распространение получают скважины c горизонтальным окончанием (горизонтальные, горизонтальные с трещинами ГРП, многоствольные и др.). Строительство этих скважин позволяет снизить фильтрационные сопротивления, в результате чего достигается увеличение продуктивности скважины и снижение затрат на единицу добываемой продукции. Для выбора наиболее эффективной архитектуры дренажа с учетом особенностей коллектора, рациональной эксплуатации этих скважин, определения фильтрационных параметров пласта и призабойной зоны необходимо располагать методиками расчета установившейся и неустановившейся фильтрации жидкости. Известные аналитические методы расчета установившейся фильтрации справедливы только для однородного пласта с простейшей геометрической формой расположения стволов одинаковой длины. Для неустановившейся фильтрации существующие подходы позволяют учесть различную конфигурацию стволов, но используемые при этом методы являются трудоемкими для широкого практического применения. В связи с этим предлагаются простые методы расчета продуктивности и интерпретации КВД для скважин c горизонтальным окончанием. Суть методов заключается в суперпозиции фильтрационных сопротивлений для двух плоских задач. При этом траектория стволов скважины представляется набором вертикальных скважин или узлов, достаточно близко расположенных друг к другу. В основе метода описания восстановления давления используются: безразмерный профиль притока, полученный при моделировании установившейся фильтрации жидкости, и метод суперпозиций для восстановления давления в узлах. Для описания восстановления давления в узле применяется уравнение пьезопроводности в пространстве Лапласа и численный алгоритм Стефеста. Задача решается для порового и трещинно-порового коллектора. Предлагаемые подходы позволили установить область применения и ряд закономерностей, присущих скважинам c горизонтальным окончанием., Nowadays, horizontal completions (including horizontal wells, horizontal fractured wells and multilateral wells) are being extensively drilled throughout the world for the development of low-profit fields. Construction of these wells enables reduction of flow resistance, thus resulting in well productivity increase and costs reduction. For selection of optimal well design with regard to reservoir characteristics, effective well operation and determination of reservoir flow properties, calculation methods for steady and unsteady liquid flow are required. Few related papers have been published so far. However, analytical methods for steady flow are suitable only for homogeneous beds with simple geometry and equal-length laterals. Available approaches to pressure build up analysis allow to account for various lateral trajectories but FEA or semi-analytical methods are too labor-intensive for practical application. Therefore, simple methods of productivity index determination and pressure transient test interpretation are proposed for horizontal completions. These methods are based on the superposition of flow resistance for two plane problems. Trajectory of the laterals is simulated as a number of closely spaced vertical wells or nodes. The suggested method allows determining the field of application and regularities for horizontal wells. Dimensionless fluid-movement profile calculated from steady flow and superposition method for pressure build ups in the nodes are used for determination of pressure build up. For description of build up in a node we recommend a diffusion equation in Laplace space and Stephest numerical algorithm. The problem is solved for porous and dual porosity reservoirs. Numerical calculations show that cross-flows occur after the horizontal or multilateral well shutdown. Pressure derivative maximum suggests low effective length of the borehole or positive skin-effect. Knowledge of effective intervals length is critical to pressure curve interpretation., Нефтяная провинция, Выпуск 1 (9) 2017

Published

2017

23. Comprehensive studies of aluminum drill pipe materials

Author

Shakirova, Alina Ildarovna, Ismakov, Rustem Adipovich, and Agliullin, Akhtyam Khalimovich

Subjects

легкосплавные бурильные трубы, скважина с горизонтальной протяженности, drill string, horizontal well, бурильные колонны, equal-channel angular pressing (ECAP), margin of safety, запас прочности, light alloy drill pipe, метод РКУП

