RU2446278C1 - Development method of deposits with high-viscosity oils and bitumens by means of system of horizontal inclined wells - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: inclined shafts of curved shape are drilled from vertical wells; cyclic heat treatment of formation with steam stimulation is performed, and then, extraction of formation fluids through production wells with areal stimulation of formation through injection wells is performed. According to the invention, vertical well is drilled from the mouth to the working face located below the roof of formation; from the above working face there drilled are at least 4 inclined curved shafts directed towards the formation bottom. Those shafts are drilled along spatial trajectories representing not more than a quarter of circle or parable, which lie in two vertical mutually perpendicular planes. At that, shafts are perforated throughout the length and ended in plane of horizontal production well which lies below the working face of vertical well and passes through the centre and parallel to two sides of the imaginary square that is formed with ends of inclined curved shafts. At that, as a result of hydrodynamic interaction of system of inclined injection shafts with horizontal production well there formed is formation dome drain zone for development under it of high-viscosity oils and bitumens; after that, horizontal production well is shut off and pumping of working medium to vertical well and inclined shafts is stopped.

EFFECT: increasing production rate in thick non-homogeneous formations with high-viscosity oils and bitumens.

2 cl, 2 ex, 2 dwg

Description

The invention relates to the oil industry and may find application in the development of deposits with high viscosity oils and bitumen.

There is a method of developing oil fields, namely, deposits of high viscosity oils and bitumen using heat in combination with directional wells. It consists in drilling wells on a specific grid, injecting a displacing agent through injection wells and selecting reservoir fluids through production wells. Injection wells are located on the reservoir closer to the upper boundary of the reservoir along the most permeable layers. Production wells are located closer to the lower boundary of the reservoir. At the initial stage of development, all wells conduct thermocyclic treatment of the formation with steam stimulation. Subsequently, they switch to the selection of reservoir fluids through production wells with areal impact on the reservoir through injection wells (RF patent No. 2237804, class E21B 43/24, publ. 10.10.2004).

A known method of oil production, especially if it is carried out in heterogeneous powerful formations, is ineffective due to the low coverage of the formation by the impact.

The closest in technical essence to the proposed invention is a method of developing a formation by a vertical well, from which curved trunks are drilled, located in a spiral around this well. Spiral trunks can be located both in the horizontal plane and in space (they are wound down the formation from top to bottom around a vertical well). The method is based on the use of equipment for flexible drill pipes (US patent No. 4022279, class E21B 43/24, publ. 05.10.1977 - prototype).

The known method is also ineffective especially in heterogeneous formations with high viscosity oils.

The invention solves the problem of increasing oil recovery in powerful, heterogeneous formations with high viscosity oils.

The problem is solved in that in the known development method, which includes drilling wells with horizontal and vertical wells, from which inclined curvilines are drilled, injecting a working agent through injection wells and taking oil through production wells, first, all the wells are subjected to cyclic treatment with subsequent areal exposure per formation, according to the invention, injection wells are drilled vertically to the bottom, located below the roof of the formation. From this face, at least 4 inclined curved trunks are directed, directed from top to bottom along the spatial paths of no more than a quarter of the circumference, or an axisymmetric parabola that lie in two mutually perpendicular planes along the thickness of the formation. The trunks are perforated along the entire length and end in the plane of the horizontal producing well, which lies below the bottom of the vertical well and passes through the center and parallel to the two sides of the imaginary square formed by the ends of the inclined shafts. As a result of the hydrodynamic interaction of the system of inclined injection shafts with a horizontal production well, a domed area of formation drainage is formed.

If the development goal is to extract oil only from a given dome area of the reservoir, then after the development of reserves from this area, the selection of oil from a horizontal producing well and the injection of a working agent into a vertical well are stopped.

If the aim of the development is to extract oil from the reservoir as a whole, then after the cessation of oil extraction from the horizontal producing well and injection of the working agent into the vertical well, a horizontal injection well located in the upper part of the reservoir between adjacent domes is drilled. The development of oil reserves between the domes is carried out by injecting a working agent into a horizontal injection well with the selection of oil from inclined shafts.

The essential features of the method are as follows.

1. Development of deposits with high viscosity oils and bitumen horizontal and vertical wells.

2. From vertical wells, inclined curvilinear shafts are drilled.

3. At the initial stage of development, all wells conduct thermocyclic treatment of the formation with steam stimulation. Subsequently, they switch to the selection of reservoir fluids through production wells with areal impact on the reservoir through injection wells.

