RU2170340C1 - Process of exploitation of oil field - Google Patents

Abstract

FIELD: oil production. SUBSTANCE: invention refers to operations related to increased productivity of wells, it provides for enhanced coverage of deposit by action which leads to raised oil output. When oil field is exploited working agent is pumped through injection wells and oil is extracted through production wells. At least one well is abandoned. Part of casing string is liquidated at different levels of well with formation of cavities. Side filtration conduits are run by hydraulic jet perforation starting from lower level of well in points of cavities. Side filtration conduits have small diameter and inclined profile. Several side filtration conduits arranged at different azimuthal angles are made on one level of well. Filters-columns are pushed into side filtration conduits. Intervals of formation of multilevel shafts are reinforced by installation of profiled floors which are perforated. EFFECT: enhanced coverage of oil deposit by action, raised oil output. 2 cl, 1 dwg

Description

 The invention relates to the oil industry and may find application in works related to increasing productivity of wells.

 A known method of developing an oil field, including the selection of oil through production wells, maintaining pressure by flooding the reservoir, in wells located near areas of low productivity with maximum permissible water cut, cutting an additional trunk with a horizontal or close to it inclined section, revealing a zone of low productivity, and putting a well into operation with oil withdrawal from this zone (RF Application N 97116121/03, class E 21 B 43/20, published. 1999).

 The disadvantage of this method is the low coverage of the formation by exposure.

 There is a method of developing an oil and gas field by drilling multilateral wells for injection and production wells, injecting a displacing agent through injection wells, taking products through production wells, drilling additional multilateral wells in oriented vertical planes taking into account the geological structure of the field (RF Patent N 618985, class E 21 B 43/20, published 1999).

 The method provides for the production of some hard-to-recover oil reserves of a productive formation, however, the coverage of the formation by exposure remains low.

 Closest to the invention in technical essence is a method of developing a heterogeneous multilayer oil reservoir, comprising pumping a working agent through injection wells and taking oil through production wells from the reservoirs, at a later stage in the development of the reservoir, stopping at least one well, cementing under pressure previously perforated intervals and the installation of a cement bridge in the well with the formation of a new artificial bottom above the perforation intervals, the elimination of part of the casing and manning a cavity above the upper perforation interval, drilling a new deviated wellbore with a transition to a horizontal wellbore in an undeveloped formation or an inclined well passing through several undeveloped strata at a cavity location, placing new faces at least 50 m from the faces of previously drilled wells (RF Patent N 2097536, CL E 21 B 43/20, published. 1997 - prototype).

 The known method allows you to engage in the development of low permeability formations, however, this remains a low coverage of the reservoir by exposure.

 The proposed invention solves the problem of increasing the coverage of the reservoir by exposure and, as a result, increasing the oil recovery of the reservoir.

 The problem is solved in that in a method for developing an oil reservoir, which includes injecting a working agent through injection wells, taking oil through production wells, stopping at least one well, eliminating part of the casing string and forming a cavity, according to the invention, eliminating part of the casing string and forming caverns are carried out on different tiers of the well with execution on one tier in place of the cavity of several side filtration channels of small diameter, with an inclined profile and at different azimuthal angles and into which filter columns are pushed, and the side filtration channels are performed by hydro-jet perforation, starting from the lower tier of the well, and the intervals of multi-tiered shafts are fixed with profile ceilings that perforate. A stopped well after equipment is used as production or injection.

SUMMARY OF THE INVENTION
When developing an oil reservoir, part of the reservoir’s reserve remains unreached. Since the reservoir is heterogeneous, the development of reserves from the reservoirs is uneven. As a rule, 40-60% of oil-saturated thicknesses are involved in the development. Highly permeable formations are mainly covered by development. In addition, as a result of the flow of water along the wellbore, part of the reserves remains as if buried in the reservoir. The elimination of such flows by known means is temporary and largely ineffective. Due to the proximity of water-oil and gas-oil contacts, whole layers of high productivity cannot be opened, which cannot be involved in the development by conventional methods. 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 the coverage of the reservoir by exposure and, consequently, increasing the oil recovery of the reservoir by involving previously idle reservoirs in idle, idle, low productivity, unprofitable, highly flooded wells. The problem is solved by the following set of operations.

 Develop an oil reservoir. The working agent is pumped through injection wells and oil is taken through production wells. At least one injection and / or production well is stopped. On different tiers of the well, parts of the production string are cut to the required height. In this case, caverns are inevitably formed in the surrounding rock. Perform side filtration channels with hydro-jet, for example, hydro-sand perforation. Lateral filtration channels carry out a small diameter of about 92 - 95 mm and with an inclined profile - a slope of about 10 - 20 degrees. On one tier of the well, several side filtration channels, fan-shaped at different azimuthal angles, are made from one cavity. Preferred is the location of the 4 lateral filter channels through 90 degrees. The length of the side filtration channels is preferably 10 to 20 m. Filter cores, equivalent to the casing, are pushed into the formed side filtration channels. The filter columns are made of steel, perforated over the entire surface and with a preferred length of about 10 m and an outer diameter of about 90 mm. The intervals for the formation of multi-tiered trunks are fixed by installing profile ceilings that perforate.

