RU2312211C1 - Method for well bottom zone treatment - Google Patents

Abstract

FIELD: oil industry, particularly methods for stimulating production by forming crevices or fractures by use of eroding chemicals.

SUBSTANCE: method involves flushing well with oil; regenerating productive reservoir perforation in amount of at least 5 orifices per 1 meter; injecting 1.5-2.0 m3 of hydrochloric acid solution in reservoir; holding the process under bath conditions for 2.5-3.5 hours; performing pulsed injection of the first hydrochloric acid solution portion with predetermined volume and in preset regime; carrying out injection of the second hydrochloric acid solution portion; holding the process in continuous regime; performing time delay; carrying out injection of the third hydrochloric acid solution portion in continuous regime under 1-4 MPa pressure; executing time delay; carrying out injection of the forth hydrochloric acid solution portion in predetermined regime; performing time delay and removing reaction product by swabbing operation.

EFFECT: increased efficiency of well bottom zone treatment.

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Description

The invention relates to the oil industry and may find application in the processing of the bottom-hole zone of a well.

A known method of processing the bottom-hole zone of a well, comprising injecting an acid solution into the formation (Sh.K. Gimatudinov. Oil production reference book. M., "Nedra", 1974, p. 420-432).

The known method does not have sufficient efficiency when processing the bottom-hole zone of the well.

Closest to the proposed invention in technical essence is a method of treating a formation, according to which the volume of the treatment interval is fixed relative to the bottom of the well, the reagent is injected in a pulsating mode (hydro-pulse injection): injection at a pressure of the reagent is received by the perforation interval - technological exposure at atmospheric pressure, repeat mode when lowering the injection pressure of the reagent until the pressure of the working injectivity of the well is reached, the remaining volume of gent at steady pressure, carry out technological exposure and extraction of reaction products and pollutants by swabbing to a liquid in an amount exceeding at least three times the volume of the injected reagent (RF Patent No. 2135760, publ. 1999.08.27 - prototype).

The known method allows to increase the permeability of the bottom-hole zone of the well, however, the method is not sufficiently effective in the processing of highly stratified bottom-hole zone.

The invention solves the problem of increasing the efficiency of processing the bottom-hole zone of the well.

The problem is solved in that in a method for processing a bottom-hole zone of a well, including pulsed injection of a solution of hydrochloric acid, pumping a solution of hydrochloric acid in a continuous mode, technological shutter speed for reacting and extracting reaction products by swabbing, according to the invention, the wells are pre-washed with oil and the perforation of the producing formation is updated from calculating at least 5 holes. / rm, injecting hydrochloric acid into the well in a volume of 1.5-2.0 m ³ and the process speed to a bath mode for 1.5-3.5 hours for it is performed 4-6 times the pulse injection into the formation of the first portions of hydrochloric acid solution in a volume of 1.5-3.5 m ³ Cycle time: 0.8-1.2 min injection at a pressure of 1-4 MPa - delay 4-6 minutes for reaction, complete the injection of the acid volume in a constant mode, produce a 4-6-fold pulse injection into the reservoir of the second portion of the hydrochloric acid solution in the volume of 2.5-3.5 m ³ in the cycle mode: 0.8-1.2 min injection at a pressure of 1-4 MPa, holding for 4-6 minutes for reacting, completing the injection of an acid volume in a constant mode, performing technological holding for 2.5-3.5 hours for reacting Ia, download is performed in the formation of the third portion of the solution of hydrochloric acid at the rate of 0.4-0.5 m ³ /p.m in continuous mode at a pressure of 1-4 MPa, an extract process is performed to react 2.5-3.5 hours, conduct a 4-6-fold pulsed injection into the reservoir of the fourth portion of the hydrochloric acid solution at the rate of 0.8-1.0 m ^{3 /} pm of the productive formation in the cycle mode: 4-6 min injection at a pressure of 1-4 MPa, exposure 4 -6 min for response, complete the injection in continuous mode, perform technological shutter speed for the response of 2.5-3.5 hours, carry out a pulse 4-6-fold impa sales by oil in the cycle mode: 0.8-1.2 min injection, holding for 4-6 min, after which the reaction products are extracted by swabbing.