4. A vertical well is drilled from the mouth to the bottom of the bottom formation, from which at least 4 inclined curved shafts are directed towards the bottom of the formation.

5. Inclined curved trunks are drilled along spatial paths representing no more than a quarter of a circle or parabola, lying in two vertical, mutually perpendicular planes. The trunks are perforated along the entire length and end in the plane of the horizontal production well.

6. The horizontal production well lies below the bottom of the vertical well and passes through the center and parallel to the two sides of the imaginary square, which is formed by the ends of inclined curved trunks. Moreover, as a result of the hydrodynamic interaction of the system of inclined injection shafts with a horizontal production well, a domed area of formation drainage is formed.

7. After developing reserves under the dome, the horizontal production well at the bottom of the formation is turned off and the injection of the working agent into the vertical well and deviated shafts is stopped.

8. For further development of the reservoir, an additional horizontal injection well is drilled in the upper part of the reservoir between the domes, and the inclined curved trunks of the vertical well are transferred to oil selection.

9. Then, the working agent is injected into the horizontal injection well while oil is taken from the inclined curved trunks of the vertical well.

Signs 1-3 are common with the prototype and the analogue of the essential features, and signs 4-9 are the distinctive essential features of the invention.

SUMMARY OF THE INVENTION

In well-known technical solutions, the development of deposits with highly viscous oils and bitumen is carried out using horizontal and vertical wells, from which inclined trunks are curved.

However, in powerful and heterogeneous formations, this technology is not effective enough.

Therefore, in the proposed technical solution, the problem is solved by the following set of operations.

The field is drilled by elements, each of which includes one vertical and at least one horizontal production well. A vertical well is drilled from the mouth to the bottom of the bottom formation, from which at least 4 inclined curved shafts are directed towards the bottom of the formation. Inclined curved trunks are drilled along spatial paths representing no more than a quarter of a circle or parabola, lying in two vertical, mutually perpendicular planes. The trunks end in the plane of the horizontal production well and are perforated along the entire length. A horizontal production well lies below the bottom of a vertical well and passes through the center and parallel to the two sides of an imaginary square, which is formed by the ends of inclined curved trunks. As a result of the hydrodynamic interaction of the system of inclined curved trunks with a horizontal production well, a domed area of formation drainage is formed.

At the initial stage of development, all wells conduct thermocyclic treatment of the formation with steam stimulation. Subsequently, they switch to the selection of reservoir fluids through production wells with areal impact on the reservoir through injection wells.

Depending on the goal, the development of the field is carried out in 1 or 2 stages. At the first stage, reserves are developed from the dome area. For this, injection of the working agent through the inclined curved trunks of vertical wells and the selection of oil from a horizontal producing well are performed. After depletion of reserves from the domed region, the selection of oil from the horizontal producing well and the injection of the working agent into the vertical well are stopped.

For further development of the reservoir, stage 2 is generally implemented, in accordance with which the reserves of oil remaining between the domes are recovered. To this end, an additional horizontal injection well is drilled in the upper part of the reservoir between adjacent domes, and the inclined curved shafts of the vertical well are transferred to oil extraction. Then, the working agent is injected into the horizontal injection well between the domes with the simultaneous selection of oil from the inclined shafts of the vertical well.

The technical effect of the invention is enhanced oil recovery in powerful heterogeneous formations with highly viscous oils and bitumen.

The invention is illustrated by figures 1 and 2, where figure 1 shows a schematic arrangement of two adjacent domed elements of the reservoir. Figure 2 shows a section along the line aa. In these figures, 1 is a vertical well, 2 is an inclined curved well, 3 is a horizontal production well, 4 is an additional horizontal injection well, 5 is the bottom of the formation, 6 is the roof of the formation, 7 is the bottom of the vertical well, 8 is the domed drainage area.

The method is as follows.

The development of deposits with highly viscous oils and bitumen in thick, heterogeneous permeability formations is carried out by a system of horizontal and vertical wells, from which inclined curved trunks are made. The field is drilled according to the elements shown in figures 1 and 2, each of which includes one vertical and at least one horizontal production well. A vertical well (1) is drilled from the mouth to the bottom of the bottom formation (7), from which at least 4 inclined curved shafts (2) are directed towards the bottom (5) of the formation. Inclined curved trunks are drilled along spatial paths representing no more than a quarter of a circle or parabola, lying in two vertical, mutually perpendicular planes. These trunks end in the plane of the horizontal producing well (3) and are perforated along the entire length. The horizontal production well lies below the bottom (7) of the vertical well and passes through the center and parallel to the two sides of the imaginary square, which is formed by the ends of inclined curved trunks (2). As a result of the hydrodynamic interaction of the system of inclined shafts with a horizontal production well, a domed area of formation drainage is formed (8).

