RU2740505C1 - Acid treatment method of open horizontal shaft of wells - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil industry and, in particular, to methods for intensification of oil production from productive carbonate formations opened by wells with open horizontal shafts. Method comprises separating formation treatment intervals. Tubing string is lowered and equipped with a jet nozzle with a seat from below for a stop element thrown to the tubing string from the well mouth. Jet nozzle is installed opposite to the interval of acid treatment closest to the bottomhole. From the well mouth, the shutoff element is dropped into the tubing string. Process liquid is brought to the mounting seat of the jet nozzle. Acid treatment is carried out. At the end of the acid treatment, the jet nozzle is removed to the surface. Geophysical investigations in an open horizontal borehole are used to identify intervals with low and high permeabilities. Jet nozzle is equipped above seating seat with two rows of holes with possibility of acid pumping both through one row of holes, and simultaneously through two rows of holes. Acid treatment is carried out by moving the pipe string from the bottomhole to the mouth in a mode of jetting with formation of longitudinal planes in the bottomhole formation zone - opposite radial holes of the jet nozzle along the entire length of the open horizontal shaft. In intervals with high permeability treatment is performed through one row of jet nozzle under pressure up to 10.0 to 19.99 MPa, created by one pump unit. In intervals of open horizontal shaft with low permeability treatment is performed through two rows of jet nozzle under pressure from 20.0 to 35.0 MPa, created by two pump units. During movement of tubing string in direction from wellhead to well bottom after lifting of tubing string each time acid from tubing string through formed longitudinal cavities in bottom-hole zone of formation is forced into productive formation. At the end of acid treatment products of reaction of acid with rocks of productive formation are removed. Then the well is developed by swabbing.

EFFECT: improving efficiency and quality of acid treatment of open horizontal shaft, as well as exclusion of acid discharge to wellhead and improvement of acid work safety, reduction of processing duration, open horizontal borehole.

1 cl, 5 dwg

Description

The invention relates to the oil industry, in particular to methods for stimulating oil production from productive carbonate reservoirs, penetrated by wells with open horizontal wells.

A known method of acid treatment of the bottomhole zone (BHZ) of formations in wells with open holes (V.G. Umetbaev. Geological and technical measures during the operation of wells. - M .: Nedra, 1989. - P.62-64), including lowering the pipe string to the bottom, pumping the calculated amount of acid solution into the pipe string, pumping the displacement fluid in the volume of the pipe string cavity and holding the acid for reaction (acid bath technology).

The disadvantages of this method are:

- low efficiency, since only the near-wall layer of the formation is subjected to acid treatment,

- low quality of acid treatment, since the oil-saturated matrix of the formation practically remains untreated, especially in depth.

