RU2537433C1 - Method of treatment of well bottomhole zone with low bed pressure - Google Patents

Abstract

FIELD: oil-and-gas industry.

SUBSTANCE: method of treatment of the well bottomhole zone with low bed pressure means well washing with fresh water, renewal of the production formation perforation on the basis 10 holes per running meter of well, formations saturation with fresh water to 6MPa. The first portion of hydrochloric acid solution is injected to the well in amount 2.0m³ and is held under bath mode for 2 h. Injection to the formation is performed by four stages. At first stage 6 times pulse injection to the formation of specified first portion of hydrochloric acid solution is performed under cycle mode, including injection for 1 minute at pressure 1-6MPa and holding for 5 minutes for reaction, injection of the specified portion is completed under continuous mode until complete release of the well bore from the hydrochloric acid solution. At the second stage 6 times pulse injection to the formation of the second portion of the hydrochloric acid solution is performed in volume 3.0m³ under cycle mode, including injection for 1 minute at pressure 1-6MPa and holding for 5 minutes for reaction, injection is completed under continuous mode. Then process holding for 3 h is performed for reaction. At the third stage the third portion of the hydrochloric acid solution on the basis 0.5m³ per running meter of the production formation is performed under continuous mode at pressure 1-6MPa, and holding for reaction for 3 h is performed. At the forth stage the 6 times pulse injection to the formation of the second portion of the hydrochloric acid solution is performed on the basis 1.0m³ per running meter of the production formation under cycle mode including injection for 1 minute at pressure 1-6MPa and holding for 5 minutes for reaction, injection is completed under continuous mode. Holding for 3 h for reaction is performed, then reaction products are removed by swabbing.

EFFECT: improving treatment efficiency of the well bottom-hole zone.

1 ex

Description

The invention relates to the oil industry and can be used in the treatment of bottom-hole zones of wells.

A known method of processing the bottom-hole zone of a well, comprising injecting an acid solution into the formation [Sh.K. Gimatudinov. Reference book on oil production. M., "The bowels". 1974, p. 420-432].

The known method does not have sufficient efficiency when processing the bottom-hole zone of the well without additional operations.

There is also known a method [RU 2483201 C1, E21B 43/20, 05.27.2013], based on the periodic injection of the working agent into the injection wells, which use part of the production wells at a late stage of reservoir development by transferring them to the injection, and injection of the working agent produce with a gradual, over several months, pressure increase, excluding its breakthrough into neighboring wells and to a value twice as high as the reservoir pressure at the time the production wells are transferred to injection wells, and after to the volume of the injected working agent becomes equal to the volume of fluid extracted from the producing well for the entire development period before the production wells are transferred to the injection wells, sharply, from the condition of closing the fractures of the reservoir layers, the injection of the working agent into the injection wells is stopped, and commercial water is used as the working agent generated during the operation of production wells.

The disadvantage of this method is the relatively narrow scope.

Closest to the proposed invention by technical essence is a method of treating a formation [RU 2135760 C1, E21B 43/25, 08/27/1999], including an interval injection into the bottomhole zone of the reagent, while the volume of the processing interval relative to the bottom of the well is preliminarily fixed, the reagent is injected into pulsating mode: injection at a reagent intake pressure with a perforation interval — technological holding at atmospheric pressure; the mode is repeated when the reagent injection pressure is reduced until the operating pressure is reached s injectivity perform download the remaining reagent amount at steady pressure, exposure process is carried out and recovering the reaction products and contaminants by swabbing prior to selecting liquid in excess of not less than three times the volume of the injected reagent.

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 zones.

It is known that well productivity is largely determined by the permeability of the bottom-hole zone. Existing methods, including the method of hydrochloric acid treatment of the bottom-hole zone of wells with low reservoir pressure, especially carbonate formations, selected as the closest technical solution, are ineffective or temporary.

The problem solved in the invention is to increase the efficiency of processing the bottom-hole zone of the well.

The required technical result is to increase the efficiency of processing the bottom-hole zone of the well.