SUMMARY OF THE INVENTION

Well productivity is largely determined by the permeability of the bottom-hole zone. Existing methods of hydrochloric acid treatments of the bottomhole zone of the well, especially carbonate formations, are ineffective or temporary. The proposed method is aimed at slow indentation into the pore microcrack space of carbonate rocks of a solution of hydrochloric acid in a multi-cycle mode. This allows you to most fully and high quality to restore or increase the permeability of the bottomhole zone of the well due to the treatment coverage of the formation in depth and power. As a result, the efficiency of the method is increased, which results in increased well productivity. The method is implemented as follows:

1. The well is washed with oil to flush sub-pump formation water. The perforation of the productive formation is updated, for example, cumulative perforation is performed at the rate of at least 5 holes / linear meter (m). Additional perforation holes increase the injectivity throughout the thickness of the formation in the bottomhole zone.

2. A circulation of 10-15% hydrochloric acid in a volume of 1.5-2.0 m ^{3 is} pumped into the well by circulation when the packer is not planted and technological exposure is carried out in the bath mode for reaction for 2.5-3.5 hours. This contributes to the slow penetration of the acid solution into the bottomhole zone and the dissolution of the clogging compounds and rock particles. After the completion of the response time, a 4-6-fold pulsed injection of the hydrochloric acid solution into the reservoir is carried out, which is performed in a cycle mode: 0.8-1.2 min injection at a pressure of 1-4 MPa with a low-efficiency pump, holding for 4-6 min for the reaction. Complete the injection in a continuous mode until the wellbore is completely free of acid solution.

3. Bring to the reservoir and make the injection into the reservoir of the second portion of a 10-15% solution of hydrochloric acid in a volume of 2.5-3.5 m ³ , which is carried out at the beginning in a pulsed mode 4-6 times: 0.8- 1.2 min injection at a pressure of 1-4 MPa, holding 4-6 min for reaction. The injection of the remaining acid volume is continued continuously. Perform technological exposure for response within 2.5-3.5 hours

Pulse injection with a shutter speed for response, changing the duration of the cycles allows the acid solution to penetrate into the low-permeability zones of the formation, a series of injection-discharge creates drainage processes of the bottom-hole zone of the formation, leading to partial release of the reservoir pores from insoluble mechanical particles.

4. Bring to the reservoir and make a sale of oil in a continuous mode at an injection pressure of 1-4 MPa of the third portion of a 10-15% solution of hydrochloric acid at the rate of 0.4-0.5 m ^{3 /} p.m of productive formation, technological exposure to respond within 2.5-3.5 hours

5. Bring to the reservoir and carry out the injection into the reservoir of the fourth portion of a 10-15% solution of hydrochloric acid at the rate of 0.8-1 m ^{3 /} pm of the productive formation. Initially, the injection is carried out 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. The rest of the hydrochloric acid solution is pumped continuously at a pressure of 1-4 MPa. Perform technological exposure for response within 2.5-3.5 hours

6. Perform a 4-6-fold pulsed injection of the acid solution with oil in the cycle mode: 0.8-1.2 min injection at a pressure of 1-4 MPa, holding 4-6 min for the reaction.

7. Spend the extraction of reaction products and pollutants by swabbing when the packer is planted.

All injections are performed by a low-productivity pump with a flow rate of 20-80 m ³ / day.

The proposed method is tested in practice on real objects and presented as the most optimal.

Concrete example

The bottom hole zone of an oil producing well is processed at a depth of 1300 m. The productive formation is perforated at depths from 1270 to 1280 m. The density of the existing perforation is 20 holes / m. The bottomhole reservoir is carbonate, pore-fractured. The well was decommissioned at a current flow rate of 1 m ³ / day.