There is also known a method of processing a productive carbonate formation (patent No. 2570159, IPC E21B 43/27, publ. 12/10/2015 in bulletin No. 34), including the allocation of treatment intervals with an open well with an open horizontal wellbore in oil-saturated rocks of a carbonate formation, lowering into the treatment interval formation of a tubing string - tubing with a jet nozzle with nozzles with holes radially located at an angle of 120 ° along the generatrix, injection into the intervals of treatment of the formation along the tubing string in portions in the modes of acid jet action and hydrosand-jet action with a sand-water solution of a surfactant. After the separation of treatment intervals in the oil-saturated rocks of the carbonate formation, penetrated by a well with an open horizontal borehole, the tubing string is equipped from the bottom-up at the wellhead: a spherical funnel with a landing saddle under a shut-off element dumped into the tubing string from the wellhead, a jetting nozzle, a centralizer pipe, filter, inside of which a bushing is fixed with a shear screw, which hermetically closes the filter holes from the inside. With an open annular valve at the wellhead, the tubing string is lowered into the well with flushing with process fluid and rotating. A jetting nozzle is installed opposite the beginning of the treatment interval of an open horizontal wellbore closest to the wellhead, the shut-off element is dropped into the tubing string and the process fluid is brought to the landing seat of the spherical funnel. Then, at the wellhead, two marks are applied to the upper pipe of the tubing string, located at an angle of 180 ° to each other. The axial movement of the tubing string is started from the wellhead to the bottomhole, while periodically in the intervals of treatments in portions, acid is injected along the tubing string in the mode of hydromonitoring with the formation of longitudinal planes in each interval of formation treatment. When the spherical funnel reaches the bottom of the open horizontal wellbore, the annular valve is closed at the wellhead. Axial displacement of the tubing string from the bottomhole to the wellhead is carried out, and periodically in the intervals of treatments, portions of the sand-water solution of the surfactant are injected through the tubing string in the hydrosand-jetting mode on the longitudinal planes of the treatment intervals until the jetting nozzle reaches the end of the treatment interval closest to the wellhead ... After that, the pipe string is turned 180 ° and the above-described technological process is repeated one more time, starting with the opening of the annular valve at the wellhead and axial movement of the pipe string from the wellhead to the bottomhole and ending with the jetting nozzle reaching the end of the treatment interval closest to the wellhead. At the end of the acid jetting and hydrosanding sand-water solution of the surfactant from the wellhead with an open annular valve at the wellhead, a plug is pushed along the tubing string with the process fluid with the destruction of the shear screw and the sleeve is displaced inside the pipe with the opening of the filter holes and hermetic shut-off of the jetting ... The remnants of the sand mixture from the open horizontal wellbore are washed out by pumping the process fluid into the tubing string with rotation and movement of the tubing string in the open horizontal wellbore from the wellhead to the bottom, while flushing the open horizontal wellbore in the volume of one cycle with three reworking before building up the tubing string. by the length of one pipe until the spherical funnel reaches the bottom of the open horizontal wellbore, after which the tubing string is pulled to the surface.

The disadvantages of this method are:

- low efficiency of acidizing an open horizontal wellbore, since the method does not take into account the reservoir properties of the productive formation, in particular the permeability of the bottomhole formation zone (BHZ), penetrated by a well with an open horizontal wellbore. In addition, the open hole is treated with acid not along the entire length, but only in sections, which, during the subsequent operation of the well, leads to uneven production of oil from the formation;

- low quality of acidizing of an open horizontal wellbore, due to the absence of acid squeezing into the bottomhole formation zone through the longitudinal planes formed in the open horizontal wellbore as a result of water jetting during the pipe string movement. This limits the radial area of acid penetration through planes in the bottomhole formation zone, penetrated by an open horizontal wellbore;

- in the process of acidizing the formation, the pipes of the tubing string are removed from the well, while the territory of the well is contaminated with acid pouring out from the tubing string when the pipe is turned off at the wellhead;

- spilling acid at the wellhead reduces the safety of the work, since the probability of getting burns of the maintenance personnel (workers), who are engaged in turning the tubing string pipes, multiplies;

- duration of acid treatment of an open horizontal wellbore, due to the conduct of a hydrosand-jet sand-water solution of a surfactant after the water jet treatment of the bottomhole formation zone and the rotation of the tubing string. In addition, before extending the pipe string, the open horizontal wellbore is flushed in the volume of one cycle with three times the length of one pipe.