The problem is solved, and the required technical result is achieved by the fact that in the method for processing the bottom-hole zone of a well with low reservoir pressure, which includes phased injection of a reagent into the bottom-hole zone, using hydrochloric acid solution, technological exposure for reaction and extraction of reaction products by swabbing, according to of the invention, prior to injection of the hydrochloric acid solution, the well is washed with fresh water, the perforations of the reservoir are updated based on 10 holes per running meter of the well and saturated with fresh water up to 6 MPa, then inject hydrochloric acid solution into the well in a volume of 2.0 m ³ and hold in bath mode for 2 hours, and the subsequent reagent injection is carried out sequentially in four the stage, in the first of which the hydrochloric acid solution is injected by 6-pulse injection of the first portion into the reservoir in a volume of 2.0 m ³ in a cycle mode including 1 min injection at a pressure of 1-6 MPa, holding for 5 minutes for reaction, and final the volume of hydrochloric acid solution is injected in a constant mode; at the second stage, a second injection of a second portion of hydrochloric acid solution is injected into the formation in a volume of 3.0 m ³ in a cycle mode, which includes 1 min of injection at a pressure of 1-6 MPa, holding for 5 min for the reaction, and complete the injection of the acid volume in a constant mode, after which technological exposure is performed for 3 hours for the reaction, at the third stage, the third portion of the hydrochloric acid solution is injected into the formation at the rate of 0.5 m ³ per linear meter of the productive formation in a continuous ohm mode at a pressure of 1-6 MPa and carry out technological exposure for 3 hours to respond, and at the fourth stage, a 6-time pulse injection of a fourth portion of hydrochloric acid solution into the formation is carried out at a rate of 1.0 m ³ per linear meter of the productive formation in the cycle mode, including 1 min injection at a pressure of 1-6 MPa and holding for 5 minutes for reaction, after which the injection is completed in continuous mode, technological shutter speed for 3 hours is completed and the swabs are removed to recover the reaction products.

A method for processing the bottom-hole zone of a well with low reservoir pressure is implemented as follows.

The proposed method is aimed at increasing the pressure in the bottom-hole zone of the formation and slow indentation of a solution of hydrochloric acid in a multi-cycle mode into the pore microcrack space of carbonate rocks. 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.

A method for processing the bottom-hole zone of a well with low reservoir pressure is implemented by sequentially performing the following operations.

1. The well is washed with fresh (formation) water. The perforation of the reservoir is updated, for example, cumulative perforation is performed at the rate of 10 holes per linear meter of the well. Additional perforations help to cover the entire thickness of the reservoir with hydrochloric acid treatment. After perforation, the treated formations are saturated with fresh (formation) water to a pressure of 6 MPa.

2. A circulation of 12% hydrochloric acid in a volume of 2.0 m ^{3 is} pumped into the well with an unplaced packer and technological exposure is carried out in the bath mode for reaction for 2.0 hours. This contributes to the slow penetration of the acid solution into the bottomhole zone and dissolution clogging compounds and rock particles. After the completion of the response time, a 6-fold pulsed injection of the hydrochloric acid solution into the formation is carried out, which is performed in a cycle mode containing 1 min injection at a pressure of 1-6 MPa with a low-efficiency pump, holding for 5 minutes for reaction and completing the injection in continuous mode until the barrel is completely empty wells from acid solution.

3. Bring to the reservoir and inject into the reservoir a second portion of a 12% hydrochloric acid solution in a volume of 3.0 m ³ , which is carried out initially in a pulse mode 6 times: 1 min injection at a pressure of 1-6 MPa, holding for 5 minutes response. The injection of the remaining acid volume is continued continuously. Perform technological shutter speed for response within 3.0 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, the “injection-discharge” series 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 produce prodavku reservoir and oil in a continuous mode at a pressure of 1-6 MPa injection third portion of 12% hydrochloric acid at the rate of 0.5 m ³ per meter of the producing formation, exposure process to react for 3.0 hours

5. Bring to the reservoir and inject the fourth portion of a 12% hydrochloric acid solution into the reservoir at the rate of 1 m ³ per linear meter of the productive formation. Initially, the injection is performed in a pulsed mode 6 times in the cycle mode: 1 min injection at a pressure of 1-6 MPa, holding for 5 minutes for reaction. The rest of the hydrochloric acid solution is pumped continuously at a pressure of 1-6 MPa. Perform technological shutter speed for response for 3 hours

6. 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 days.

As a working agent, fresh water or marketable oil is used to bring the acid solution to the formation and inject it into the formation.

The proposed sequence of operations of the method and modes of operation worked out in practice on real objects and is presented in the form of the most optimal option.

