RU2581589C1 - Method for development of multi-hole branched horizontal well - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil industry. Development method of multi-hole branched horizontal wells involves separate development of each branched shaft drilled from the main horizontal part of the well using the tubing string with packer and swab limiter arranged in lower part of vertical section of tubing string, packer seating and acid treatment of branched shaft, pumping of 10-15% solution of hydrochloric acid with further process exposure for reaction with further development of well swabbing cycles. In the well first coil tubing is run, equipped from below with hydraulic whipstock with jet nozzle at the end of the separate acid treatment for each members shaft starting from the middle to the well head, the flexible pipe string with hydraulic whipstock and jet nozzle is lowered in branched well bore up to the thrust of jet nozzle in the bottomhole of branched shaft. Then at open casing valve acid pumping is started with simultaneous rise of flexible pipe string of branched shaft without bringing 3 m to inlet of branched shaft from the main part of horizontal well at rate providing continuous replacement of the entire volume of branched shaft by acid. After filling of branched shaft with acid at closed annular valve the acid is flushed by process fluid of through hydraulic whipstock and jet nozzle from branched shaft into formation. Now, a string of flexible pipes and hydraulic whipstock with jet nozzle are removed from branched well shaft to main horizontal part of the well and process is exposed for reaction. Similarly remaining branched wellbores are processed. After acid treatment of all branched boreholes string of flexible pipes with hydraulic whipstock and jet nozzle are removed from the well and tubing string with swab limiter and inflatable packer on lower end is lowered into well following with alternating individual development of each branched borehole starting from the most remote from the wellhead. Inflatable packer is set in the main horizontal part of the well with arrangement of lower end of the tubing string opposite the inlet of quick branched shaft, and development of each branched shaft is made by swabbing cycles via the tubing string in the volume of main horizontal part of the well from bottomhole to the inlet into the branched shaft plus two volumes of developed branched shaft.

EFFECT: higher efficiency of acid treatment, quality of development of contaminated productive formation, reliability.

1 cl, 2 dwg

Description

The invention relates to the oil industry, and in particular to the field of completion of the construction of multi-sided branched-horizontal wells (MRGS) with multidirectional branched shafts (branches) with respect to the main part of the horizontal wellbore and, in particular, to the development process when they are completed by drilling.

A known method of developing multi-hole branched horizontal wells (RF patent No. 2299981, IPC 8 E21B 43/25, published in Bulletin No. 15 of 05/27/2007), which includes well development itself using tubing and determining the volume of each inflow the trunk. In the horizontal part of the well with upward branches of the wells, each branch is developed without entering the wells after replacing the drilling fluid with oil, the tubing is equipped with a swab limiter and installed at the lower points of each branch, while the development is carried out by swabbing cycles.

The disadvantages of this method are:

- firstly, the limited application of the method, since it can be used to develop multi-hole branched-horizontal wells (MRGS) with the direction of the horizontal part of the trunks (branches) upward;

- secondly, the development takes place by replacing the drilling fluid with oil, followed by the development of all the branches by swabbing cycles, while there is a gentle depression on the formation, which does not allow to effectively develop a highly contaminated productive formation (for example, acid reaction products after treatment of the bottom-hole zone), in which these branches are drilled, moreover, development is carried out from the mouth to the bottom, which can lead to contamination of already developed branch trunks;

- thirdly, the swab run down is limited by the swab limiter, which is installed on the lower points of each branch, while due to the curvature of the well during swabbing, the swab may not reach the lower point of each branch or the swab will jam in the bent section of the well and, as a result, wire breakage and an emergency in the well.

A known method for the development of multi-sided branched-horizontal wells (RF patent No. 2459941, IPC E21B 43/25, published in Bulletin No. 24 dated 08/27/2012), which includes well development using a tubing string — tubing and determination of inflow volumes each branch hole drilled from the main horizontal part of the well, and the tubing is equipped with a swab limiter, and development is carried out by swab cycles, while the tubing string before launching is equipped with a hydraulic diverter with inlet openings and a packer located closer to the mouth relative to the input channels of the deflector, and the swab limiter is placed in the lower part of the vertical section of the tubing string, while the development of branched trunks is carried out separately for each branched trunk, starting from the farthest from the wellhead, due to sequential input before development using a diverter into the selected branch pipe string and isolating the branch pipe from the main horizontal part of the well with a packer.