The closest in technical essence and the achieved result is a method of treating a productive carbonate reservoir (patent No. 2565293, IPC E21B 43/27, publ. 20.10.2015 in bulletin No. 29), including the allocation of treatment intervals with an open horizontal wellbore in oil-saturated formations a carbonate formation, running a tubing string into the formation treatment interval - tubing with a jet nozzle with nozzles with holes radially located at an angle of 120 ° along the generatrix, injection into the formation treatment intervals along the tubing string in portions in the modes of acid jetting and hydrosandblasting sand- an aqueous solution of a surfactant. After the separation of treatment intervals in oil-saturated rocks of a carbonate formation, penetrated by a well with an open horizontal bore at the wellhead, the tubing string is equipped from bottom to top: a spherical funnel, a jetting nozzle with a landing seat for a flush-out shut-off element to be thrown into the pipe string from the wellhead, a centralizer pipe. With an open annular valve at the wellhead, the tubing string is lowered into the well with flushing with process fluid and rotating. The jetting nozzle is installed opposite the beginning of the treatment interval closest to the bottom of the open horizontal wellbore. From the wellhead, a washed-out shut-off element is dropped into the tubing string, and the process fluid is brought to the landing seat of the jetting nozzle. The tubing string is rotated from the wellhead and a portion of the acid is pumped through the pipe string in the mode of acid jetting with the formation of a transverse cavity. The rotation of the tubing string from the wellhead and the injection of acid along the tubing string are stopped and the tubing string is moved from the bottomhole to the wellhead by one meter in the treatment interval and, in the acid jetting mode, the next transverse cavity is formed as described above, after which the technological process with the formation of transverse cavities repeated every meter, depending on the length of the treatment interval in the open horizontal wellbore, starting with the rotation of the pipe string from the wellhead and ending with the movement of the tubing string from the bottom to the wellhead by one meter within the treatment interval of the open horizontal wellbore. At the end of the creation of the last transverse cavity in the interval of processing an open horizontal wellbore, close the casing valve at the wellhead, without interrupting the rotation of the tubing string from the wellhead, inject a sand-water surfactant solution through the tubing string in the mode of hydrosand-jet action on the transverse cavity. The rotation of the pipe string from the wellhead and the injection of the sand-water solution of the surfactant through the pipe string are stopped. Then the tubing string is moved from the wellhead to the bottom of the well by one meter, and the next transverse cavity is treated in the hydrosandblasting mode as described above, after which the technological process is repeated depending on the number of transverse cavities in the treatment interval, starting with the rotation of the pipe string from the wellhead and ending with the movement of the string from the wellhead to the bottom of the well by one meter within the interval of treatment of an open horizontal wellbore, in the same way, an acid jet and hydrosand-jet sand-water solution of a surfactant are applied to all the remaining processing intervals of an open horizontal wellbore. The shut-off element and the remains of the sand mixture from the open horizontal wellbore are washed out by pumping the process fluid into the annulus with simultaneous rotation and movement of the pipe string in the open horizontal wellbore from the wellhead to the bottomhole. Before building up the pipe string, the open horizontal wellbore is flushed out in the volume of one cycle with three-fold reaming for the length of one pipe until the ball funnel reaches the bottom of the open horizontal wellbore, after which the tubing string is removed to the surface.

The disadvantages of this method are:

- low efficiency of acidizing an open horizontal wellbore, since the method does not take into account the reservoir properties of the productive formation, in particular the permeability of the bottomhole formation zone (BHZ), penetrated by a well with an open horizontal wellbore. In addition, the open hole is treated with acid not along the entire length, but only in sections, which, during the subsequent operation of the well, leads to uneven production of oil from the formation;

- low quality of acid treatment of an open horizontal wellbore, due to the absence of acid squeezing in the bottomhole formation zone through the transverse cavities formed in the open horizontal wellbore as a result of the jetting action during the pipe string movement. This limits the radial area of acid penetration through planes in the bottomhole formation zone, penetrated by an open horizontal wellbore;

- in the process of acidizing the formation, the pipes of the tubing string are removed from the well, while the territory of the well is contaminated with acid pouring out from the tubing string when the pipe is turned off at the wellhead;

- spilling acid at the wellhead reduces the safety of the work, since the probability of getting burns for the maintenance personnel (workers), who are engaged in turning the tubing string pipes, multiplies.

- duration of acid treatment of an open horizontal wellbore, due to the conduct of a hydrosand-jet sand-water solution of a surfactant after the water jet treatment of the bottomhole formation zone and the rotation of the tubing string. In addition, before extending the pipe string, the open horizontal wellbore is flushed in the volume of one cycle with three times the length of one pipe.

The technical objectives of the invention are to improve the efficiency and quality of acid treatment of an open horizontal wellbore, as well as to eliminate the outflow of acid at the wellhead and to improve the safety of working with acid, to reduce the duration of acidizing an open horizontal wellbore.