An example of a specific implementation of the method of processing the bottom-hole zone of a well with low reservoir pressure.

The bottom hole zone of an oil producing well is processed at a depth of 1173 m. The productive formation is perforated at depths from 1111 to 1123 m. The density of the existing perforation is 10 holes per linear meter of the well. The bottomhole reservoir is carbonate, pore-fractured. The well was decommissioned at a current flow rate of 0.8 m ³ days.

Stop the well and rinse with fresh water. Perforation of the reservoir is updated by cumulative perforation at the rate of 10 holes per linear meter of the reservoir. Fresh water is pumped into the well until the pressure at the wellhead is established at 6 MPa, the volume of injected fluid is 435 m ³ . A solution of hydrochloric acid is pumped into the well in a volume of 2 m ³ , brought to the top of the formation and technological exposure is carried out in the bath mode for 2 hours. A 12% hydrochloric acid solution is pulsed, which is performed 6 times in the cycle mode: 1 min injection at a pressure of 3 MPa, exposure 5 min. Next, the acid solution is forced through oil in a volume of 1.6 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 at first 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 3.5 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 4 MPa of the third portion of a 12% solution of hydrochloric acid in a volume of 6 m ³ (at the rate of 0.5 m ³ per linear meter of the productive formation). Perform technological shutter speed for response for 3 hours

Next, bring to the reservoir and inject the fourth portion of a 12% hydrochloric acid solution into the reservoir in a volume of 12 m ³ (at the rate of 1 m ³ per linear meter of the productive formation). Initially, the injection is performed in a pulsed mode 6 times in the cycle mode: 5 min injection at a pressure of 4 MPa, holding for 5 minutes for reaction. The rest of the hydrochloric acid solution is pumped continuously at a pressure of 6 MPa. Perform technological shutter speed for response for 3 hours

The reaction products and pollutants are recovered by swabbing.

As a result of processing by the proposed method, the increase in flow rate in wells with low reservoir pressure was 3-5 m ³ / day with a duration of effect of more than 7 months. When performing traditional treatments of the bottom-hole zone of the well under similar conditions, the increase in well production was not more than 1.0-2 m ³ / day and lasting no more than 1-2 months.

Thus, the application of the proposed method allows to achieve the desired technical result and increase the efficiency of the formation treatment in order to increase the productivity of the well with a set pressure.

Claims (1)

A method of treating the bottom-hole zone of a well with low reservoir pressure, including injecting a reagent into the bottom-hole zone, using hydrochloric acid solution, technological shutter speed for reacting and extracting reaction products by swabbing, characterized in that the well is washed with fresh water before pumping the hydrochloric acid solution , update the perforations of the reservoir at the rate of 10 holes per linear meter of the well and saturate the reservoirs with fresh water to 6 MPa, then m carry out the injection of hydrochloric acid solution into the well in a volume of 2.0 m ³ and technological exposure in the bath mode for 2 hours, and the subsequent injection of the reagent is carried out sequentially in four stages, in the first of which the hydrochloric acid solution is injected by 6-fold the first portion is injected into the reservoir in a volume of 2.0 m ³ in the cycle mode, which includes 1 min of injection at a pressure of 1-6 MPa, exposure for 5 minutes for reaction, and the final injection of the volume of hydrochloric acid solution in a constant mode; at the second stage, 6- multiple mpulsnuyu injection into the formation of the second portions of hydrochloric acid solution in a volume of 3.0 m ³ in cycle mode, comprising 1 min at injection pressure 1-6 MPa, for 5 minutes exposure to respond and complete injection volume of acid in a constant mode, and then perform the process holding for 3 hours for response, at the third stage, a third portion of hydrochloric acid solution is injected into the formation at the rate of 0.5 m ³ per linear meter of the producing formation in continuous mode at a pressure of 1-6 MPa and technological shutter speed is performed for 3 hours for response, and at four the first stage is carried out 6 times the pulse injection into the formation of the fourth portions of hydrochloric acid solution at the rate of 1.0 m ³ per meter of the producing formation in the cycle mode, comprising 1 min at injection pressure 1-6 MPa and exposure of 5 minutes to respond, then they complete the injection in a continuous mode, carry out a technological shutter speed for a reaction of 3 hours and proceed to the extraction of reaction products by swabbing.