RU2451176C1 - Method of formation bottomhole zone acid treatment - Google Patents

Abstract

FIELD: oil and gas production.

SUBSTANCE: method of formation bottom-hole zone acid treatment includes two pumping cycles of 10-15% water solution of hydrochloric acid with the use of displacement fluid each containing pulse solution pumping at 1-4 MPa, pumping of this solution at constant pressure, technological exposure for 2.5-3.5 hours for reaction and reaction products removal with further bottom-hole cleaning by flushing fluid. Solution pulse pumping is carried out for 5 minutes with 6-10 minutes breaks. Pumping at constant pressure is done by portions of 2-4 m³ with holding 2-4 hours between portions. Pumping of solution portions is stopped at pumping pressure exceeding 3 MPa. Between solution pumping cycles there pumped is oil-acid composition containing 24-26% solution of hydrochloric acid in oil with volume of 1-4 m³ at 7 MPa. Oil is used as displacement and flushing fluid.

EFFECT: increase of well bottom-hole zone treatment efficiency and increase of well productivity due to increase of acid treatment covering of entered formation.

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Description

The invention relates to the oil industry and may find application in the acid treatment of the bottomhole zone.

A known method of treating a formation (RF patent No. 2135760, IPC ЕВВ 43/27, publ. 08/27/1999), including fixing the volume of the processing interval relative to the bottom of the well, carrying out the injection of the reagent in a pulsed mode (hydraulic pulse injection): injection at a pressure of receiving the reagent perforation interval - technological exposure at atmospheric pressure, the mode is repeated when the reagent injection pressure is reduced until the pressure of the working injectivity of the well is reached, the remaining volume of the reagent is pumped at a steady pressure In this process, technological exposure and extraction of the reaction products and pollutants is carried out by swabbing until the liquid is taken in a volume exceeding at least three times the volume of the injected reagent.

The disadvantage of this method is that the method is not effective enough in the processing of heavily stained bottomhole zone.

Closest to the proposed invention in technical essence is a method of acid treatment of the bottomhole formation zone with a carbonate reservoir (RF patent No. 2312210, IPC ЕВВ 43/27, publ. 10.12.2007 - prototype), including pulsed injection of hydrochloric acid solution, injection of hydrochloric acid solution in continuous mode, technological shutter speed for the reaction and extraction of reaction products. Sidetracks are made in the well, an ejector installation with a packer is lowered, a 10-15% hydrochloric acid solution is injected in the indicated volume, soaking is carried out in the bath mode, 4-6 times the pulsed solution is pumped in the indicated mode, soaking is completed, the injection is completed in a continuous mode, exposure, selection of up to 2.5 volumes of the injected solution, injection into the reservoir of the second portion initially in pulsed mode, exposure and injection in the continuous mode, exposure, selection of up to 2.5 volumes of injected solution, injection of the third portion at the beginning in pulsed mode, Shutter speed, pumped into a continuous mode, shutter speed, pulse prodavku acid oil in said mode, shutter speed, extracting the reaction products and contaminants ejector installing or swabbing to 2.5 volumes of injected treating solution.

The main disadvantages of this method are the low efficiency of processing the bottom-hole formation zone, since the treatment is performed in the bottom-hole zone closest to the well, and the remote zone of the formation remains unaffected by the impact.

The proposed invention solves the problem of increasing the efficiency of processing the bottom-hole zone of the well and increasing the productivity of the well by increasing the coverage of acid treatment of the discovered formation.

The problem is solved in that in the method of acid treatment of the bottom-hole zone of the formation, which includes 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, injection of 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, according to the invention, the pulse injection of the solution is carried out for up to 5 minutes with stops for 6-10 minutes, and the injection cu at constant pressure is carried out in portions of 2-4 m ³ with an exposure between portions of 2-4 hours, and the injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa, and between the cycles of injection of the solution, an oil-acid composition containing a 24-26% solution is pumped hydrochloric acid in oil, with a volume of 1-4 m ³ under pressure up to 7 MPa, and oil is used as squeezing and flushing liquids.

SUMMARY OF THE INVENTION

Existing methods of hydrochloric acid treatments of the bottom-hole zone are not sufficiently effective. The proposed method solves the problem of increasing the efficiency of processing the bottom-hole zone of the well and increasing the productivity of the wells by increasing the coverage of acid treatment of the discovered formation.

The method is carried out in the following sequence.

To develop oil reserves around the wells, the bottom-hole zone is processed in two cycles by injection of a 10-15% hydrochloric acid solution using squeezing liquid. Each cycle contains a pulsed injection of a solution at a pressure of 1-4 MPa, injection of this solution at a constant pressure, technological shutter speed 2.5-3.5 hours for reaction and extraction of reaction products with subsequent cleaning of the bottom with a washing liquid. As selling and flushing liquids, oil is used. Work is carried out through the technological opening of the fountain fittings with a diameter of 42 mm using a coiled tubing installation "flexible pipe" with a diameter of 25 mm. The solution is injected at constant pressure by a cementing unit of the CA-320 type with a low capacity of about 100 m ³ / h and with a piston diameter of 115 mm.

