RU2336414C1 - Method to develop isolated lithologically screened oil-saturated lense - Google Patents

Abstract

FIELD: oil and gas production industry.

SUBSTANCE: invention is related to area of layer-uplifted oil pool development at both early and late stages of development with isolated lithologically screened oil-saturated lenses drilled by a single well. Method includes identification of boundaries and analysis of lense profile, sidetracking of vertical well, packer setting, lense drilling, injection of working fluid via vertical well and recovery of wellstream via sidetracked wellbore. In accordance with the invention in case of maximum lense area 62.5 thousand m², maximum oil net pay of the lense 2 m and vertical well located in the central or marginal zone of the lense, at least one wellbore shall be sidetracked via vertical well with entry to pay bed at the minimum distance 50 m from vertical wellbore to the area with the highest recoverable reserves. The vertical well is perforated in the interval of bottom part of oil-saturated bed of the lense. Packer is set above perforation interval. Sidetrack is perforated in top part of oil-saturated bed of the lense. At that working fluid is injected in cyclic mode with well suspending.

EFFECT: improved performance of oil pool development, higher well rates and final oil recovery.

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Description

The proposed method relates to the field of development of an oil reservoir of a reservoir-arch type, both at an early and a late stage of development, within the boundaries of which there are isolated lithologically shielded oil-saturated lenses exposed by a single well.

A known method of developing a massive type of oil field, including drilling it with a system of wells with vertical and horizontal shafts, pumping a working agent into injection wells and selecting products through production wells (RF patent No. 2095551, IPC ЕВВ 43/20, publ. BI No. 31, from November 10, 1997). According to this method, a vertical well is initially drilled with opening of the oil-saturated and water-saturated parts of the formation, then a horizontal well is drilled in the oil-saturated part of the formation through a vertical well. Carry out a cyclic injection of the working agent into the water-saturated part of the reservoir and the selection of products from a horizontal wellbore. Massive deposits with bottom water are composed of carbonate rocks, characterized by vertical fracturing. The development of such deposits in a known manner leads to rapid flooding of wells.

When developing a lithologically shielded oil-saturated lens, the length of the horizontal wellbore is limited by the size of the lens, which leads to a decrease in development efficiency, and small oil-saturated thicknesses of the lens layer make it impossible to drill horizontal bores with existing technologies.

The closest in technical essence to the proposed one is a method of developing an isolated lithologically shielded oil-saturated lens, including determining the boundaries and analysis of the lens profile, drilling a horizontal wellbore through a vertical well, installing a packer, opening the lens, injecting a working agent through a vertical well and selecting products through a horizontal well (RF patent No. 2242594, IPC ЕВВ 43/20, publ. BI No. 35, December 20, 2004). Identify areas with a lower and increased location of the deposits. At least one horizontal well is drilled through a vertical well into an oil-saturated formation in the direction of a lowered or elevated area, the working agent is injected periodically into a lowered area of the lens, and formation fluid is taken periodically from an increased area of the lens. The selection of the production of the well is carried out until the reservoir pressure is reduced to the level of oil saturation pressure with gas or the oil production rate drops to an extremely profitable one. The injection of the working agent is carried out with increasing reservoir pressure.

The disadvantage of this method is the low efficiency of the development of isolated lithologically shielded oil-saturated lenses, represented by a small thickness and size due to incomplete production of oil reserves and rapid flooding of well products.

The technical task of the proposed method is to increase the efficiency of oil field development by reducing the water cut of well production, increasing the coverage factor for oil production, increasing well production rates, and final oil recovery while specifying the location of the entrance to the oil-saturated layer of the side-hole lens. Also, the method allows to expand the technological capabilities of the development of isolated lithologically shielded oil-saturated lenses.

This problem is solved by the method of developing an isolated lithologically shielded oil-saturated lens opened by a single well, including determining the boundaries and analyzing the lens profile, drilling a sidetrack through a vertical well, installing a packer, opening the lens, injecting a working agent through a vertical well and selecting production from the sidetrack.

New is that when the lens area is not more than 62.5 thousand m ² , the oil-saturated thickness of the lens formation is less than 2 m and when the vertical well is located in the central or edge zone of the lens, at least one side well is drilled through a vertical well with an entrance to the oil-saturated formation lenses at a distance of at least 50 m from the vertical wellbore to the zone with the highest recoverable reserves; in a vertical well, perforation is performed in the interval of the sole of the oil-saturated layer of the lens, the packer is installed above the perforation zone, and the side oh barrel opens the upper part of the oil-saturated layer lens, the injection of working agent is carried out in a cyclic mode with its suspension.

Patent studies on the patent fund and in the technical library of the TatNIPIneft Institute showed a lack of identical or equivalent technical solutions in comparison with the claimed method, which allows us to conclude that it meets the criteria of "novelty" and "inventive step".

Figure 1 presents a section of an oil-saturated formation of a lens with a vertical well placed in the central zone of the lens and side shafts in a radial placement.

Figure 2 presents a section of an oil-saturated layer of the lens with a vertical well placed in the boundary zone of the lens and the side barrel.

The inventive method is carried out in the following sequence.

An oil reservoir is drilled with a grid of vertical wells. When posting the vertical wellbore 1 (FIGS. 1, 2), it is envisaged that later drilling of the lateral wellbore is possible in this well.

The structural maps of the formation determine the boundaries of the lens, analyze the profile of the lens and determine the location of the bottom of a vertical well. A favorable characteristic of the geological structure is the formation parameters that meet the criteria for the applicability of sidetracking (reservoir thickness, oil saturation, permeability, well reserves).