The disadvantages of this method are:

- firstly, the low efficiency of development, due to the lack of acid treatment before the development of MRGS;

- secondly, the low quality of development of a highly contaminated productive layer, opened by an open branched trunk of the IWGS, this is due to the fact that the mud (sludge, sludge, sand) deposited on the surface of the open trunk prevents the quality development of the branched trunk;

- thirdly, the long technological development process associated with the use of tubing string, and not the flexible pipe string.

The closest in technical essence and the achieved result is a method for the development of multi-sided branched-horizontal wells (RF patent No. 2459945, IPC E21B 43/25, published in Bulletin No. 24 of 08/27/2012), which includes well development using a pumping string compressor pipes - tubing and determining the inflow volumes of each branched (branched) bore drilled from the main horizontal part of the well, and the tubing string is equipped with a swab limiter, and the development is carried out by swab cycles, while the tubing string before sp They are equipped with two centralizers and packers, between which the output channels are located, and a swab limiter is placed in the lower part of the vertical section of the tubing string, while the development of branched trunks is carried out separately for each branched trunk, starting from the farthest from the wellhead, cutting off in the main horizontal part wells with packers, the entrance of the selected branched trunk from communication with other branched trunks, and after installing the packers, the acid treatment of the selected branched trunk, pumping a 10-15% solution of inhibited hydrochloric acid at the rate of 0.2-0.25 m ³ per meter of length of a branched trunk with subsequent technological exposure.

The disadvantages of this method are:

- firstly, the low efficiency of acid treatment before the development of MRSG by acid injection from the main horizontal part of the well. This is due to the fact that pop-up oil and / or water located in the branched (branched) trunk of the MRHS block the upper part of the branched trunks and prevent the reaction of acid with carbonate rocks when filling the branched trunk with acid;

- secondly, the low quality of the development of a contaminated reservoir, opened by an open branched trunk of the IWGS, is due to the fact that the mud (sludge, sludge, sand) deposited on the surface of the open trunk during drilling and washing prevents the quality development of the branched trunk;

- thirdly, the low reliability of the implementation of the method associated with the landing of a two-packer arrangement, increasing the likelihood of an unpressurized fit in comparison with a single-packer arrangement.

An object of the invention is to provide a method that allows for the efficient acid treatment of branched trunks before the development of MRSGs and for the qualitative development of a contaminated reservoir exposed by open branched trunks, as well as improving the reliability of the implementation of the method for developing MRSGs.

The stated technical problem is solved by the method of developing a multi-sided branched-horizontal well, including the separate development of each branched well drilled from the main horizontal part of the well using a tubing string — tubing equipped with a packer and swab limiter located at the bottom of the vertical section of the tubing string, planting the packer and carrying out the acid treatment of the branched trunk by pumping a 10-15% solution of hydrochloric acid with subsequent technological exposure to the reaction with subsequent development of the well by swabbing cycles.