 According to known technical solutions, the drilling of additional horizontal shafts from existing wells is performed with a very large radius of transition from a vertical to a horizontal (slightly inclined). In the proposed method, the side filtration channels are performed with a zero transition radius, i.e. the lateral filtration channel is almost perpendicular to the vertical shaft.

 In the well, side filtration channels can be made on one, two or more tiers depending on the thickness of the formation and its properties. In the production well, oil is taken through the side filtration channels; in the injection well, the working agent is pumped through the side filter channels.

 The implementation of the side filtration channels of the well and the actual liquidation of the previous wellbore lead to the elimination of the formed water flows. Moreover, over a very long period of time, there is no need for insulation work. In addition, the length of the lateral filtration channels allows you to go beyond the boundaries of the cased bottom hole zone of the well and go to the zone of reservoir permeability, which can significantly intensify the work of the well.

 Using an existing wellbore to carry out new shafts can save on drilling the main well and reduce the cost of work. Increasing the coverage of formations by the impact and the uniformity of the development of reserves allow increasing oil recovery by 5-10 points. The proposed method provides an increase in the current average daily flow rate of 12-15 times compared with adjacent wells drilled according to known technology.

Examples of specific performance of the method
Example 1. An oil reservoir of the Romashkinskoye field is 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 ^o C, reservoir oil parameters: density - 930 kg / m ³ , viscosity - 46 MPa • s, saturation pressure - 1.8 MPa, gas content - 15.2 m ³ / t, content sulfur - 3.64%.

 A working agent is pumped - mineralized water - through injection wells, oil is taken through production wells. Stop one production well.

 The drawing shows the design of the well.

 At the level of the middle of the productive oil-saturated formation 1 and lower, 0.6 m of the top of the productive oil-saturated formation 1 is cut out of the casing string 2 of the well 3 to a height of 150 mm. In this case, a cavity 4 is formed in the surrounding rock. At the middle level of a productive oil-saturated formation 1, a pipe string 5 with a guiding funnel 6 is lowered into the well 3. A funnel 6 is placed in the cavity 4. Inside the pipe string 5, pipes 7 are lowered and pushed into the funnel 6 and the cavern 4. A fluid for hydro-jet perforation is pumped through the pipes 7 and, as the rock of the formation 1 is eroded, the pipes 7 are pushed into the formed filter channel 8. The lateral filter channels 8 are 92 mm in diameter and have an inclined profile with a slope at an angle α = 14 g d. Upon reaching the required depth of 15 m, pipes 7 are removed and through the pipe string 5 and guide funnel 6, a perforated filter column 9 with an external diameter of 89 mm and a length of 10 m is pushed into the filter channel 8 so that it does not remain in the vertical wellbore 3 her ends. The filter column 7 undergoes bending in the guide funnel 6 while maintaining a sufficient level of strength.

 The pipe string 5 and the guiding funnel 6 are turned three times at an azimuth angle of 90 degrees and the operation is repeated. As a result, 4 sidetracks with perforated filter columns 9 are formed on this layer of the well.

 A pipe string 5 with a guiding funnel 6 is placed on a tier 0.6 m below the top of a productive oil-saturated formation 1 and the operations of forming 4 sidetracks with perforated filter columns 9 are repeated.

 A pipe string 5 with a guiding funnel 6 is removed from the well 3 and the profile overlap 10 is lowered to overlap the sidetracks of all the layers of the well 3. This allows the caverns 4 to be closed and the formation intervals of the multi-tiered trunks to be fixed by installing profile overlaps 10. To ensure inflow into the well in the profile overlaps 10 perform perforations 11 at the level of the side shafts.

 A well is exploited as a production well. After completing the lateral filtration channels, the well production rate increased from 5 to 32 tons / day. The water cut of the mined products decreased from 68 to 47%.

 Example 2. Perform as example 1. Stop the injection well. Perform operations according to example 1. The well is operated as an injection. In the surrounding production wells, the water cut of oil decreased by 7 - 9%. Formation in the well zone increased by 6%.

 The application of the proposed method allows to increase the coverage of the reservoir by exposure and increase the oil recovery of the reservoir.

Claims (3)

 1. A method of developing an oil reservoir, including pumping a working agent through injection wells, taking oil through production wells, stopping at least one well, eliminating part of the casing string and forming a cavity, characterized in that liquidating part of the casing string and forming a cavity on different tiers of the well, with execution on one tier in place of a cavity of several lateral filtration channels of small diameter, with an inclined profile and at different azimuthal angles into which they push filter columns, and the side filtration channels are performed by hydro-jet perforation, starting from the lower tier of the well, and the intervals of multi-tiered shafts are fixed with profile ceilings that perforate.  2. The method according to p. 1, characterized in that the stopped well after the equipment is used as production.  3. The method according to p. 1, characterized in that the stopped well after the equipment is used as an injection.