The set technical problems are solved by the method of acidizing an open horizontal wellbore, including the identification of treatment intervals for a drilled-out well with an open horizontal wellbore in oil-saturated rocks of a carbonate formation, running a tubing string into the treatment intervals of an open horizontal wellbore - tubing, equipped with a jet nozzle with a landing a saddle for a flushed-out shut-off element to be dropped into the tubing string from the wellhead, the tubing string is lowered into an open horizontal wellbore with an open annular valve at the wellhead with flushing with process fluid, a jetting nozzle is installed opposite the beginning of the acid treatment interval closest to the bottom of an open horizontal wellbore, from the wellhead, a washed-out shut-off element is dropped into the tubing string and the process fluid is brought to the landing seat of the jetting nozzle, the string is moved b from the bottomhole to the wellbore with simultaneous injection of an acid solution into the treatment intervals of an open horizontal wellbore along the tubing string in a jetting mode with the formation of cavities in an open horizontal wellbore; upon completion of acidizing an open horizontal wellbore, the tubing string with a jetting nozzle is removed to the surface.

The novelty is that geophysical surveys along the entire length of an open horizontal wellbore identify intervals with low permeabilities from 0.0001 to 0.099 μm ² and with high permeabilities from 0.01 to 10 μm ² , a jet nozzle is lowered into the well to the bottom at the end of the pipe string. equipped above the seating seat with two rows of holes, one row of holes of the jet nozzle is radially displaced relative to the other row of holes, and the jet nozzle has the ability to pump acid both through one row of holes and simultaneously through two rows of holes, while acid treatment is performed by moving the column of pipes from the bottomhole to the wellhead in the jetting mode with the formation of longitudinal planes in the bottomhole formation zone - opposite the radial holes of the jetting nozzle along the entire length of the open horizontal wellbore, while in the intervals of the open horizontal wellbore with high permeability, the treatment is carried out with acid through one row of guides pumping nozzle under pressure up to 10.0 to 19.99 MPa, created by one pumping unit, and in the intervals of an open horizontal wellbore with low permeability, the treatment is carried out with acid through two rows of jetting nozzle under pressure from 20.0 to 35.0 MPa, created by two pumping units connected in series, and in the process of moving the tubing string in the direction from the wellhead to the bottom of the well after lifting each tubing, acid from the tubing string through the formed longitudinal cavities in the bottomhole formation zone is pushed into the productive formation by pumping the process fluid into the tubing string from the wellhead in a volume 3 m ³ , at the end of acid treatment of an open horizontal wellbore, the products of the acid reaction with the rocks of the productive formation are extracted and the well is completed by swabbing.

Figures 1-5 schematically depict the proposed method for acidizing an open horizontal wellbore.

The proposed method is carried out in the following sequence.

Open horizontal wellbore 1 (see Fig. 1) of well 2 is subject to acid treatment.

The length of the open horizontal wellbore 1 of well 2, which penetrated the productive layer 3, is L = 215 m (in the range of 1135-1350 m).

Geophysical surveys reveal the intervals of an open horizontal wellbore with:

- low permeability from 0.0001 to 0.099 µm ² , namely, these are the intervals of treatment with an acid solution: 4 '(1310-1245 m) with permeability from 0.0004 to 0.02 µm ² ; 4 '' (1190-1135 m) with permeability from 0.003 to 0.09 μm ² ;

- high permeability from 0.01 to 10 μm ² , namely, these are the intervals of treatment with an acid solution: 5 '(1350-1310 m) with permeability from 0.05 to 1.5 μm ² ; 5 '' (1245-1190 m) with permeability from 0.09 to 6.5 μm ² .

After allocating processing intervals 4 '; 4 "and 5 '; 5 '' in the oil-saturated rocks of the productive formation 3 at the wellhead 2, the tubing string - tubing 6 (see Fig. 1) is equipped from the bottom with a jet nozzle 7 with a landing saddle 8 underneath the flushed out shut-off element 9, which is discharged into the tubing string 6 from the wellhead (see figure 2), made in the form of a ball. In addition, the jet nozzle 7 (see FIGS. 1-4), above the landing seat 8, is equipped with two rows of holes 10 and 11.

