RU2520989C1 - Bottomhole zone treatment method for horizontal well - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: bottomhole zone treatment method for a horizontal well includes running-in into the treated bottomhole zone of a hydroperforator with a one-way acting pipe string with nozzles faced upwards, impact of hydrocarbon solvent jet through it, then impact by acid solution, process withhold for reaction with acid, running-out of the equipment from the well, swabbing and bringing the well into production. Before running-in, at the head of a horizontal well, the lower end of the pipe string is equipped bottom upwards with a centralising tube, the one-way acting hydroperforator with nozzles faced upwards, a pulsed liquid pulsator, a valve consisting of a saddle and body with openings covered tightly by the saddle fixed by a shear pin in regards to the body, the pipe string is run in into the bottomhole of a horizontal well until it backs the centralising tube. Then in pulse mode, in two stages, the bottomhole zone is impacted through the hydroperforator at first by a hydrocarbon solution jet, then by a jet of hydrochloric acid. While implementing two stages with simultaneous injection of hydrocarbon solvent or hydrochloric acid the pipe string is moved from the bottomhole to the head at constant speed along the length of the horizontal well screen. When injection of hydrochloric acid is completed the hydroperforator is placed at the well screen end from the well head side, then a plug is set at the head to the pipe string and flushed by process liquid through the pipes till it sets at the valve saddle and the shear pin is destroyed under pressure in the pipe string. Then the process is withhold during 1 hour, at that in process of this withhold the pipe string is run in until the hydroperforator rests in the bottomhole of a horizontal well. Then, during three cycles, 0.5 m³ of process liquid is injected to the pipe string and tubing-casing annulus in turn. When withhold time is over reaction products are washed out by return circulation in one and a halve volume of the well.

EFFECT: effective treatment for bottomhole zone of a horizontal well due to expansion of the stratum area treatment, exclusion of the well screen clogging, reduction of the process duration when this method is implemented.

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Description

The invention relates to the oil industry and may find application in the processing of the bottom-hole zone in horizontal wellbores drilled in deposits of bitumen developed by the thermal method.

A known method of processing the bottom-hole zone of a horizontal well (patent RU No. 2288356, IPC E21B 43/27, publ. 11/27/2006, bull. No. 33), including the injection into the bottom-hole zone of an acid solution at an injection pressure at which the well receives an acid solution , pre-injection of the acid solution is carried out with a flow rate of not more than 100 m ³ / day in stages with increasing injection pressure from stage to stage with technological exposure between stages and measuring pressure in the well after each technological exposure, and after reducing pressure in the well after one technological exposure stop pumping the acid solution and wash the well with oil or a hydrophobic-emulsion solution.

The disadvantages of this method are:

- firstly, a complex technological process, time-consuming and labor-intensive, due to acid injection in several stages, in addition, the process requires strict observance of the injection and stopping time at a certain injection pressure;

- secondly, the additional costs of carrying out technological operations to flush the well with oil or a hydrophobic-emulsion solution, which does not allow qualitatively cleaning the bottom-hole zone of the wellbore;

- thirdly, continuous and uniform treatment of the bottom-hole zone of a horizontal well is not ensured over the entire length of the horizontal well filter;

- fourthly, the treatment of a horizontal well is carried out around the entire perimeter of the well, as a result of which an acid solution breaks through to the oil-water contact and irrigates the produced products.

The closest in technical essence and the achieved result is a method of acid treatment of the bottomhole zone of an inclined or horizontal well (patent RU No. 2323217, IPC E21B 43/27, publ. 05/27/2008, bull. No. 15), including the descent into the well being processed the interval on the pipe string of the hydroperforator with nozzles and jetting through it with a hydrocarbon solvent, then an acid solution with technological endurance, while a one-sided hydroperforator is used as the specified perforator Actions with the nozzle pointing upward, the oil or emulsion based on oil is preliminarily pushed into the processing interval, the wellbore is filled with oil above the processing interval, the jet treatment with an acid solution is carried out based on calculating the penetration of the barrel to a depth of 1.5 m, after which a technological exposure is made to respond acids, equipment removed from the well, swab and start the well into operation, while the oil and / or hydrocarbon solvent contains an emulsifier.

