RU2260686C1 - Method for extraction of oil deposit - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: method includes drilling vertical product and force wells, extracting oil from product wells, forcing working agent through force wells, making side horizontal shafts in force wells, forcing working agent through side horizontal shafts of force wells. Additionally, side horizontal shafts are made in extraction wells. Oil is taken through side horizontal shafts of extractive wells. With pressure in the well, decreased for 5-10% from hydrostatic pressure, all side horizontal shafts are made by washing away rock under pressure of fluid of around 15-20 mPa. Direction of all side horizontal shafts is set to be parallel to rows of wells.

EFFECT: higher oil yield.

1 ex, 1 dwg

Description

The invention relates to the oil industry and may find application in the development of an oil field.

A known method of selective waterflooding of an oil field, including drilling production and injection wells according to a geometrically correct grid of their placement, identifying areas of reduced reservoir pressure and drilling there injection (injection) wells in order to maintain reservoir pressure (see Fazlyev R.T. M .: Nedra, 1979).

The disadvantages of the known technical solutions are the accelerated dynamics of irrigation of produced products, significant volumes of produced water, reduced value of the final oil recovery coefficient, significant capital and operating costs for developing the field.

Closest to the invention, the technical essence is a method of developing an oil field with heterogeneous reservoirs and hard-to-recover oil reserves, including drilling vertical wells along a rarefied grid to further investigate the heterogeneity of reservoir properties of the formation and extracting oil from drilled wells under an elastic filtration regime. According to the invention, according to the geological field analysis and well operation results, low-permeability zones with hard-to-recover oil reserves are identified. A water flooding system is formed by pumping water into low-permeability zones and displacing oil from there into highly permeable zones. For this, most injection well shafts for water injection are located in low-permeability zones by drilling horizontal injection wells during sidetracking of horizontal horizontal shafts, mainly from low-production vertical production wells. The ratio of the number of producing wells and the number of injection wells is less than one. Water injection compensates for the volumes of oil, gas and water produced. Support reservoir pressure at a given level (RF Patent No. 2215128, CP. E 21 B 43/16, publ. 2003.10.27 - prototype).

The known method provides a reduction in the volume of associated water, an increase in the oil recovery coefficient by enhancing the effect on poorly drained and hard to recover oil reserves in low permeability reservoirs.

The disadvantage of this method is the relatively low injectivity of horizontal wellbores drilled into low-permeability zones, and therefore, the relatively low oil recovery of low-permeability zones of an oil reservoir.

The invention solves the problem of increasing oil recovery deposits.

The problem is solved in that in a method for developing an oil reservoir, including drilling vertical production and injection wells, taking oil through production wells, injecting a working agent through injection wells, drilling horizontal lateral shafts in injection wells, injecting a working agent through horizontal lateral shafts of injection wells, according to the invention, additionally horizontal lateral shafts are drilled in production wells, oil is taken through horizontal horizontal shafts of producing wells, while drilling of all horizontal sidetracks is carried out under reduced pressure in the well by erosion of the rock under high fluid pressure with the formation of thin and long channels, and the direction of drilling of all horizontal sidetracks is set parallel to the rows of wells.

The features of the invention are:

1) drilling of vertical production and injection wells;

2) oil extraction through production wells;

3) injection of a working agent through injection wells;

4) drilling of lateral horizontal shafts in injection wells;

5) injection of a working agent through horizontal lateral shafts of injection wells;

6) drilling of lateral horizontal shafts in production wells;

7) oil extraction through horizontal lateral shafts of producing wells;

8) the implementation of all lateral horizontal shafts at reduced pressure in the well;

9) the same erosion of the rock under high fluid pressure with the formation of thin and long channels;

10) the direction of drilling of all lateral horizontal shafts parallel to the rows of wells.

Signs 1-5 are common with the prototype, signs 6-10 are the salient features of the invention.

SUMMARY OF THE INVENTION

When developing an oil reservoir, especially heterogeneous, part of the reservoir’s reserves remains unreached. The development covers mainly highly permeable zones. For these reasons, the oil recovery of a heterogeneous oil reservoir is 10–20 points lower than that of a conventional reservoir. The proposed invention solves the problem of increasing oil recovery due to a more complete coverage of formations by impact, involving previously undeveloped zones into development. The problem is solved by the following set of operations.

When developing an oil reservoir, vertical production and injection wells are drilled and a reservoir is developed by taking oil through production wells and injecting a working agent through injection wells. In the course of development, low-permeability zones of the deposit that are not affected by exposure are identified. From existing injection wells, from production wells, lateral horizontal shafts are drilled. Lateral horizontal shafts are performed under reduced pressure in the well. For drilling horizontal lateral shafts from production wells, first of all, they are drilled from wells with a minimum production rate or waterlogged production wells. The direction of drilling of all lateral horizontal shafts is assigned parallel to the rows of wells.

Low pressure in the well is created in various ways. One of the most common is the air supply to the tubing string and its passage through the start-up sleeve into the annulus, where a gas-gas mixture is created with a density lower than the density of the well fluid.

Another possible method is the multiple swabbing of the tubing string with fluid withdrawal at the wellhead and the establishment of a lowered fluid column in the well. Based on the fact that the static fluid level is restored over time and gradually, at the time of operations in the well there will be a reduced pressure, accompanied by the influx of reservoir fluids through the formed lateral horizontal shafts.