As a tubing string, for example, a tubing string with an outer diameter of 73 mm is used in accordance with GOST 633-80.

The number of holes in rows 10 and 11, as well as the diameter - d of holes in rows 10 and 11, are selected empirically, depending on the characteristics of the pump unit used in the implementation of the method. For example, when implementing the method, pumping units of the Azinmash-30A brand are used to pump acid, and a TsA-320 cementing unit is used to pump the process fluid and squeeze acid into the formation.

In each row 10 and 11 (see Figs. 4 and 5) of the jet nozzle 7, there are two holes, for example, with a diameter of d = 4.5 mm, located at an angle of 180 ° with respect to each other. The openings of the row 10 of the jet nozzle 7 are radially displaced relative to the holes of the row 11 of the jet nozzle 7, for example, at an angle of 90 °, so that in the mode of the jet action the acid jets flowing out of these holes do not overlap. The jet nozzle 7 has the ability to pump acid, both through one row of 10 holes, and simultaneously through two rows of 10 and 11 holes.

As the jetting nozzle 7, the jetting nozzle described in the application No. 2020120013 dated 06/09/2020 can be used. In the jet nozzle 7, a stepped piston 12 spring-loaded from the side of the row 10 of holes can be installed, having at the ends a different area of the annular cross-section S ₁ and S ₂ (see Fig. 2), while (S ₁ > S ₂ ). This ensures the movement of the stepped piston 10 inside the jet nozzle 7 and the opening of row 11, with the row 10 open, when the pressure in the jet nozzle 7 reaches 20.0 MPa.

When implementing the method, the acid used is, for example, hydrochloric acid inhibited with 22-25% HCl, produced according to TU 2122-017-52257004-2008 with rev / 1.

With an open annular valve 14, tied with a gutter tank 15 from the wellhead 2 (see Figs. 1 and 2) into the tubing string 6, equipped with a jet nozzle 7 from below, flushed with a process fluid, for example, waste water with a density of 1080 kg / m ^{3, is} lowered into open horizontal wellbore 1 of well 2 and install a jet nozzle 7 opposite the bottom hole 12 (1350 m) of the open horizontal wellbore 1 of well 1.

When implementing the method for sealing the wellhead 2, the wellhead gland is used in figure 1 is shown conditionally.

Further, from the wellhead 2 (see Fig. 3), the shut-off element 9 is dropped into the tubing string 6, after which it is brought to the landing seat 8 of the jetting nozzle 7 by pumping the process fluid, while the excess process fluid from the annular space 16 (see Fig. 1 and 3) wells 2 flow into the trough tank 15.

Then, the annular valve 14 is closed and the treatment of the open horizontal wellbore 1 of well 2 is started. From the bottom hole 13 of well 2, interval 5 '(1350-1310 m) begins with a high permeability from 0.05 to 1.5 μm ² . Interval 5 'is treated by pumping acid along the tubing string 6 through one row 10 of the jetting nozzle 7 under a pressure of 10.0 to 19.99 MPa, for example 17 MPa, with one pumping unit 17 (Azinmash-30A) with an open valve 18.

In the interval 5 'of the open horizontal wellbore 1, acid treatment is carried out by moving the tubing string 6 from the bottomhole to the wellhead at a speed of 0.25 m / s in the jetting mode through a series of holes 10 of the jetting nozzle 7 to form two longitudinal cavities 19' and 19 '' ( see Fig. 3) with a depth h ₁ , for example equal to 20 cm in the bottomhole formation zone - opposite two radial holes of row 10 of the jet nozzle 7 along the entire length of the interval 5 'of the open horizontal wellbore 1. In the process of moving the tubing string 6 from the wellhead to the bottom of well 2 after lifting each tubing, for example, to a height of 10 m, acid from the tubing string 6 through the longitudinal cavities 19 'and 19''with a depth h ₁ formed in the bottomhole zone is pushed into the productive formation 3 by pumping a process fluid in a volume of 3 m ³ into the tubing string 6 using pumping unit 20 (TsA-320) with a closed valve 18 and an open valve 21 from the wellhead 2. After the acid is pumped into the pay zone 3, one tubing is dismantled, the valve 21 is closed and opened behind engine 18 and with the help of pumping unit 17 continue to process the interval 5 'of the open horizontal wellbore 1.