What is new is that a string of flexible pipes is first lowered into the well, equipped with a hydraulic diverter at the bottom with a hydraulic nozzle at the end, separate acid treatment is performed for each branched shaft, starting from the closest to the wellhead, while a flexible pipe string with a hydraulic diverter and hydromonitor the nozzle is lowered into the branched wellbore to the stop of the hydraulic nozzle in the bottom of the branched trunk, after which, when the annular valve is open, injection of acid begins with by raising the string of flexible pipes from the branched shaft by 3 minutes before reaching the branched shaft from the main part of the horizontal well, at a speed that provides continuous replacement of the entire volume of the branched trunk with acid, after filling the branched trunk with acid with a closed annular valve, the acid is pumped with process fluid along the string of flexible pipes through a hydraulic diverter and a hydraulic monitor nozzle from the branched trunk into the formation, after which the bending string is removed x pipes and a hydraulic diverter with a hydraulic nozzle from the branched borehole to the main horizontal part of the well and carry out technological exposure to the reaction, similarly, the remaining branched boreholes are treated, after the acid treatments of all branched shafts are completed, the flexible pipe with hydraulic diverter is removed from the well and with a hydraulic nozzle, a tubing string with a swab limiter and an inflatable packer is lowered into the well the lower end, sequentially separately develop all branched trunks, starting from the farthest from the wellhead, while the inflatable packer is planted in the main horizontal part of the well with the lower end of the tubing string opposite the entrance to the branched branched trunk, and each branched trunk is mastered swabbing along the tubing string in the volume of the main horizontal part of the well from the bottom to the entrance to the branched trunk plus two volumes of the mastered branched trunk.

In FIG. 1 and 2 depict flowcharts of a method for developing a multilateral well-branched horizontal well.

The proposed method for the development of a multilateral well-branched horizontal well is as follows.

Into a multilateral well-branched horizontal well 1 (see Fig. 1), consisting of branched shafts 2 ′, 2 ″, ... 2 ⁿ . For example, three branched shafts 2 ′, 2 ″ and 2 ″ ″, drilled from the main horizontal part 3 of the well 1, lower the string of flexible pipes 4, equipped with a hydraulic deflector 5 from the bottom with a nozzle 6 at the end. The nozzle 6 has radial holes at the end (fig. 1 is shown conditionally), for example, in the amount of 6 pieces with a diameter of 3 mm.

Next, separate acid treatment is performed for each branched shaft 2 ′, 2 ″, ... 2 ⁿ , starting from the closest 2 ′ to the wellhead 1.

An excess hydraulic pressure is created, for example 6.0 MPa, in a hydraulic diverter 5, which deflects a flexible pipe string 4 with a hydraulic diverter 5 and a hydraulic nozzle 6 into a branched barrel 2 ′.

разветвленного ствола 2′.The flexible pipe 4 is drained into the branched shaft 2 ′ of the well 1 so that the hydraulic diverter 5 with the hydraulic nozzle 6 rests in the face

branched trunk 2 ′.

разветвленного ствола 2′, например 400 м, и упору гидромониторной насадки 6 в забой

разветвленного ствола 2′ убеждаются в попадании именно в ствол разветвленного ствола 2′ скважины 1. Например, глубина забоя

разветвленного ствола 2′ скважины 1 составляет 400 м, а показания датчика на установке гибких труб после упора в забой

разветвленного ствола 2′ скважины 1 также составляет 400 м. Это означает, что гибкая труба 4, оснащенная снизу гидравлическим отклонителем и гидромониторной насадкой 6 ,находится на забое

разветвленного ствола 2′ скважины 1.By the depth of the face

branched barrel 2 ′, for example 400 m, and the emphasis of the jet nozzle 6 in the face

branched barrel 2 ′ make sure that it’s exactly in the trunk of branched barrel 2 ′ of well 1. For example, the depth of the face

branched bore 2 ′ of well 1 is 400 m, and the sensor readings on the installation of flexible pipes after stop in the bottom

the branched shaft 2 ′ of well 1 is also 400 m. This means that the flexible pipe 4, equipped with a hydraulic deflector and a hydraulic nozzle 6 from below, is located at the bottom

branched barrel 2 ′ of well 1.

The hydraulic diverter can be made as described in patent No. 2318111 "Hydraulic downhole deflecting node", publ. in bull. 6 of February 27, 2008, which describes the principle of operation of this device.

Then, with the annular valve open 7, acid is injected, for example, a 15% solution of inhibited hydrochloric acid, while lifting the string of flexible pipes 4 with a hydraulic diverter 5 and the hydraulic nozzle 6 to a length L, for example, equal to 200 m, to a distance beyond S = 3 m before entering the branched shaft from the main part of the horizontal well with a speed that provides continuous replacement of the entire volume of the branched shaft of 2 ″ wells with 1 acid, completely displacing oil and / or water from the branched shaft of 2 ″ wells 1 to the main horizontal part 3 of well 1.

