RU2652412C1 - Method of acidizing bottomhole formation zone with carbonate reservoir - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to the petroleum industry. Method for acidizing the bottomhole formation zone with a carbonate reservoir includes the descent of a string of pipes with a water jet perforator, making sidetracks in the form of radial holes in the casing string of the well and caverns in the formation by pumping a water-sand mixture throughout the pipe string through the water jet perforator on the basis of two sidetracks per 1 m of the thickness of the formation, acid treatment of the bottomhole formation zone in three portions, each of which includes pumping a hydrochloric acid solution in a continuous mode, a technological exposure for the reaction and recovery of the reaction products. At the wellmouth, from the top to the bottom, the following assembly is mounted onto the lower end of the pipe string: a saddle-gun, a centralizer, a water jet perforator with nozzles, an anchor. Then the pipe string and the assembly with the washer are lowered into the interval of the perforated formation, a ball is dropped into the pipe string. After the ball saddling the casing string is perforated with making the sidetracks in the form of radial holes in the casing string and the caverns in the formation by pumping the water-sand mixture throughout the pipe string through the water jet perforator. Then, without interrupting the pumping, through the sidetracks, the bottomhole formation zone with the carbonate reservoir is treated, wherein with the first portion in the continuous mode pumped is a 18–20 % solution of hydrochloric acid at the temperature of 0 °C in the volume of 0.5 m³ per one sidetrack, then in the continuous mode pumped is a 18–20 % solution of hydrochloric acid at the temperature of 30 °C in the volume of 1.0 m³ per one sidetrack, after which a pulse flush of the pumped solutions of hydrochloric acids by oil into the formation is conducted in a cycle mode: 3 min pumping at the bed intake pressure, 5 min exposure for the reaction. With the second portion pumped is a 18–20 % solution of hydrochloric acid at the temperature of 0 °C in the volume of 1.5 m³ per one sidetrack, then – a 18–20 % solution of hydrochloric acid at the temperature of 30 °C in the volume of 2.0 m³ per one sidetrack, after which a pulse flush of the pumped solutions of hydrochloric acids by oil into the formation is conducted in a cycle mode: 4 min pumping at the bed intake pressure, 10 min exposure for the reaction. With the third portion pumped is a 18–20 % solution of hydrochloric acid at the temperature of 0 °C in the volume of 2.5 m³ per one sidetrack, then – a 18–20 % solution of hydrochloric acid at the temperature of 30 °C in the volume of 3.0 m³ per one sidetrack, after which a pulse flush of the pumped solutions of hydrochloric acids by oil into the formation is conducted in a cycle mode: 5 min pumping at the bed intake pressure, 15 min exposure for the reaction, after which the reaction products are removed by swabbing along the casing string of the well.

EFFECT: increasing reliability of the method implementation; improving the processing of the bottomhole formation zone while reducing the cost of implementation and simplifying the technology.

1 cl, 1 dwg

Description

The invention relates to the oil industry and may find application in the acid treatment of the bottom-hole zone of a well that has uncovered a reservoir with a carbonate reservoir.

A known method of acid treatment of the bottomhole formation zone with a carbonate reservoir (patent RU No. 2451160, IPC ЕВВ 43/00, published on 05/20/2012, Bull. No. 14), including two cycles of injection of a 10-15% aqueous hydrochloric acid solution using squeezing liquid containing each pulse injection of the solution at a pressure of 1-4 MPa, pumping this solution at constant pressure, technological exposure of 2.5-3.5 hours for reaction and extraction of reaction products with subsequent cleaning of the bottom with washing liquid. Pulse injection of the solution is carried out for up to 5 minutes with stops for 6-10 minutes, and injection at constant pressure is carried out in portions of 2-4 m ³ with a holding time between portions of 2-4 hours. Injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. The second cycle of acid treatment is carried out after a decrease in well production by 30-50%. As selling and flushing liquids, oil is used.

The disadvantages of this method are:

- firstly, the low quality of treatment of the bottom-hole formation zone with a hydrochloric acid solution when the bottom-hole zone of the formation is strongly colded, since injection pressures can exceed the values specified in the method of 1-4 MPa, which does not allow to fully implement the method;

- secondly, the complexity and duration of the implementation of the method associated with pulsed injection of a solution of hydrochloric acid and a significant exposure time to the reaction with the extraction of reaction products after each injection cycle.