After reaching the jet nozzle 7 (see Figs. 1, 4 and 5) in the open horizontal wellbore 2 of well 1, interval 1350 m, interval 4 '(1310-1245 m) begins with a low permeability from 0.0004 to 0.02 μm ² . Interval 4 'is treated by pumping acid through two rows 10 and 11 of the jet nozzle 9 under a pressure of 20.0 to 35.0 MPa, for example 33.0 MPa by two pumping pumping units 17 and 22 ("Azinmash-30A") connected in series ... Serial connection of two pumping units 17 and 22 provides the creation of the above pressure for pumping acid through the jet nozzle 7. Serial connection of the second pump unit 22 is realized by opening the valve 23.

In the interval 4 'of an open horizontal wellbore 1, acidizing is carried out by moving the tubing string 6 in the direction from the bottomhole to the wellhead at a speed of 0.25 m / s in the jetting mode through two rows of holes 10 and 11 of the jetting nozzle 7 with the formation of four longitudinal cavities 24'; 24 ''; 24 '''; 24 '''' depth h ₂ , for example equal to 12 cm in the bottomhole zone - opposite the four holes of two rows 10 and 11 of the jet nozzle 7 along the entire length of the interval 4 'of the open horizontal bore 1. Cavities 24'; 24 ″ formed by a series of holes 10 are radially offset by an angle of 90 ° (see Figs. 4 and 5) relative to the cavities 24 ″ ″; 24 '''', formed by a row of 11 holes of the jet nozzle 7.

In the process of moving the tubing string 6 from the wellhead to the bottom of the well 2 after lifting each tubing, for example to a height of 10 m, acid from the tubing string 6 through the longitudinal cavities 24 '; 24 ''; 24 '''; 24 '''' depth h ₂ , formed in the bottomhole formation zone, are pushed into the pay zone 3 by pumping the process fluid in a volume of 3 m ³ into the tubing string 6 using the pumping unit 20 (CA-320) with a closed valve 18 and an open valve 21 from the wellhead 2. After the acid is pushed into the productive formation 3, one tubing is dismantled, the valve 21 is closed and the valve 18 is opened, and with the help of the pumping unit 17 and 22 with the valve 23 open, they continue to process the interval 4 'of the open horizontal wellbore 1.

After reaching the jet nozzle 7 (see Figs. 1 and 3) in the open horizontal wellbore 2 of well 1, interval 1350 m, interval 5 '' (1245-1190 m) begins with high permeability from 0.09 to 6.5 μm ² .

Interval 5 '' is treated by pumping acid through one row 10 of the jetting nozzle 9 at a pressure of 10.0 to 19.99 MPa, for example 15.0 MPa, with one pumping unit 17 (Azinmash-30A) with the valve 18 open.

In the interval 5 '' of an open horizontal wellbore 1, acidizing is carried out by moving the tubing string 6 from the bottomhole to the wellhead at a speed of 0.25 m / s in the jetting mode through a series of holes 10 of the jetting nozzle 7 to form two longitudinal cavities 17 'mi 17'' depth h ₃ , for example equal to 18 cm in the bottomhole formation zone - opposite the two radial holes of row 10 of the jet nozzle 7 along the entire length of the interval 5 '' of the open horizontal wellbore 1. In the process of moving the tubing string 6 from the wellhead to the bottom of well 2 after lifting each tubing, for example to a height of 10 m, acid from the tubing string 6 through longitudinal cavities 25 'and 25''with a depth of h ₃ , formed in the bottomhole formation zone, is pushed into the productive formation 3 by pumping a process fluid in a volume of 3 m ³ into the tubing string 6 using a pumping unit 20 (CA -320) with a closed valve 18 and an open valve 21 from the wellhead 2. After the acid is pumped into the pay zone 3, one tubing is dismantled, the valve 21 is closed and the valve 1 is opened 8 and using the pumping unit 17 continue to process the interval 5 'of the open horizontal wellbore 1.