For example, the branched wellbore 2 "borehole 1 has a diameter: d = 122 mm = 0.122 m Then, when the length L = 200 m 2 volume branched trunk." Borehole 1 is: V _{2 "=} (3,14 · d ^2/4) · L = 3,14 · (0,122 m) ^2/4 × 200 m = 2.336 m ³ = 2.4 m ^3.

Thus, the branched shaft 2 ″ of the well 1 is replaced with acid in a volume of 2.4 m ^{3 by} pumping it through a flexible pipe 4 through a hydraulic diverter 5 and radial holes with a hydraulic nozzle 6 in the branched shaft of a 2 ″ well 1.

The efficiency of acid treatment is improved before the development of MRGS due to the constant removal (washing off) of the film of oil and / or water by filling in motion an open branched trunk with acid and displacing oil from the branched trunk of a multilateral well into the main horizontal wellbore.

In the process of moving the flexible pipe 4 from the bottom up with a hydraulic diverter 5 and a jet nozzle 6 relative to the branched barrel 2 ″ the acid stream flows from the radial holes of the nozzle 6 under pressure and has a destructive effect on the muds (dirt, sludge, sand) located on the branched surface 2 ″ bore by cleaning the surface of the 2 ″ open branched bore before selling acid into the formation. The absence of colmatant on the surface of the 2 ″ branched trunk allows the acid to be pushed deeper into the formation, since the colmatant destroyed by the jet from under the nozzle does not prevent the penetration of acid into the formation.

As a result, the quality of development of the reservoir is improved due to the fact that the nozzle 6 during axial movement of the string of flexible pipes 4 destroys the mud (sludge, sludge, sand) that has settled on the surface of an open branched trunk, which allows for high-quality development of branched trunks of MRGS after acid treatment layer.

After the branched shaft is completely filled with acid with the annular valve closed, the acid is pumped with process fluid, for example, fresh water with a density of 1000 kg / m ³ in an amount not less than the volume of acid pumped into the branched shaft 2 ″ of the well 1 through a string of flexible pipes 4 through a hydraulic diverter 5 and a hydromonitor nozzle 6 from a 2 ″ branched trunk into a formation, for example, pushing acid from a 2 ″ branched trunk into a formation in a volume of 2.5 m ³ .

After that, the string of flexible pipes 4 and the hydraulic diverter 5 with the hydraulic nozzle 6 are removed from the branched shaft 2 ″ of the well 1 into the main horizontal part 3 and technological shutter speed is performed, for example, for 3-4 hours.

Similarly, acid treatment of the remaining branched shafts of 2 ″, 2 ″ ″ well 1 is carried out. Upon completion of the acid treatments of all branched shafts 2 ′, 2 ″, 2 ″ ″, a string of flexible pipes with a hydraulic diverter and a hydraulic nozzle 6 is removed from the well.

A string of tubing (tubing) 8 is lowered into the well (see FIG. 2) with a swab limiter 9 and an inflatable packer 10 at the lower end. The packer 10 may be of any known design, the appropriate size, working in an open barrel, for example an inflatable packer company Baker Oil Tools.

Separate development of all branched shafts 2 ′, 2 ″, 2 ″ ″ of well 1 is performed, starting from the farthest from the wellhead 1.

For this, the inflatable packer 10 is planted in the main horizontal part 3 of the well 1 with the lower end 11 of the tubing string 8 placed opposite the entrance to the far-off branched trunk 2 ″ ″ that is being developed from the wellhead 1.

The reliability of the implementation of the method is increased due to the fact that the development of MRSGs is carried out using a single-packer arrangement, which significantly reduces the likelihood of a leaky packer landing in comparison with the prototype.