The closest in technical essence and the achieved result is a method of acid treatment of the bottom-hole formation zone with a carbonate reservoir (patent RU No. 2312210, IPC ЕВВ 43/27, publ. 10.12.2007, Bull. No. 34), which includes pulsed injection of hydrochloric acid solution , the injection of a solution of hydrochloric acid in a continuous mode, technological exposure for the reaction and extraction of reaction products. A hydromonitor puncher is preliminarily lowered into the well on a pipe string, and lateral shafts are created in the formation in the form of radial holes in the well casing and cavities in the formation by injection of sandy mixture through the pipe string through the hydraulic perforator at the rate of 2-4 side shafts per 1 m of formation thickness , remove the pipe string from the well with a hydraulic monitor perforator.

Then, to carry out the acid treatment, the ejector unit with the packer is lowered again on the pipe string, a 10-15% solution of hydrochloric acid is pumped in a volume of 1.5-3.0 m ³ . Technological exposure is carried out in the bath mode for reacting for 2.5-3.5 hours. After that, a 4-6-fold pulsed injection of the hydrochloric acid solution into the reservoir is carried out in the cycle mode: 1-3 min injection at a pressure of 1-4 MPa, 4-6 min exposure for response. Complete the download in continuous mode. Perform technological shutter speed for response for 2.5-3.5 hours. Select from the well up to 2.5 volumes of the injected treatment solution by the ejector unit with registration of the parameters of the inflow from the formation. A second portion of a 10-15% hydrochloric acid solution is injected into the formation in a volume of 2.5-3.5 m ³ , which is carried out initially in a pulsed mode 4-6 times: 4-6 min injection at a pressure of 1-4 MPa, 4-6 min exposure for response. The injection is completed in a continuous mode, technological exposure is performed for 2.5-3.5 hours. Up to 2.5 volumes of the pumped treatment solution are taken from the well by an ejector installation. A third portion of a 10-15% hydrochloric acid solution is injected into the formation at the rate of 0.01-0.05 m ^{3 /} p.m of the length of the radial hole. First, the injection is performed in a pulsed mode 4-6 times in the cycle mode: 4-6 minutes injection at a pressure of 1-4 MPa, exposure 4-6 minutes for reaction. Complete the injection in continuous mode at a pressure of 2-6 MPa. Technological exposure is carried out for 2.5-3.5 hours. A 4-6-fold pulsed injection of the acid solution with oil is carried out in a cycle mode: 1-3 min injection at a pressure of 1-4 MPa, exposure 4-6 min for reaction. The reaction products and pollutants are extracted by an ejector installation or swabbing up to 2.5 volumes of the pumped processing solution with registration of the parameters of the inflow from the formation.

The disadvantages of this method are:

- firstly, the low reliability of the implementation of the method associated with the high probability of sticking equipment (sandblasting punch, ejector, packer) during the hoisting operations. In addition, when conducting sandblasting perforation, the pipe string stretches and contracts, and the holes take a slit-like shape up to 20 cm long, which reduces the likelihood of obtaining a high-quality cavity in the rock in a given interval of the formation;

- secondly, low quality of treatment of the bottom-hole zone of the formation with hydrochloric acid solution when the bottom-hole zone of the formation is strongly colded, since injection pressures can exceed the values specified in this method 1-4 MPa and 2-6 MPa, which will not allow to implement this method in full least;

- thirdly, the high cost of implementing the method associated with two hoisting operations: the first is to perform perforation by a hydromonitor method (descent of a pipe string with a hydraulic monitor perforator, the execution of side shafts, removing the pipe string with a perforator), the second - descent on a pipe string an ejector with a packer for extracting reaction products after each injection cycle;

- fourthly, the complexity and duration of the technology for implementing the method, associated with a significant delay in time for reaction with the extraction of reaction products after each injection cycle.

The technical objectives of the invention are to increase the reliability of the implementation of the method and the quality of the treatment of the bottomhole formation zone with a solution of hydrochloric acid, reduce the cost of implementing the method, and also simplify the technology for implementing the method.

The stated technical problems are solved by the method of acid treatment of the bottom-hole zone of the formation with a carbonate reservoir, including the descent of the pipe string with a hydraulic perforator, the execution of side shafts in the form of radial holes in the casing of the well and caverns in the formation by pumping sandy mixture through the pipe string through a hydraulic perforator at the rate of two side trunk per 1 m of the thickness of the formation, acid treatment of the bottom-hole zone of the formation in three portions, each of which consists of pumping a solution of hydrochloric acid into continuous operation, technological shutter speed for reaction and extraction of reaction products.