First, the first cycle of injection of a hydrochloric acid solution is carried out. In this case, a pulsed injection of the solution is carried out at a pressure of 1-4 MPa for up to 5 minutes with stops for 6-10 minutes, which allows the acid solution to penetrate into the low-permeability zones of the rock and increase their permeability.

Then, at a constant pressure, a cementing unit of the CA-320 type with low productivity injects the acid solution in portions of 2-4 m ³ with a holding time of 2-4 hours between portions.

Penetration depth is calculated on the basis of reservoir thickness and porosity according to well logging according to the following formula:

H _pron. = π (R ² _arr / 4-r ² _well / 4)

where H _pron - the penetration depth of the hydrochloric acid solution, m;

R _about - the radius of the treatment, m;

r ² _SLE - well radius, m;

N - power of the treated formation, m;

m is the porosity,%.

The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa.

Technological exposure is carried out for 2.5-3.5 hours for the reaction and extraction of reaction products with subsequent cleaning of the bottom with washing liquid.

Next, the injectivity pressure of the wells is determined. Low injectivity pressure of 1 MPa and below indicates the need to align the well injectivity front. At an injection pressure below 1 MPa, to equalize the injection front between the injection cycles of the solution, an oil-acid composition of 1-4 m ³ volume is pumped under a pressure of up to 7 MPa. Petroleum acid composition contains a mixture of 24 - 26% solution of hydrochloric acid in oil. The ratio of the volumes of acid and oil is 60-70% by 30-40%, respectively.

Then, after 25-40 days, a second cycle of hydrochloric acid solution is injected. After each injection cycle of the hydrochloric acid solution, the reaction products are removed by swabbing.

Case Studies

Example 1. The bottom hole zone of an oil producing well is processed at a depth of 870 m. The reservoir is perforated at depths from 840 to 850 m. The reservoir type is carbonate.

The well is stopped. Pulse injection is carried out with the sale of 10% hydrochloric acid at an oil pressure of 4 MPa for 5 minutes with stops for 10 minutes. Then, at a constant pressure of 2.5 MPa, an injection is carried out with oil selling a 10% solution of hydrochloric acid in portions of 4 m ³ with an exposure between servings of 4 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform a technological shutter speed of 3.5 hours for response. Produce the reaction products by swabbing, followed by cleaning the bottom of the oil.

The injectivity pressure of the well is determined. Injection pressure below 1 MPa. An oil acid composition is injected containing a 24% solution of hydrochloric acid in oil, with a volume of 4 m ³ under a pressure of 7 MPa.

Next, a pulsed injection is carried out with oil selling a 10% hydrochloric acid solution at a pressure of 4 MPa for 5 minutes, with stops for 10 minutes. Then, at a constant pressure of 2.5 MPa, an injection is carried out with oil selling a 10% solution of hydrochloric acid in portions of 4 m ³ with an exposure between servings of 4 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform a technological shutter speed of 3.5 hours for response. Produce the reaction products by swabbing, followed by cleaning the bottom of the oil. The well is put into operation.

After 20 days, the well is shut down, pulsed injection is carried out through the well with the sale of 10% hydrochloric acid oil at a pressure of 4 MPa for 5 minutes with stops for 10 minutes. Then, at a constant pressure of 2.5 MPa, an injection is carried out with oil selling a 10% solution of hydrochloric acid in portions of 4 m ³ with an exposure between servings of 4 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform a technological shutter speed of 3.5 hours for response. Produce the reaction products by swabbing, followed by cleaning the bottom of the oil.

Next, a pulsed injection is carried out with oil selling a 10% solution of hydrochloric acid at a pressure of 4 MPa for 5 minutes with stops for 10 minutes. Then, at a constant pressure of 2.5 MPa, an injection is carried out with oil selling a 10% solution of hydrochloric acid in portions of 4 m ³ with an exposure between servings of 4 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform a technological shutter speed of 3.5 hours for response. Produce the reaction products by swabbing, followed by cleaning the bottom of the oil. The well is put into operation.

As a result of the treatment, the increase in well production was 5 tons / day.

Example 2. Perform as example 1.

The well is stopped. Pulse injection is carried out with the sale of 12% hydrochloric acid at an oil pressure of 3 MPa for 4 minutes with stops for 8 minutes. Then, at a constant pressure of 2 MPa, an injection is carried out with oil selling a 12% solution of hydrochloric acid in portions of 3 m ³ with an exposure between portions of 3 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform technological exposure 3 hours for response. Produce the reaction products by an ejector installation, followed by cleaning the bottom of the oil.