The disadvantages of this method are:

- firstly, the long duration of the technological process for treating the bottom-hole zone of a horizontal well, due to the use of a tubing string and technological exposure to acid reaction. In a bitumen deposit, the temperature of the steam chamber reaches more than 100 ° C, which accelerates the process of the acid solution reaction, therefore, the time for carrying out technological operations for pumping an acid solution, as well as technological exposure to the reaction in horizontal wells drilled in the bitumen deposits developed by the thermal method, reduced at times;

- secondly, acid injection is carried out in a continuous mode, which does not ensure uniform treatment of the bottomhole zone along the entire upper part of the horizontal well along the entire length of the filter, while the restoration of reservoir productivity has a short-term effect and decreases rapidly, since the acid cannot penetrate deeply into the pores of the reservoir. In addition, emulsifier injection degrades the reservoir properties of the bottomhole zone of a horizontal well. All this reduces the efficiency of processing the bottom-hole zone of a horizontal well.

The technical objectives of the proposal are to increase the efficiency of processing the bottom-hole zone of horizontal wells drilled in bitumen deposits and developed by the thermal method, by expanding the formation treatment zone, eliminating filter clogging, and also reducing the duration of the technological process of the method.

The stated technical problems are solved by the method of processing the bottom-hole zone of a horizontal well, including the descent of a hydraulic perforator with a single-acting pipe string with the nozzles pointing upwards, jet exposure through it with a hydrocarbon solvent, then an acid solution, technological exposure to the acid reaction, equipment extraction from the well , swabbing and putting the well into operation.

New is that at the mouth of a horizontal well, before lowering into the well, the lower end of the pipe string is equipped from bottom to top: centralizer-pipe, single-acting hydroperforator with upward direction of the nozzle, pulsed fluid pulsator, valve consisting of a seat and a housing with openings sealed by a saddle fixed with a shear pin relative to the body, the pipe string is lowered to the stop of the centralizer-pipe in the bottom of a horizontal well, then in two stages in a pulsed mode through a hydraulic perforator lead the jet effect on the bottom-hole zone of the formation first with a hydrocarbon solvent, and then with hydrochloric acid, when two steps are carried out with the simultaneous injection of a hydrocarbon solvent or hydrochloric acid, the pipe string is moved from the bottom to the wellhead at a constant speed for the length of the horizontal well filter; after completion of the injection of hydrochloric acid, hydroperforator at the end of the filter from the side of the wellhead, then at the mouth of the well a plug is installed in the pipe string and it is pressed through the pipe string with liquid before the plug is placed on the valve seat and the shear pin is destroyed by excessive pressure in the pipe string, then technological holding is carried out for 1 hour, while in the process of technological holding, the pipe string is pulled all the way to the bottom of the hydraulic perforator, then in three cycles alternately, 0.5 m ^{3 of} process fluid is pumped into the pipe string or into the annulus of the well, at the end of the soaking time, the reaction products are washed by reverse circular circulation in one and a half per well volume.

The proposed method is as follows.

Figure 1, 2 schematically shows a method of processing bottom-hole zone of a horizontal well.

At the mouth of a horizontal well 1, the lower end of the pipe string 2 (Fig. 1) is equipped from bottom to top: centralizer-pipe 3, single-acting hydroperforator 4 with upward direction of the nozzle, pulsed fluid pulsator 5, valve 6, consisting of a seat 7 and body 8 with holes 9 (for example, in the housing 8 there are six holes with a diameter of 12 mm). The openings 9 of the housing 8 are sealed from the inside by a seat 7 and secured with a shear pin 10 relative to the housing 8. The centralizer pipe 3 is, for example, a piece of tubing string 73 mm 0.5 m long with four plates welded from the outside, ensuring the alignment of the pipe string 2 in horizontal well 1.