What is new is that, at the wellhead, from top to bottom, the assembly is mounted on the lower end of the pipe string: nozzle-saddle, centralizer, hydraulic hammer drill with nozzles, an anchor, then the pipe string and assembly with washing in the interval of the perforated formation are dropped, the ball is dropped into the pipe string, after the ball is planted, the casing is perforated with the lateral shafts being made in the form of radial holes in the casing and cavities in the reservoir by pumping sandy water through the pipe string through a hydraulic perforator, then Filling, through the sidetracks, the bottom-hole zone of the formation is treated with a carbonate reservoir, while the first portion in continuous mode is injected with an 18-20% solution of hydrochloric acid at a temperature of 0 ° C in a volume of 0.5 m ³ per side trunk, then in an continuous mode, an 18-20% solution of hydrochloric acid is injected at a temperature of 30 ° C in a volume of 1.0 m ³ per side well, after which a pulsed injection of the injected hydrochloric acid solutions into the formation is carried out in oil in a cycle mode: 3 min injection at formation injectivity pressure, 5 min exposure and to respond, the second portion is pumped 18-20% strength hydrochloric acid solution at 0 ° C in a volume of 1.5 m ³ per barrel side, then - 18-20% strength hydrochloric acid solution at a temperature of 30 ° C. volume of 2.0 m ³ per one sidetrack, after which pulse injection of the injected solutions of hydrochloric acids with oil into the reservoir is carried out in a cycle mode: 4 min injection at the injectivity pressure of the formation, 10 min exposure for reaction, 18-20% are pumped in the third portion hydrochloric acid at 0 ° C in a volume of 2.5 m ³ per barrel side, then - 18-20% - th solution of hydrochloric acid at a temperature of 30 ° C in a volume of 3.0 m ³ on one side the barrel, followed by a pulse prodavku injected solution of hydrochloric acid in the oil reservoir in the cycle time: 5 min injection formation at a pressure pickup 15 min exposure to respond after which the reaction products along the well casing are recovered by swabbing.

The figure shows the proposed method of acid treatment of the bottomhole formation zone with a carbonate reservoir.

The proposed method of acid treatment of the bottomhole formation zone with a carbonate reservoir is as follows.

At the wellhead 1, from top to bottom, on the lower end of the pipe string 2, the assembly is mounted: nozzle 3, saddle 4, centralizer 5, hydraulic hammer drill 6 with nozzles 7, anchor 8.

A pipe string 2 is lowered into the well 1 with washing, with the assembly at the end in the interval of the perforated formation 9, for example, 1 m thick. The washing is carried out with wastewater with a density of 1100 kg / m ³ with a flow rate of 10-15 l / s in a volume of 1.5 wells, for example 30 m ³ . The descent of the pipe string 2 with the layout in combination with flushing eliminates the sticking of the layout in the well 1.

Drop the ball 10 into the pipe string 2. After the ball is planted, the casing 11 of the well 1 is perforated with the lateral shafts 12 being made in the form of radial holes in the casing 11 of the well 1 and the cavities in the formation 9 through the nozzles 7 of the hydraulic monitor perforator 6 at the rate of two side shafts 12 per 1 m of formation thickness 9.

In the process of perforation and further acid treatment, the dies 13 of the anchor 8 rigidly fix the pipe string 2 with the assembly on the walls of the casing 11 of the well 1, which eliminates the tension-compression of the pipe string 2 during the entire cycle (hydro sandblasting and acid treatment). At the same time, the holes in the walls of the casing 11 of the well 1 during hydro sandblasting perforation are performed in a strictly specified interval of the formation with a quality cavity in the rock up to 0.3-0.4 m long.

Then, through the side shafts 12, the bottom-hole zone of the formation 9 with a carbonate reservoir is treated.

The first portion in continuous mode is injected with an 18-20% solution of hydrochloric acid at a temperature of 0 ° C in a volume of 0.5 m ³ on one side barrel 12.

Then, in an continuous mode, an 18-20% solution of hydrochloric acid is pumped at a temperature of 30 ° C in a volume of 1.0 m ³ per side trunk.

After that, the impulse pumping of the injected solutions of hydrochloric acids with oil into the reservoir is carried out in a cycle mode: 3 min injection at a formation injectivity pressure of 9.5 min shutter speed for response.

As a result of acid treatment, the treated bottom-hole coverage zone expands from the side trunk 12 to a volume of 14 ″.

The second portion is injected with an 18-20% solution of hydrochloric acid at a temperature of 0 ° C in a volume of 1.5 m ³ per side trunk.