Abstract

Актуальность работы обусловлена необходимостью в использовании высококачественных материалов бурильного инструмента для поиска трудноизвлекаемых углеводородов Крайнего Севера и освоения арктического шельфа. Цель работы: совершенствование свойств материала легкосплавных бурильных труб (ЛБТ), основанное на результатах комплексного изучения серии образцов алюминиевых сплавов, включая их триботехнические испытания на машинах трения. Методы исследования: анализ процесса изнашиваний: образцов ЛБТ в контакте со стальной (45 группы прочности «D») обсадной колонной с использованием машины трения УМТ 2168 в среде промывочной жидкости и на тестере Fann; образцов ЛБТ в контакте «металл - горная порода» в среде промывочной жидкости на машине трения АИ-3М; тестирование образцов легкосплавных бурильных труб в системе «обсадная колонна - бурильная труба» в среде промывочной жидкости на машине трения ИИ-5018. Результаты. Показано, что методы, базирующиеся на установках УМТ-2168, ИИ-5018, АИ-3М и тестере Fann, позволяют моделировать процесс трения бурильных труб, изготовленных из легкого сплава, обеспечивая физическое подобие процесса трения пары «бурильная труба - обсадная колонна», «бурильная труба - горная порода» в среде различных буровых промывочных жидкостей. Проанализировано влияния применяемых в бурении растворов с полимерными и смазочными добавками на показатели триботехнических свойств различных буровых промывочных жидкостей применительно к паре трения «металл - горная порода». Рекомендовано применение методов интенсивной деформации, в частности равноканально-углового прессования, для получения ультрамелкозернистой структуры в алюминиевых сплавах с заданными физико-механическими свойствами, необходимых для улучшения триботехнических свойств и увеличения срока службы бурильных труб. The relevance of the discussed issue is caused by the need to use high quality material of drilling and rock cutting tool for developing remote regions of the Far North and Arctic offshore. The main aim of the study is the enhancement of Light Alloy Drill Pipe material properties based on the results of the comprehensive studies of the aluminum alloy samples series, including its tribological tests on friction machines. The methods used in the research: study of light alloy drill pipe specimens wear in contact with the steel casing (45 D group) on the friction machine UMT 2168 and tester FANN in fluid medium-work-study of light alloy drill pipe specimens in contact «metal-rock» on the friction machine AI-3M in fluid medium-work-study of light alloy drill pipe specimens in «casing - drill pipe» system on the friction machine II-5018 in fluid medium. The results. The paper demonstrates that the methods based on machines UMT-2168, II-5018, AI-3M and tester FANN allow simulating friction process of drill pipe made of light alloy providing physical similarity of tribological process of «drill pipe - casing», «drill pipe - rock» pairs in various drilling fluids. The authors have studied the effect of the applied drilling fluids with lubricants and polymeric additives on performance of tribological drilling fluids properties in relation to the friction pair «metal-rock». It is recommended to apply the severe deformation technique, in particular the equal channel angular pressing, to obtain ultra-fine grain structure in aluminum alloys with the given physical and mechanical properties required to improve the tribotechnical features and increase of operating life of drill pipes.

Published

2017

24. Адресное воздействие на участки стволов скважин с горизонтальным окончанием

Subjects

управляемый отбор жидкости, регулирующие устройства, горизонтальная скважина, flow control devices, horizontal well, managed fluid production

Abstract

В институте ТатНИПИнефть проводятся научные исследования по разработке технологии и технических средств для регулирования потоками нефти и воды в горизонтальных скважинах, которые позволят: производить отбор жидкости из разных участков ГС и отключать высоко-обводненные интервалы, не прерывая добычу нефти; применять циклический метод эксплуатации отдельных участков; осуществлять постоянный мониторинг забойных давлений каждого участка., In TatNIPIneft Institute, research is underway on the development of the technology and hardware to provide control of oil and water flows in horizontal wells. These will enable fluid production from different intervals along the horizontal section and shutting-off high water-cut intervals without production interruptions; cyclic production from individual intervals; continuous monitoring of downhole pressures in each production interval, Нефтяная провинция, Выпуск 1 (9) 2017

Published

2017

25. Термогидродинамические исследования горизонтальных скважин на основе многодатчиковых технологий

Subjects

многодатчиковые технологии, температура, pressure, горизонтальная скважина, давление, обратная задача, multi-sensor technology, temperature, inverse problem, проницаемость, permeability, Horizontal well