Through a vertical borehole, a lateral shaft is drilled into the oil-saturated reservoir. Based on the results obtained, the profile and direction of the sidetracking 2a, 2b, 2c are selected (Figs. 1, 2). For small lenses, for example, when the lens area is not more than 62.5 thousand m ² , the oil-saturated thickness of the lens layer is less than 2 m, at least one side well is drilled through a vertical well.

When the bottom of the vertical wellbore is located in the central zone of the lens, at least one lateral well is drilled with an entrance to the oil-saturated layer of the lens at a distance of at least 50 m from the vertical well into the zone with the largest recoverable reserves.

When the bottom of the vertical wellbore is located in the edge zone of the lens, at least one lateral well is drilled with the entrance to the oil-saturated layer of the lens at a distance of at least 50 m from the vertical well into the zone with the largest recoverable reserves.

To develop an oil-saturated formation, a vertical well is returned to the lens from below the underlying objects, the part of the barrel located below the oil-saturated formation of the lens is closed, for example, by plugging the interval of perforation of the vertical wellbore with setting the plugging (cement) bridge, installing the packer. Perforation is made in the interval of the sole of the oil-saturated layer of the lens.

Set the packer 4 above the perforation zone in the side part of the oil-saturated layer of the lens. The annulus of the tubing is packaged in a vertical well.

The lateral trunk reveals the upper part of the oil-saturated layer of the lens, and install the filter.

The technological mode of the well’s operation is determined and a vertical well is placed under the injection of the working agent, and the well’s production is taken through the sidetrack.

For uniform oil displacement, the selection of products and the injection of the working agent are carried out in a cyclic mode, while the working agent is injected with its suspension.

During the selection of oil, the production rate of the well is measured, water cut. Explore the profile of the sidetrack, reservoir and bottomhole pressure in the well.

A sharp increase in the annular pressure during the injection of the working agent is a signal of water breakthrough into the sidetrack, therefore, the injection is stopped and compensated by the selection of fluid in reservoir conditions, i.e. the volume of the injected working agent is equal to the selection of fluid in reservoir conditions. The cyclic injection of the working agent favorably affects the alignment of the displacement front due to the manifestation of gravitational and capillary forces.

The method allows to extend the anhydrous period of the well’s operation, increase the coverage factor by oil production, increase the production rate of the wells and, as a result, the final oil recovery.

An example of a specific implementation.

The implementation of this method, consider the example of a site characteristic of terrigenous sediments of the Devonian Romashkinskoye field (figure 2). The site is drilled with a grid of producing and injection vertical wells, and their arrangement is carried out. It is determined that oil deposits in the terrigenous sediments of the Devonian deposits are characterized by the presence of isolated lithologically shielded oil-saturated lenses exposed by single vertical wells.

According to the results of geophysical and field studies conducted in a vertical well, the parameters of the oil-saturated part of the lens formation are determined. The effective oil-saturated thickness of the reservoir is 2.0 m, the lens dimensions are 250 · 200 m. A vertical well is drilled in the edge of the reservoir as shown in figure 2. Based on the data obtained, a sidetrack (2c) is drilled in the middle part of the lens formation with a drilling corridor of ± 1.0 m, the entrance to the oil-saturated formation of the sidetrack is carried out at a distance of 70 m from the vertical wellbore. The vertical well is returned from below the underlying objects, the part of the trunk located below the oil-saturated layer of the lens is blocked by plugging the interval of perforation of the vertical wellbore with setting up a cement bridge. Studies have established that the oil-saturated part of the lens formation has a fairly uniform structure, therefore, the lower oil-saturated thickness of the lens is perforated in a vertical well. Set the packer above the perforation zone. The lateral trunk is cased, perforated in the upper part of the oil-saturated layer of the lens and a filter is installed, then the production selection is mastered.

After testing the oil-saturated formation through the sidetrack, the vertical well will be converted to pump the working agent. Make an injection within 10 days with an average injection rate of 15 m ³ / day. Then the well is stopped for redistribution of reservoir pressure in the reservoir for 5 days. The idle time from injection is calculated by the piezoelectric conductivity of the reservoir from the condition of uniform pressure redistribution over the reservoir. Then the cycles of injection and selection of products are repeated. Well production increased 2.1 times.

The proposed method provides an increase in the efficiency of the development of oil deposits by reducing the water cut of well products, increasing the coverage factor by oil production, increasing well production rates, and final oil recovery. Also, the method allows to expand the technological capabilities of the development of isolated lithologically shielded oil-saturated lenses.

Claims (1)

A method for developing an isolated lithologically shielded oil-saturated lens opened by a single well, including determining the boundaries and analyzing the lens profile, drilling a sidetrack through a vertical well, installing a packer, opening the lens, injecting a working agent through a vertical well and selecting well production through a sidetrack, characterized in that when the lens area is not more than 62.5 thousand m ² , the oil-saturated thickness of the lens layer is less than 2 m and when the vertical well is located in the central or edge zone of the lenses We drill at least one lateral wellbore through a vertical well with an entrance to the oil-saturated lens layer at a distance of at least 50 m from the vertical well into the zone with the highest recoverable reserves, perforate in the vertical well in the interval of the sole of the oil-saturated lens formation, set the packer above the perforation zone and the upper part of the oil-saturated layer of the lens is opened by the lateral barrel, while the working agent is injected in a cyclic mode with its suspension.

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