RU2715114C1 - Oil deposit development method - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to oil and gas industry, namely, to development of oil reservoirs using production and injection wells. Method includes construction of at least two horizontal and/or inclined wells, each of which is equipped with forcing and producing sections located at distance excluding hydrodynamic connection, and separated by through packer. Injection and production sections are built parallel in plan within one reservoir of deposit for nearby wells with provision of hydrodynamic connection, injection of displacement agent into pressure section and extraction of products from production section of each well. Wells are constructed without changing the azimuth angle along the whole length. Injection and extraction sections are subjected to secondary opening taking into account injection and withdrawal points, respectively, providing for uniform distribution of flooding front and withdrawal by increase of total area of perforated holes in direct dependence on distance of working fluid injection point and formation product extraction point accordingly.EFFECT: simplification of well construction.3 cl, 1 dwg

Description

The invention relates to the oil and gas industry, and in particular to technologies for the development of oil reservoirs using production and injection wells.

A method of developing an oil deposit by horizontal wells (patent RU No. 2527429, IPC E21B 43/20, E21B 43/30, E21B 43/11, published on 08.27.2014 in Bull. No. 24), including drilling and arrangement of perpendicularly located production and injection horizontal wells intersecting structurally, the location of horizontal injection wells is lower in structural terms than horizontal wells of production wells, perforation of wells in a productive part with different densities, pumping a working agent into injection wells and selecting production through production wells, with horizontal shafts parallel to the length and width of the reservoir, with the entrance to the reservoir of production wells being placed along one side of the reservoir, and the entrance of injection wells along the other perpendicular to the first, the density of perforations in each of the sections of horizontal wells, formed by the intersection in the structural plan of production and injection wells, perform the minimum at the intersection points and increase to the center of each section, initially m development stage, fresh water or water with a concentration of suspended solids of at least 50 mg / l is injected to reduce water cut in the wells, and then they are transferred to the injection of produced or waste water, and the perforation density at the intersection points is increased to the center of each section based on the ratio :

where C ₁ , C ₂ , C _n are the hydrodynamic perfection coefficients of the well according to the nature of opening along the horizontal wellbore;

R ₁ , R ₂ , R _n - the minimum distance from the perforated interval to the horizontal well of the neighboring well, m;

k ₁ , k ₂ , k _n - the permeability of the reservoir in the corresponding interval of perforation, m ² ;

r _c - well radius, m

The disadvantages of this method are the complexity of the implementation and the large material costs associated with the need to build additional horizontal injection wells, a high probability of heterogeneity of the distribution of the front of the facility during injection, which leads to rapid watering of the products during the selection, since the perforation (secondary opening) of horizontal wells is ignored locations of discharge and selection points.

The closest in technical essence is the method of developing a highly viscous oil reservoir (patent RU No. 2646902, IPC E21B 43/20, E21B 43/24, E21B 7/04, published on March 12, 2018, Bull. No. 8), which consists in injection into the reservoir the displacing agent through the horizontal section of the multifunctional well and the selection of reservoir oil from the perforated section of the same well located horizontally and parallel to the agent injection zone, and multifunctional wells are located along the length of the strip-like element (PE) of the oil reservoir or the selected direction of the reservoir sequentially one after another so that in the zone of the reservoir between the injection sites of the agent and oil selection of each well, two more sections of two adjacent multifunctional wells are located: closer to the site of oil extraction of the well, the injection site of the agent of the neighboring well is located on the left side, and closer to the site the agent’s injections of the well in question have an oil extraction section of a second neighboring well on the right side along the length of the PE or the selected direction, and the horizontal sections of all wells under consideration are located parallel to each other at the same distance from each other and across the length of the strip-like element, and the development of the oil reservoir is carried out by dividing the reservoir into strip-like elements over its entire area, each of which is developed using a system of multifunctional wells located within the boundaries of PE according to the above principle.

The disadvantages of this method are the difficulty of implementation and the large material costs associated with the need to build complexly structured wells, a high probability of heterogeneity of the distribution of the waterflood front during injection, which leads to rapid watering of the products during selection, since the perforation (secondary opening) of horizontal wells is carried out without taking into account the location of points injection and selection.

The technical task of the invention is the creation of a method of developing an oil reservoir, which allows to simplify and reduce the cost of well construction through the use of unidirectional azimuth, horizontal and / or deviated injection and production wells, which also provide a uniform displacement and production front due to special secondary opening of wells, taking into account the location of the discharge and selection points, respectively.

The technical problem is solved by the method of developing an oil deposit, including the construction of at least two horizontal and / or deviated wells, each of which is equipped with injection and production sections located at a distance that excludes hydrodynamic coupling and separated by a through packer, and the injection and production sections are built parallel in plan within one layer of a reservoir for nearby wells, providing hydrodynamic communication, injection of a displacing agent into injection reservoir stock and selection of products from the producing section of each well.

New is that wells are built without changing the azimuth angle along the entire length, followed by the secondary opening of the injection and production sections, taking into account the injection and selection points, respectively, providing for uniform distribution of the waterflooding front and selection by increasing the total area of perforation holes in direct proportion to the distance of the injection point working agent and formation production point, respectively.