The injectivity pressure of the well is determined. Injection pressure below 1 MPa. An oil acid composition is injected containing a 25% solution of hydrochloric acid in oil, with a volume of 3 m ³ under a pressure of 6 MPa.

Then, pulse injection is again carried out with the sale of 12% hydrochloric acid at an oil pressure of 3 MPa for 4 minutes with stops for 8 minutes. Then, at a constant pressure of 2 MPa, an injection is carried out with oil selling a 12% solution of hydrochloric acid in portions of 3 m ³ with an exposure between portions of 3 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform technological exposure 3 hours for response. Produce the reaction products by an ejector installation, followed by cleaning the bottom of the oil. The well is put into operation.

After 35 days, the well is stopped, a pulse injection through the well is carried out with the sale of 12% hydrochloric acid oil at a pressure of 3 MPa for 4 minutes with stops for 8 minutes. Then, at a constant pressure of 2 MPa, an injection is carried out with oil selling a 12% solution of hydrochloric acid in portions of 3 m ³ with an exposure between portions of 3 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform technological exposure 3 hours for response. Produce the reaction products by an ejector installation, followed by cleaning the bottom of the oil.

Then, pulse injection is again carried out with the sale of 12% hydrochloric acid at an oil pressure of 3 MPa for 4 minutes with stops for 8 minutes. Then, at a constant pressure of 2 MPa, an injection is carried out with oil selling a 12% solution of hydrochloric acid in portions of 3 m ³ with an exposure between portions of 3 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform technological exposure 3 hours for response. Produce the reaction products by an ejector installation, followed by cleaning the bottom of the oil. The well is put into operation.

As a result of the treatment, the increase in well production was 6 tons / day.

Example 3. Perform as example 1.

The well is stopped. Pulse injection is carried out with the sale of 15% hydrochloric acid solution with oil at a pressure of 1 MPa for 3 minutes with stops for 6 minutes. Then, at a constant pressure of 1.5 MPa, an injection is carried out with oil selling a 15% solution of hydrochloric acid in portions of 2 m ³ with an exposure between portions of 2 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform a technological shutter speed of 2.5 hours to respond. Produce the reaction products by swabbing, followed by cleaning the bottom of the oil.

The injectivity pressure of the well is determined. Injection pressure below 1 MPa. An oil acid composition is injected containing a 26% solution of hydrochloric acid in oil, with a volume of 1 m ³ under a pressure of 5 MPa.

Then, pulse injection is again carried out with the sale of 15% hydrochloric acid oil at a pressure of 1 MPa for 3 minutes with stops for 6 minutes. Then, at a constant pressure of 1.5 MPa, an injection is carried out with oil selling a 15% solution of hydrochloric acid in portions of 2 m ³ with an exposure between portions of 2 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform a technological shutter speed of 2.5 hours for response. Produce the reaction products by swabbing, followed by cleaning the bottom of the oil. The well is put into operation.

After 45 days, the well is stopped, through the well, a pulsed injection is carried out with oil selling a 15% solution of hydrochloric acid at a pressure of 1 MPa for 3 minutes with stops for 6 minutes. Then, at a constant pressure of 1.5 MPa, an injection is carried out with oil selling a 15% solution of hydrochloric acid in portions of 2 m ³ with an exposure between portions of 2 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform a technological shutter speed of 2.5 hours to respond. Produce the reaction products by swabbing, followed by cleaning the bottom of the oil.

Then, pulse injection is again carried out with the sale of 15% hydrochloric acid oil at a pressure of 1 MPa for 3 minutes with stops for 6 minutes. Then, at a constant pressure of 1.5 MPa, an injection is carried out with oil selling a 15% solution of hydrochloric acid in portions of 2 m ³ with an exposure between portions of 2 hours. The injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa. Perform a technological shutter speed of 2.5 hours to respond. Produce the reaction products by swabbing, followed by cleaning the bottom of the oil. The well is put into operation.

As a result of processing, the increase in well production was 7 tons / day.

The application of the proposed method will improve the efficiency of processing the bottom-hole zone of the well and to achieve an increase in well productivity

Claims (1)

The method of acid treatment of the bottom-hole zone of the formation, 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, injection of this solution at constant pressure, technological exposure 2.5 -3.5 hours for the reaction and the extraction of reaction products with subsequent cleaning of the bottom with washing liquid, characterized in that the pulsed injection of the solution is carried out for up to 5 minutes with stops for 6-10 minutes, and the injection at constant pressure and carry out in portions of 2-4 m ³ with a holding time between portions of 2-4 hours, and the injection of portions of the solution is stopped when the injection pressure exceeds 3 MPa, and between the cycles of injection of the solution, an oil acid composition containing a 24-26% hydrochloric acid solution is pumped into oil, with a volume of 1-4 m ³ under pressure up to 7 MPa, and oil is used as squeezing and flushing liquids.