Abstract

В данной работе строится математическая модель термогидродинамических процессов, происходящих в нефтяном пласте и стволе горизонтальной скважины. На основе теории некорректных задач предлагается численный метод решения обратной коэффициентной задачи по определению коллекторских свойств нефтяного пласта, эксплуатируемого горизонтальной скважиной. В качестве исходной информации берутся кривые изменения температуры, снятые одновременно несколькими глубинными приборами, установленными на разных участках горизонтальной части ствола скважины. По предложенному методу оценивается неоднородность пласта вдоль горизонтальной части ствола скважины. Этим методом проведена интерпретация кривых изменения температуры, зарегистрированных в горизонтальной скважине № 18326 РТ., In this paper, a mathematical model of the thermohydrodynamic processes occurring in the oil reservoir and in the trunk of a horizontal well is constructed. On the basis of the theory of ill-posed problems, a numerical method is proposed for solving the inverse coefficient problem for determining the reservoir properties of an oil reservoir operated by a horizontal well. As the initial information, curves are taken of the temperature changes taken simultaneously by several deep instruments installed at different parts of the horizontal part of the wellbore. According to the proposed method, the heterogeneity of the formation along the horizontal part of the wellbore is evaluated. This method was used to interpret temperature curves recorded in horizontal well No. 18326 RT., Нефтяная провинция, Выпуск 1 (9) 2017

Published

2017

26. ПОВЫШЕНИЕ ЭФФЕКТИВНОСТИ ВОДОИЗОЛЯЦИОННЫХ РАБОТ В ОТКРЫТОМ ГОРИЗОНТАЛЬНОМ СТВОЛЕ НЕФТЯНЫХ СКВАЖИН С ПРИМЕНЕНИЕМ ЖИДКОГО ПАКЕРА

Subjects

lifetime, водоизоляционные работы, горизонтальная скважина, residual resistance factor, открытый ствол, жидкий пакер, нефтекислотная эмульсия, open bore, время жизни, liquid packer, остаточный фактор сопротивления, horizontal well, oil-acid emulsion, селективность воздействия, water-shutoff works, exposure selectivity

Abstract

Статья посвящена задачам совершенствования технологии водоизоляционных работ в открытом горизонтальном стволе нефтяных скважин при отсутствии информации о расположении интервалов водопритока. Установлено, что структурирование водоизоляционных материалов и блокирующих жидкостей на основе полиакриамида и обратных нефтекислотных эмульсий позволяет повысить селективность воздействия водоизолирующей массы и обеспечить полное разложение блокирующей жидкости на две исходные фазы без остаточного загрязнения пласта. Приведены результаты исследования изменений остаточного фактора сопротивления водоизолирующей массы и времени саморазрушения блокирующей жидкости при их обработке., The article is dedicated to the problems of the technology improvement of water-shutoff works in the open horizontal bore of oil wells in the absence of information on the location of water inflow intervals. It was found that the structuring of waterproofing materials and poliacrylamide-based blocking liquids and return oil-acid emulsions allows improving the selectivity of the impact of water shutoff mass and ensuring full decomposition of the blocking fluid into two initial phases without the formation of residual contamination. The paper provides the results of the study of changes of the residual resistance factor of water shutoff mass and self-destruction time of the blocking fluid during their processing., №10(52) (2016)

Published

2016

27. Совершенствование разработки трудноизвлекаемых запасов нефти с применением гидроразрыва пласта (ГРП) в горизонтальных скважинах с использованием гидродинамического моделирования

Subjects

залежь, reservoir, дебит нефти, гидроразрыв пласта, oil field, месторождение, oil accumulation, horizontal well, скважина с горизонтальным окончанием, коллектор, oil production rate, hydraulic fracturing

Abstract

Развитие технико-экономической эффективности разработки может быть достигнуто за счет применения оптимального комплекса геолого-технических мероприятий, подобранного по критериям применимости для конкретных геолого-физических условий выбранных залежей нефти и особенностей их разработки. Эффективными способами поддержания рентабельных уровней добычи нефти в коллекторах с ухудшенными физическими свойствами являются вскрытие продуктивных пластов скважинами с горизонтальным окончанием (СГО) с двумя и более забоями и применение на них гидроразрыва (ГРП) или гидрокислотного ГРП (ГКРП)., Carbonate reservoir performance can be improved through an optimum program of production enhancement operations based on screening criteria considering specific reservoir conditions of selected fields. One of the most efficient ways to maintain commercial oil production from poor quality reservoirs is drilling of multilateral horizontal wells and application of hydraulic fracturing or acid fracturing techniques., Нефтяная провинция, Выпуск 3 (3) 2015

Published

2015