The development of each branched trunk 2 ′, 2 ″, 2 ″ ″ of the well 1 is carried out alternately with swab cycles until the swab (in Fig. 1 and 2 is not shown) reaches limiter 9 (see Fig. 2) along the tubing string 8 in volume (V ₁ ) the main horizontal part 3 of well 1 from the bottom 12 to the entrance to the corresponding branched shaft 2 ″, 2 ″, 2 ′ of well 1 plus two volumes (V ₂ ) of the mastered branched shaft 2 ″ ″, 2 ″, 2 ′.

That is, the swab volume of each of the branched shafts 2 ′ ′ ′, 2 ″, 2 ′ is

For example, when developing a branched shaft 2 ’’ of well 1, the volume of the main horizontal part 3 of well 1 from the bottom 12 to the entrance to the corresponding branched shaft 2 ″ ″ (distance A) is: V ₁ = 5 m ³ , and the volume of the branched trunk to be mastered 2 ′ ′ ′ is: V ₂ = 3 m ³ .

Substituting into formula 1, we obtain

V _c = 5 m ³ + 2 · 3 m ³ = 11 m ³ .

The development of branched trunks 2 ′ ′ ′, 2 ″, 2 ′ in two volumes allows guaranteed extraction of both acid pumped into the reservoir through a branched trunk and the reaction products of acid with the formation rock.

The figure 2 conventionally shows the installation intervals of the packer 10 during the development of the remaining branched trunks 2 ″, 2 ′. At the end of the development of all branched trunks, unpack the packer 10. the tubing string 2 is removed from the well 1. The production equipment is lowered into the well 1, for example, an electric centrifugal pump (not shown in FIGS. 1 and 2), and the well 1 is put into operation.

The proposed method for the development of a multilateral well-branched horizontal well allows to increase:

- the effectiveness of acid treatment of branched trunks before the development of MRGS;

- the quality of the development of a polluted productive layer opened by open branched trunks after acid treatment;

- the reliability of the implementation of the method for the development of MRGS.

Claims (1)

A method for developing a multilateral well-branched horizontal well, comprising separately developing each branched well drilled from the main horizontal part of the well using a tubing string — tubing equipped with a packer and swab limiter located in the lower part of the vertical section of the tubing string, planting the packer and holding acid treatment of a branched trunk by injection of a 10-15% solution of hydrochloric acid, followed by technological exposure to the reaction with subsequent development m of the well by swabbing cycles, characterized in that a string of flexible pipes is first lowered into the well, equipped with a hydraulic deflector at the bottom with a hydraulic nozzle at the end, separate acid treatment is performed for each branched shaft, starting from the closest to the wellhead, while the flexible pipe string with with a hydraulic diverter and a hydraulic nozzle are lowered into the branched wellbore until the stop of the hydraulic nozzle in the bottom of the branched trunk, after which, with an annular open valve they begin pumping acid with simultaneous lifting of the string of flexible pipes from the branched shaft, not leading 3 m to the entrance to the branched shaft from the main part of the horizontal well, with a speed that provides continuous replacement of the entire volume of the branched shaft with acid, after filling the branched shaft with acid with a closed annular valve the acid is pumped with the process fluid through the flexible pipe string through a hydraulic diverter and a hydraulic monitor nozzle from the branched trunk into the reservoir, To this end, a string of flexible pipes and a hydraulic diverter with a hydraulic nozzle are removed from the branched borehole into the main horizontal part of the well and technological exposure is carried out for the reaction, the remaining branched boreholes are treated in the same way, after the acid treatments of all branched shafts, the string of flexible pipes is removed from the well with a hydraulic diverter and a hydraulic nozzle, a tubing string with a swab ogre is lowered into the well with an anticomponent and an inflatable packer at the lower end, each branched trunk is developed separately, starting from the farthest from the wellhead, while the inflatable packer is planted in the main horizontal part of the well with the lower end of the tubing string located opposite the entrance to the mastered branched trunk, and development each branched bore is carried out by swab cycles on the tubing string in the volume of the main horizontal part of the well from the bottom to the entrance to the branched bore plus two volumes aemogo branched trunk.

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