As a pipe string 2, a sleeveless coiled tubing pipe (TU 14-3-1470-86) is used, for example, with a diameter of 50.8 mm and a wall thickness of 3.0 mm produced by JSC Ural Research Institute of the Pipe Industry (UralNITI) .

As a hydroperforator 4, the device described in RU patent No. 232,517, IPC E21B 43/27, publ. May 27, 2008, bull. No. 15.

Hydroperforator 4 consists of a housing with nozzles 11, for example, 3.5 mm in diameter, providing a jet action of an aqueous acid solution on the bottom-hole zone of the formation 12, as well as hinges (not shown in Figs. 1, 2) at the junction of the hydroperforator 4 (Fig. 1) with a centralizer-pipe 3 and a pulsed fluid pulsator 5.

As a pulsed fluid pulsator 5, a device is used for pulsed injection of fluid into a formation described in patent for invention RU No. 2400615, IPC E21B 28/00, publ. September 27, 2010, bull. No. 27 or patent for invention RU No. 2241825, IPC E21B 43/18, publ. December 10, 2004, bull. Number 34.

Lower the pipe string 2 to the stop of the centralizer-pipe 3 in the bottom of the horizontal well 1.

Hydrocarbon solvent and hydrochloric acid through the nozzle 11 of the hydroperforator 4 flow with high speed through the upper part of the horizontal well 1 into the bottomhole formation zone 12.

In the process of implementation of the method using a 15% aqueous solution of hydrochloric acid (HCl) (synthetic hydrochloric acid technical in accordance with GOST 857-95).

Then in two stages in a pulsed mode through a hydroperforator 4, a jet effect is made on the bottom-hole zone of the formation 12, first with a hydrocarbon solvent, and then with an aqueous solution of hydrochloric acid.

In the implementation of two stages with the simultaneous injection of a hydrocarbon solvent or an aqueous acid solution, the pipe string 2 is moved from the bottom to the mouth of the horizontal well 1 at a constant speed of 40 m / min by a length L that corresponds to the length of the filter 13 of the horizontal well 1.

The use of coiled tubing as a pipe string 2 of a sleeveless pipe with simultaneous injection of an acid solution in a pulsed mode into the bottomhole formation zone allows to reduce the duration of the process.

At the first stage, from the mouth of a horizontal well 1 with open central 14 and annular 15 valves, using a pump unit 16, for example, grade CA-320, fill the pipe string 2 with a hydrocarbon solvent. As a hydrocarbon solvent used, for example, Nefras - A-130/150 (GOST 10214-78). Nefras-S 150/200 according to TU 38.40125-82 or nefras-Ar 120/200 according to TU 38.101809-80 can also be used as a hydrocarbon solvent.

Next, close the annular valve 15 and, with the central valve 14 open, pump unit 16 into the bottomhole formation zone 12 along the pipe string 2 through a pulsed fluid pulser 5 and nozzle 11 of the hydroperforator 4, inject the hydrocarbon solvent in a pulsed mode, for example, with a flow rate of 3 l / s under pressure 12 MPa, while simultaneously moving the string of pipes 2 at a constant speed, for example at a speed of 40 m / min, from the bottom to the mouth to the length L of the filter 13 of the horizontal well 1.

The injection of a hydrocarbon solvent while moving the pipe string 2 continues until the end of the filter 13 is reached by the hydroperforator 4 from the mouth of the horizontal well 1.

Then again lower the pipe string 2 to the stop of the centralizer-pipe 3 in the bottom of the horizontal well 1.

In the second stage, from the mouth of a horizontal well 1, using a pump unit 14, for example, grade CA-320, fill the pipe string 2 with a 15% aqueous hydrochloric acid solution. Then, in the bottom-hole zone of the formation 12, the pump unit 16 through the pipe string 2 through a pulsed fluid pulsator 5 and nozzle 11 of the hydroperforator 4 inject 15% aqueous hydrochloric acid in a pulsed mode, for example, with a flow rate of 4 l / s under a pressure of 17 MPa. At the same time, the pipe string 2 is simultaneously moved at a constant speed, for example, at a speed of 40 m / min, from the bottom to the mouth along the length L of the filter 13 of the horizontal well 1. The injection of hydrochloric acid with simultaneous movement of the pipe string 2 is continued until the end of the filter 13 reaches the hydroperforator 4 side of the mouth of a horizontal well 1.