It is also new that the prevailing direction of product migration in the formation is preliminarily studied, horizontal and / or deviated wells are built at an angle of 90 ° ± 30 ° to this direction.

Also new is the fact that deviated wells are built so that the zenith angle in any of the sections is not equal to 90 °.

The drawing shows a diagram of the implementation of the method (top view - in plan, without vertical wellbores). Structural elements and technological solutions that do not affect the operability of the method are not shown in the drawing.

A method of developing an oil deposit, comprising the construction of at least two horizontal and / or deviated wells 1 and 2 without changing the azimuth angle along their entire length. The construction of horizontal and / or inclined wells 1 and 2 without changing the azimuth angle along their entire length makes it possible to significantly simplify and reduce the cost of these operations, since drilling does not require a change in the layout of the drilling tool to change the azimuth (not shown), which is associated with constant extraction and by running it into the well after a change of layout (on average in the fields of Tatarstan, the cost reduction amounted to 11% during construction). Each well 1 and 2 is equipped with an injection 3 and production 4 sections located at a distance L, excluding hydrodynamic connection, and separated by a flow packer 5. moreover, injection and production sections are built parallel in plan within the same layer 6 of the reservoir for nearby wells 2 or 1 on distance H, providing a hydrodynamic connection between them. A secondary opening of injection 3 and producing 4 sections of each well 1 and 2 is carried out taking into account injection points 7 and selection 8, respectively, providing for uniform distribution of the waterflooding front and selection by increasing the total area of perforation holes 9 in direct proportion to the distance of the injection point 7 of the working agent and the point selection of 8 formation products 6, respectively. For types of cumulative perforators (see RU patents for PM No. 70929, IZ No. 2656262, etc.) and hydromechanical perforators (see RU patents for PM No. 142116, 178557, etc.), the authors do not claim. To select the total area of perforations 9 taking into account permeability along the length of an inclined or horizontal wellbore 1 and 2, hydrodynamic losses are determined along their length (see. Features of the nature of fluid flow in horizontal wells according to depth studies: abstract of dissertation ... candidate of technical sciences: 25.00 .17 / Nazimov Nafis Anasovich; [Place of defense: Tatar. Scientific research and project. Institute of oil]. - Bugulma, 2007. - 26 p.). Injecting a displacing agent into injection section 3 and taking products from the producing section 3 of each well 1 and 2. Secondary opening of the injecting 3 and producing 4 sections of each well 1 and 2 with an increase in the total area of perforation holes 9 in direct proportion to the distance of the injection point 7 of the working agent and points of selection 8 of the products of the formation 6, respectively, provides a uniform distribution of the fronts of water flooding and selection, which increases the coverage of the productive zones of the formation 6 and, as a result, increases the recovery factor cheniya oil (ORF) 6 of the reservoir oil reservoir (in Tatarstan average recovery factor increased by 3 - 5%).

In cases where the fractured reservoir method is implemented, in which there is a clear unevenness of production migration (reservoir fluid), the prevailing direction of production migration 10 in reservoir 6 is preliminarily studied using geophysical methods (the authors do not claim this), horizontal and / or deviated wells 1 and 2 are built under angle α = 90 ° ± 30 ° to this direction 10. This allows to reduce the distance L between sections 3 and 4 and to increase the distance H between parallel planes 1 and 2, which allows to cover with less cost a large area of the reservoir is 6 deposits (on average, savings in the fields of Tatarstan amounted to 14%).

During the construction of wells 1 and 2 with a length of 500 m or more, the occurrence of hydraulic locks in length is possible, which sharply reduces the efficiency of the method. To exclude alternating ascending and descending sections of wells 1 and 2, leading to the formation of hydraulic locks along the length due to the gas released from the production, inclined wells 1 and 2 are constructed so that the zenith angle in none of the sections is 90 ° (in the drawing not shown).

The proposed method of developing an oil field allows us to simplify and reduce the cost of well construction by using unidirectional azimuth, horizontal and / or directional injection wells, which also provide a uniform displacement and production front due to special secondary opening of wells, taking into account the location of injection and selection points respectively.

Claims (3)

1. A method of developing an oil deposit, including the construction of at least two horizontal and / or deviated wells, each of which is equipped with injection and production sections located at a distance that excludes hydrodynamic connection, and separated by a through packer, and the injection and production sections are built parallel in plan within one layer of the reservoir for nearby wells, providing hydrodynamic communication, injection of the displacing agent into the injection section and selection of products from production each well, characterized in that the wells are built without changing the azimuth angle along the entire length, followed by the secondary opening of the injection and producing sections, taking into account the injection and selection points, respectively, providing for a uniform distribution of the waterflooding front and selection by increasing the total area of perforation holes in direct proportion from the remoteness of the injection point of the working agent and the point of selection of formation products, respectively. 2. The method according to claim 1, characterized in that the prevailing direction of product migration in the formation is preliminarily studied, horizontal and / or deviated wells are built at an angle of 90 ° ± 30 ° to this direction. 3. The method according to one of paragraphs. 1 or 2, characterized in that the deviated wells are constructed so that the zenith angle in any of the sections is not equal to 90 °.

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