After reaching the jet nozzle 7 (see Figs. 1, 4 and 5) in the open horizontal wellbore 2 of well 1, interval 1350 m, interval 4 '' (1190-1135 m) begins with a low permeability from 0.003 to 0.09 μm ² . Interval 4 '' is treated by pumping acid through two rows 10 and 11 of the jetting nozzle 7 under pressure from 20.0 to 35.0 MPa, for example 27.0 MPa, by two pumping pumping units 17 and 22 (Azinmash-30A) connected consistently. Serial connection of two pumping units 17 and 22 provides the creation of the above pressure for pumping acid through the jet nozzle 7. Serial connection of the second pump unit 22 is realized by opening the valve 23.

In the interval 4 '' of an open horizontal wellbore 1, acidizing is carried out by moving the tubing string 6 in the direction from the bottomhole to the wellhead at a speed of 0.25 m / s in the jetting mode through two rows of holes 10 and 11 of the jetting nozzle 7 with the formation of four longitudinal cavities 26 '; 26 ''; 26 '''; 26 '''' depth h ₄ , for example equal to 0.15 m in the bottomhole zone - opposite the four holes of two rows 10 and 11 of the jet nozzle 7 along the entire length of the interval 4 'of the open horizontal well 1. Plane 26'; 26 ″ formed by the row of holes 10 are radially offset by 90 ° relative to the cavities 26 ″ ″; 26 '''', formed by a row of 11 holes of the jet nozzle 7.

In the process of moving the tubing string 6 from the wellhead to the bottom of the well 2 after lifting each tubing, for example to a height of 10 m, acid from the tubing string 6 through the longitudinal cavities 26 '; 26 ''; 26 '''; 26 '''' with depth h ₄ , formed in the bottomhole formation zone, are pushed into the pay zone 3 by pumping the process fluid in a volume of 3 m ³ into the tubing string 6 using the pumping unit 20 (CA-320) with a closed valve 18 and an open valve 21 from the wellhead 2. After the acid is pushed into the productive formation 3, one tubing is dismantled, the valve 21 is closed and the valve 18 is opened, and with the help of the pumping unit 17 and 22 with the valve 23 open, they continue to process the interval 4 'of the open horizontal wellbore 1.

At the end of acid treatment of an open horizontal wellbore 1 of well 2, pumping units 17, 20 and 22 are turned off and tubing string 6 with a jet nozzle 7 is removed from well 2.

Further, the products of the reaction of the acid with the rocks of the productive formation are extracted and the well is completed by swabbing.

To do this, the technological pipe string is lowered in Figs. 1-5, not shown into an open horizontal borehole 1 (see Fig. 1) of well 2, and by swabbing with a geophysical lift, for example, the PKS-5 brand with a "common filter" i.e. along the entire length of the open horizontal wellbore (215 m), the products of the reaction of the formation rock with acid are extracted and well 2 is completed.

The process of implementing the method is over.

Treatment of an open horizontal wellbore is carried out taking into account the permeability of the productive formation, which makes it possible to regulate the pressure of the jetting action on the bottomhole formation zone and selectively treat an open horizontal wellbore, while the open horizontal wellbore is treated with acid along the entire length, which, during subsequent operation, leads to uniform oil production from the productive formation. All this increases the efficiency of acidizing an open horizontal hole.

In the process of implementing the method, acid is squeezed out by pumping a process fluid in a volume of 3 m ³ into the bottomhole formation zone after lifting each tubing through the longitudinal planes formed in the open horizontal wellbore as a result of the jetting action during the pipe string movement. This significantly increases the radial area of acid penetration through the planes in the bottomhole formation zone, penetrated by an open horizontal wellbore with reaching the treatment depth with a radius of R = 1.5-2 m, and after the acid reacts with the rocks of the productive formation, the reaction products are extracted by swabbing. All this improves the quality of acidizing an open horizontal wellbore and, during subsequent operation of the well, increases its flow rate by 1.5-2 times.