Install the plug 17 (Fig. 2) into the pipe string 2 and push it through the pipe string 2 by pumping the process fluid into the pipe string 2 by the pump unit 16 until the plug 17 fits on the seat 7 of the valve 6 and the shear pin 10 is destroyed by overpressure in the pipe string 2, for example, at a pressure of 9.0 MPa, while the seat 7 is shifted down and openings 9 in the housing 8 of the valve 6 open, which communicate the inner space 18 of the pipe string 2 with the annular space 19 of the horizontal well 1.

The use of a pulsed fluid pulsator 5 simplifies the implementation of the method and shortens its duration, and through the use of valve 6, the number of tripping operations is reduced, which reduces the cost and duration of processing the bottom-hole zone of a horizontal well.

The plug 17 seals off the pulsating fluid pulsator 5 and hydroperforator 4. Hermetic exposure is carried out for 1 hour, while during the technological exposure the pipe string 2 is pulled all the way to the centralizer-pipe 3 in the bottom of the horizontal well 1. Then, a second one is tied through the intercolumn valve 15 pump unit 20 with annular space 19.

Then alternately in three cycles, then into the inner space 18 of the pipe string 2 using the pump unit 16 through the open central valve 14, then into the annular space 19 using the second pump unit 20 through the annular valve 15 of the horizontal well 1, the process fluid is pumped in a volume of 0. 5 m ³ . As a process fluid, fresh water with a density of 1000 kg / m ^{3 is used} .

At the end of the holding time (1 h), the pump units 16 and 20 are disconnected and the equipment is removed from well 1. Swab the well to clean it from the reaction products and start the well into operation.

In the process of technological exposure, which is no more than 1 hour, an acid “rinse” is performed, which allows you to wash deposits of salt, scale and other contaminants that have fallen from the bottomhole formation zone on the filter during operation, reducing the filter's throughput.

The proposed method allows you to effectively treat the bottom-hole zone of a horizontal well drilled in bitumen deposits and developed by the thermal method, by expanding the formation treatment zone, to eliminate filter clogging, and also to reduce the duration of the process of the method.

Claims (1)

A method of treating a bottomhole zone of a horizontal well, including lowering a hydraulic perforator with a single-acting pipe string with the nozzles pointing upwards, jetting through it with a hydrocarbon solvent, then an acid solution, holding an industrial exposure to the acid reaction, removing equipment from the well, swabbing and starting wells into operation, characterized in that at the mouth of a horizontal well before lowering into the well, I equip the lower end of the pipe string t from bottom to top: centralizer-pipe, single-acting hydroperforator with upward direction of the nozzle, pulsed fluid pulsator, valve consisting of a saddle and a housing with holes hermetically closed by a saddle, fixed with a shear pin relative to the housing, lower the pipe string to the stop of the centralizer-pipe into the face horizontal well, then in two stages in a pulsed mode through a hydroperforator, a jet effect is made on the bottom-hole zone of the formation, first with a hydrocarbon solvent, and then with hydrochloric acid, during the implementation of two stages with the simultaneous injection of a hydrocarbon solvent or hydrochloric acid, the pipe string is moved from the bottom to the wellhead at a constant speed over the length of the horizontal well filter; after the completion of the hydrochloric acid injection, a hydroperforator is placed at the end of the filter from the side of the well, then at the well head install a plug in the pipe string and push it through the pipe string with the process fluid until the plug fits on the valve seat and the shear pin is destroyed by excessive pressure in the pipe string, then carry out technological exposure for 1 h, while in the process of technological exposure the pipe string is pulled all the way to the bottom of the horizontal well, then, in three cycles, they are pumped into the pipe string or into the annular space of the well at a rate of 0, 5 m ^{3 of the} process fluid, at the end of the soaking time, the reaction products are washed out by reverse circular circulation in the borehole volume one and a half times.

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