Stop the well and washed with oil. The perforation of the reservoir is updated by cumulative perforation at the rate of 5 holes / pm of the reservoir. A solution of hydrochloric acid is pumped into the well in a volume of 2 m ³ and technological exposure is carried out in the bath mode for 2 hours. A 12% hydrochloric acid solution is pulsed, which is performed 5 times in the cycle mode: 1 min injection at a pressure of 2 MPa 5 min exposure Next, the acid solution is forced through with oil in a volume of 2 m ³ in a continuous mode.

Then, a second portion of a 12% hydrochloric acid solution is squeezed into the formation in a volume of 3 m ³ , initially 4-6 times in a pulsed mode: 1 min injection, 5 min exposure. The injection of the remaining acid volume is continued at a pressure of 2.5 MPa in a continuous mode. Perform technological shutter speed for response for 3 hours

Bring to the reservoir and make a sale of oil in a continuous mode at an injection pressure of 2 MPa of the third portion of a 12% solution of hydrochloric acid in a volume of 5 m ³ (at the rate of 0.5 m ^{3 /} p.m of productive formation). Perform technological shutter speed for response for 3 hours

Next, bring to the reservoir and carry out the injection into the reservoir of the fourth portion of a 12% solution of hydrochloric acid in a volume of 8 m ³ (at the rate of 0.8 m ^{3 /} p.m of productive formation). Initially, the injection is carried out in a pulsed mode 5 times in a cycle mode: 5 min injection at a pressure of 2 MPa, holding for 5 minutes for reaction. The remainder of the hydrochloric acid solution is pumped continuously at a pressure of 2.5 MPa. Perform technological exposure for 3 hours to respond. Next, pulse oil is pumped into the reservoir 5 times in a cycle mode: 1 min injection at a pressure of 2 MPa, exposure time for 5 minutes.

The reaction products and pollutants are removed by swabbing when the packer is planted.

As a result of processing by the proposed method, the increase in well production was 4-7 m ³ / day. When performing traditional treatments of the bottom-hole zone of the well under similar conditions, the increase in well production was not more than 1.5-3 m ³ / day.

The application of the proposed method allows to increase the efficiency of the formation and increase the productivity of the well.

Claims (1)

A method for treating a bottom-hole zone of a well, including pulsed injection of a hydrochloric acid solution, continuous injection of a hydrochloric acid solution, technological shutter speed for reaction and extraction of reaction products by swab, characterized in that the wells are pre-washed with oil, updating the perforation of the reservoir at a rate of at least 5 hole / l.m, the injection of a solution of hydrochloric acid into the well in a volume of 1.5-2.0 m ³ and technological exposure in the bath mode for 1.5-3.5 hours, then perform 4-6-fold imp pulse injection into the reservoir of the first portion of a solution of hydrochloric acid in a volume of 1.5-3.5 m ³ in a cycle mode: 0.8-1.2 min injection at a pressure of 1-4 MPa, holding for 4-6 minutes for reaction, complete the injection volume of acid in a constant mode, produce a 4-6-fold pulsed injection into the formation of a second portion of a solution of hydrochloric acid in a volume of 2.5-3.5 m ³ in a cycle mode: 0.8-1.2 min injection at a pressure of 1-4 MPa, holding for 4-6 minutes for the reaction, complete the injection of the acid volume in a constant mode, carry out the technological holding for 2.5-3.5 hours for the reaction, carry out the injection a third portion of a solution of hydrochloric acid at the rate of 0.4-0.5 m ^{3 /} pm in continuous operation at a pressure of 1-4 MPa, technological shutter speed for the reaction is 2.5-3.5 hours, 4-6- multiple pulsed injection into the reservoir of a fourth portion of hydrochloric acid solution at the rate of 0.8-1.0 m ^{3 /} p.m of productive formation in the cycle mode: 4-6 min injection at a pressure of 1-4 MPa, holding for 4-6 min for reaction , complete the injection in a continuous mode, perform technological shutter speed for a response of 2.5-3.5 hours, conduct a pulsed 4-6-fold pulsed oil flow in p cycle time: 0.8-1.2 min injection, holding for 4-6 min, after which the reaction products are extracted by swabbing.