To create a reduced pressure in the well, it is possible to connect the annulus of the well to the vacuum cavity of the jet pump operating at the wellhead. The use of other methods is not excluded. The optimum is to reduce the pressure in the well by 5-10% of hydrostatic.

Lateral horizontal shafts are performed under reduced pressure in the well by erosion of the rock under high pressure erosion fluid. Water or water mixed with a surfactant or a mixture of surfactants can be used as a flushing fluid.

To form a lateral horizontal wellbore in an existing well in the casing string at the depth of the reservoir, a side window is cut out and a future horizontal well is planned. A thin flexible pipe with a nozzle device at the end is inserted into the cut window. Under high pressure of the order of 15-20 MPa, erosion fluid is supplied through a flexible pipe and at the same time it is advanced into the formation along the resulting thin horizontal lateral trunk. Thus, in 20-30 minutes it is possible to pass 100 m with a diameter of several mm. The flow rate of erosion fluid is 1-2 l / s.

The effect of the erosion fluid occurs at reduced pressure in the well and, consequently, with the active flow of formation fluids through the resulting horizontal wellbore into the well. As a result of this, the walls of the horizontal trunk and the bottomhole zone do not become clogged with clogging substances, the resulting open (uncased) trunk is completely ready to receive the displacing working agent. The use of low-cost horizontal sidetrack drilling technology allows the entire process to be carried out at reduced pressure in the well. During the penetration of the lateral horizontal wellbore, the volume of pumped erosion fluid does not have time to fill the entire well and equalize the pressure in the well.

After the formation of the lateral horizontal shafts, the working agent is injected through the horizontal lateral shafts of the injection wells and oil is taken through the horizontal horizontal shafts of the producing wells.

The direction of drilling of all horizontal lateral shafts in both injection and production wells is set parallel to the well placement rows.

The drawing shows a line arrangement of wells according to the proposed method. Production wells 1 in the rows of production wells 2 have horizontal lateral shafts 3 on either side of the well. Injection wells 4 in the rows of injection wells 5 have lateral horizontal shafts 6 also on both sides of the well. All lateral horizontal trunks 3 and 6 are parallel to the rows of wells 2 and 5. With this arrangement of horizontal lateral trunks, the most complete coverage of the reservoir is achieved and maximum oil recovery of the reservoir is achieved.

Concrete example

An oil reservoir of the Romashkinskoye field is being developed with the following characteristics: porosity - 18.4%, average permeability - 0.646 μm ² , oil saturation - 61.1%, absolute mark of water-oil contact - 1530 m, average oil-saturated thickness - 4 m, initial reservoir pressure - 16 MPa, reservoir temperature - 29 ° С, reservoir oil parameters: density - 930 kg / m ³ , viscosity - 46 MPa · s, saturation pressure - 1.8 MPa, gas content - 15.2 m ³ / t, sulfur content - 3 , 64%. After drilling the deposits in rows of injection and production wells, oil is taken through 2 rows of production wells, 12 wells in each row and the working agent is injected through 1 row of injection wells with 12 wells in a row. The distance between the wells is 300 m.

Perform horizontal trunks in the wells. A pipe with a start-up sleeve at a depth of 500 m and with an elbow at the end is lowered into a stopped well in the interval of the reservoir. A flexible shaft with a ball mill is passed into the pipe. At the depth of the reservoir by means of a rotating flexible shaft and a ball cutter, a hole is cut out in the casing of the well and the beginning of the horizontal well is formed by driving the last several meters. The flexible shaft and ball mill are removed from the pipe. A flexible pipe with a nozzle apparatus at the end is lowered into the pipe and the nozzle apparatus is introduced into the horizontal barrel being formed. Air is pumped into the pipe before it breaks into the start-up sleeve and the annulus of the well is filled. Well pressure decreases from 16 to 13 MPa. The erosion fluid, which is a 0.2% aqueous sulfonol solution, is pumped into the flexible tube. The leaching fluid is pumped under a pressure of 20 MPa with a flow rate of 1 l / s. A flexible pipe is gradually fed into the drilled hole, while the erosion fluid erodes the formation rock. As a result, a lateral horizontal wellbore with a diameter of about 50 mm and a length of 100 m is formed in 20 minutes. A lateral horizontal wellbore is formed in the same well in the same direction in a 180 ° direction from the initial one.

According to this technology, two horizontal lateral shafts are performed in each injection and production well.

A working agent (produced water) is pumped through the drilled horizontal lateral shafts of injection wells. Oil is drawn through the drilled horizontal lateral shafts of the producing wells. As a result, oil recovery increased by 3.5%.

The application of the proposed method will increase the recovery of deposits.

Claims (1)

A method of developing an oil deposit, including drilling vertical production and injection wells, oil selection through production wells, pumping a working agent through injection wells, performing horizontal lateral shafts in injection wells, pumping a working agent through horizontal lateral shafts of injection wells, characterized in that it is additionally lateral horizontal trunks are performed in production wells, oil is taken through lateral horizontal trunks of production wells, while and pressure in the well, reduced by 5-10% of hydrostatic pressure, all horizontal sidetracks are washed out by rock under a fluid pressure of about 15-20 MPa, and the direction of all horizontal sidetracks is set parallel to the well placement rows.