Filling the tubing string from the wellhead with process fluid in the amount of 3 m ³ after lifting each tubing in the process of acidizing an open horizontal wellbore excludes contamination of the well area with acid, since it is guaranteed that acid spillage from the tubing string is excluded when the pipe is turned at the wellhead.

Since acid spillage at the wellhead is excluded, the safety of the work is increased, which completely eliminates the possibility of burns for the maintenance personnel (workers) who are engaged in turning the tubing string pipes during the acidizing of an open horizontal wellbore.

When implementing the method, the treatment of an open horizontal wellbore with a sandy-water solution of a surfactant is excluded; rotation of the tubing string with the help of a rotor, as well as flushing an open horizontal wellbore in the volume of one cycle with three times working out for the length of one pipe before building up the tubing string. All this makes it possible to reduce the duration of acidizing an open horizontal wellbore, and therefore to reduce the cost of work.

The proposed acidizing of an open horizontal wellbore allows:

- to improve the efficiency and quality of acidizing an open horizontal wellbore;

- to exclude the outflow of acid at the wellhead during the implementation of the method;

- to improve the safety of working with acid in the process of implementing the method;

- reduce the duration of acidizing an open horizontal wellbore.

Claims (1)

The method of acidizing an open horizontal wellbore, in accordance with which the intervals for the treatment of a drilled hole with an open horizontal wellbore in oil-saturated rocks of a carbonate formation are distinguished, a tubing string - tubing is lowered into the treatment intervals for an open horizontal wellbore - tubing, - equipped from the bottom with a jet nozzle with a landing a saddle under the flushed-out shut-off element discharged into the tubing string from the wellhead, the tubing string is lowered into an open horizontal wellbore with an open annular valve at the wellhead with flushing with process fluid, a jetting nozzle is installed opposite the beginning of the acid treatment interval closest to the bottom of the open horizontal wellbore, with the wellhead, the washed-out shut-off element is dropped into the tubing string and the process fluid is brought to the landing seat of the jet nozzle, the pipe string is moved from the bottomhole to the wellhead while simultaneously by pumping an acid solution into the treatment intervals of an open horizontal wellbore along a tubing string in a jetting mode with the formation of cavities in an open horizontal wellbore, upon completion of acidizing an open horizontal wellbore, a tubing string with a jetting nozzle is removed to the surface, characterized in that by geophysical research on the entire length of an open horizontal wellbore is divided into intervals with low, from 0.0001 to 0.099 μm ² , and with high, from 0.01 to 10 μm ² , permeabilities, a jetting nozzle equipped above the landing is lowered into the well to the bottomhole at the end of the pipe string. seats with two rows of holes, one row of holes of the jet nozzle being radially displaced relative to another row of holes, and the jet nozzle is provided with the possibility of pumping acid both through one row of holes and simultaneously through two rows of holes, while acidizing with the formation of longitudinal planes in the bottomhole formation zone are carried out along the entire length of an open horizontal wellbore, while in the intervals of an open horizontal wellbore with high permeability, treatment is performed with acid through one row of a jet nozzle under pressure up to 10.0 to 19.99 MPa, created by one pumping unit, and in intervals of an open horizontal wellbore with low permeability, treatment is carried out with acid through two rows of jet nozzles under pressure from 20.0 to 35.0 MPa, created by two pumping units connected in series, and in the process of moving the tubing string in the direction from the wellhead to the bottom of the well after lifting each tubing string, acid from the tubing string through the formed longitudinal cavities in the bottomhole formation zone is pushed into the productive formation by pumping a process fluid into the tubing string from the wellhead in a volume of 3 m ³ , at the end of acid treatment of an open horizontal wellbore, the acid reaction products are extracted with rocks of a productive formation and well development by swabbing.

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