Then injected 18-20% solution of hydrochloric acid at a temperature of 30 ° C in a volume of 2.0 m ³ on one side trunk. After that, the impulse pumping of the injected solutions of hydrochloric acids with oil into the reservoir is carried out in a cycle mode: 4 min injection at a reservoir injection pressure of 9, 10 min holding for reaction. As a result of acid treatment, the treated bottomhole coverage zone expands from a volume of 14 'to 14''.

A third portion is injected with an 18-20% solution of hydrochloric acid at a temperature of 0 ° C in a volume of 2.5 m ³ per side barrel, then an 18-20% solution of hydrochloric acid at a temperature of 30 ° C in a volume of 3.0 m ³ on one side trunk. After that, the impulse pumping of the injected solutions of hydrochloric acids with oil into the reservoir is carried out in the cycle mode: 5 min injection at the injectivity pressure of the formation, 15 min shutter speed for the reaction. As a result of acid treatment, the treated bottomhole coverage zone expands from a volume of 14 ″ to 14 ″.

The reliability of the implementation of the method is increased, since the probability of seizing equipment (a sandblasting punch, an anchor) during a hoisting operation is eliminated.

The quality of treatment of the bottom-hole zone of the formation with a solution of hydrochloric acid is improved when the bottom-hole zone of the formation is strongly colmatized, since injection of an 18-20% solution of hydrochloric acid at a temperature of 0 ° C and at a temperature of 30 ° C is combined in three cycles.

The cost of implementing the method is reduced, since only one trip is performed.

Then, by reaction, the reaction products are recovered through the casing of the well.

The technology for implementing the method is simplified, since the reaction products are extracted only after the end of the treatment of the bottom-hole formation zone, and not after each cycle, as described in the prototype.

The proposed method of acid treatment of the bottomhole formation zone with a carbonate reservoir allows you to:

- improve the reliability of the implementation of the method;

- to improve the quality of treatment of the bottomhole formation zone with a solution of hydrochloric acid;

- reduce the cost of implementing the method;

- simplify the implementation of the method.

Claims (1)

The method of acid treatment of the bottom-hole zone of the formation with a carbonate reservoir, including the descent of the pipe string with a hydraulic perforator, the implementation of the lateral shafts in the form of radial holes in the casing of the well and the caverns in the formation by pumping sandy water through the pipe string through the hydraulic perforator at the rate of two side shafts per 1 m formation thickness, acid treatment of the bottomhole formation zone in three portions, each of which consists of pumping hydrochloric acid solution in a continuous mode, technological exposure y for reacting and extracting reaction products, characterized in that at the wellhead, the assembly is mounted from top to bottom on the lower end of the pipe string: nozzle-saddle, centralizer, jet-driven perforator with nozzles, anchor, then the pipe string and assembly with washing are inserted into the interval of the perforated formation they drop the ball into the pipe string; after landing the ball, the casing is perforated with lateral shafts being made in the form of radial holes in the casing and caverns in the formation by pumping sandy mixture along the pipe string through a hydraulic perforator, then, without interrupting the injection, through the lateral shafts, the bottom-hole zone of the formation is treated with a carbonate reservoir, while the first portion is continuously injected with an 18-20% solution of hydrochloric acid at a temperature of 0 ° C in a volume of 0.5 m ³ per one lateral well, then 18-20% hydrochloric acid solution is injected continuously at a temperature of 30 ° C in a volume of 1.0 m ³ per one lateral well, after which pulse injected hydrochloric acid solutions are pumped into the reservoir cycle mode: 3 min. ka at a pressure reservoir injectivity, 5 min exposure to respond, the second portion is pumped 18-20% strength hydrochloric acid solution at 0 ° C in a volume of 1.5 m ³ per barrel side, then - 18-20% solution hydrochloric acid at a temperature of 30 ° C in a volume of 2.0 m ³ per one sidetrack, after which a pulsed injection of the injected hydrochloric acid solutions into the formation is carried out in oil in the cycle mode: 4 min injection at the injectivity pressure of the formation, 10 min exposure for response, the third 18-20% hydrochloric acid solution is injected in a portion at a temperature of 0 ° C in a volume of 2.5 m ³ per one lateral barrel, then an 18-20% solution of hydrochloric acid at a temperature of 30 ° C in a volume of 3.0 m ³ per one lateral barrel, after which pulse pumping of the injected hydrochloric acid solutions with oil is carried out into the formation in the cycle mode: 5 min injection at the injection pressure of the formation, 15 min exposure for the reaction, after which the reaction products are extracted by swabbing along the well casing.

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