At the initial stage of development, all wells conduct thermocyclic treatment of the formation with steam stimulation. Subsequently, they switch to the selection of reservoir fluids through production wells with areal impact on the reservoir through injection wells.

Depending on the goal, the development of the field is carried out in 1 or 2 stages. At the first stage, reserves are developed from the dome area (8). To do this, inject the working agent through the inclined curved shafts (2) of vertical wells (1) and select oil from a horizontal producing well (3). After depletion of reserves from the domed region, the selection of oil from the horizontal producing well and the injection of the working agent into the vertical well are stopped. For further development of the field, the second stage is being implemented, which consists in extracting the oil reserves remaining between the domes. To do this, additional horizontal injection wells (4) are drilled near the formation roof between adjacent domes, and inclined curved shafts (2) of the vertical well (1) are transferred to oil selection. Then, the working agent is injected through a horizontal injection well between the domes with the simultaneous selection of oil from the inclined curved shafts of a vertical well.

Examples of specific performance.

Example 1

It is necessary to carry out the development of a low-permeable domed region of the reservoir with highly viscous oils 350 m thick and 500 m in diameter. The reservoir depth is 1000 m.

For this purpose, the region is drilled with one element consisting of one vertical and one horizontal production well. A vertical well (1) is drilled from the mouth to the bottom (7), located at a depth of 1050 m, from which 4 inclined curved shafts (2) are drawn, each 393 m long, directed to the bottom (5) of the formation. Inclined curved trunks are drilled along spatial paths representing no more than a quarter of a circle with a radius of 250 m in two vertical, mutually perpendicular planes. The trunks end in the plane of the horizontal production well (3) and are perforated along the entire length. A 350 m horizontal production well lies at a depth of 1300 m and passes through the center and parallel to the two sides of an imaginary square, which is formed by the ends of inclined curved trunks (2). As a result of the hydrodynamic interaction of the system of inclined shafts with a horizontal production well, a domed drainage region with a diameter of 500 m and a height of 250 m is formed.

At the initial stage of development, all wells conduct thermocyclic treatment of the formation with steam stimulation. Then, the working agent is injected through the inclined curved shafts (2) of the vertical well (1) and oil is taken from the horizontal producing well (3). After depletion of reserves from the domed region, the selection of oil from the horizontal producing well and the injection of the working agent into the vertical well are stopped.

Example 2

It is necessary to develop a reservoir with highly viscous oils 350 m thick and 1000 m in diameter. The reservoir depth is 1000 m.

For this purpose, the formation is drilled with 2 elements. The development sequence for each of the elements is similar to example 1.

After developing reserves from the domed region of each element for further field development, the second stage is implemented, which consists in extracting the oil reserves remaining between the domes. For this, an additional horizontal injection well (4) with a length of 350 m is drilled between the domes at a depth of 1050 m, and inclined curved shafts (2) of the vertical well (1) are transferred to oil extraction. Then, the working agent is injected through a horizontal injection well between the domes with the simultaneous selection of oil from the inclined curved shafts of a vertical well.

Claims (2)

1. The method of developing fields with high viscosity oils and bitumen horizontal and vertical wells, which consists in the fact that vertical wells are drilled with inclined curvilinear shafts, at the initial stage of development, thermocyclic treatment of the formation with steam stimulation is carried out in all wells, and then they switch to the selection of formation fluids through production wells with areal impact on the formation through injection wells, characterized in that the vertical well is drilled from the mouth to located below the top of the bottom of the face, from which at least 4 inclined curved trunks are directed towards the bottom of the formation, which are drilled along spatial paths representing no more than a quarter of a circle or parabola lying in two vertical, mutually perpendicular planes, while the trunks are perforated throughout length and end in the plane of the horizontal production well, which lies below the bottom of the vertical well and passes through the center and parallel to the two sides of the imaginary square, which is the ends of the inclined curvilinear shafts, and as a result of the hydrodynamic interaction of the system of inclined delivery shafts with a horizontal production well, a domed drainage region of the formation is formed to develop high-viscosity oil and bitumen reserves under it, after which the horizontal production well is turned off and the injection of the working agent into the vertical well is stopped and inclined trunks. 2. The method according to claim 1, characterized in that, if it is necessary to further develop the formation, a horizontal injection well is drilled in the upper part of the formation, and the inclined curved trunks of the vertical well are transferred to oil selection.

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