RU2557030C1 - Template cementing method - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: template cementing method includes making of holes in the template above its shoe and injecting of cement mortar through the above openings. At the well mouth a space between the template and the production casing is sealed. The openings in the template are made by the simultaneous perforation of the production casing and the template through the production casing. Then the production casing is isolated in the interval downstream the template bottom, through the perforated openings and annular space of the template the cement mortar is injected and an isolation point of the production casing is drilled out. During the heat generation at hardening of the cement mortar injected to the annular space of the template temperature logging is made for the production string, the thermogram is analysed and intervals with increased values of temperature are marked as cemented intervals.

EFFECT: cementing template of the abandoned well with the preservation of the production string integrity.

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Description

The invention relates to the oil industry and may find application in well liquidation.

The known method of secondary cementing of the conductor includes cutting off the production casing, installing a cement bridge on the head of the remaining part of the casing, followed by cementing the annulus of the casing, raising the cut off part of the casing, installing it in the well at a depth of at least 10 m below the head of the casing, installing a cement gland between shoe cut off the column and the head of the conductor, and then cement the annular space of the conductor. The proposed method provides sealing of the wellhead in the absence of the upper part of the conductor (RF patent No. 2135741, publ. 08.27.1999).

Closest to the proposed invention in technical essence is a method of secondary cementing the conductor through special holes in the conductor after removing the casing (Repair and insulation work on improving the stock of complicated wells (Guidelines), M, VNIIOENG, 1991, ser. "Technique and oil production technology and the development of oil fields ", p. 17 - prototype). The method is as follows. The production casing is torpedoed at a depth of 10 ... 15 m above the conductor shoe, the cut-off part is removed from the well, and a cement bridge is installed on the head of the production casing. Then, special holes are created above the conductor shoe, through which the conductor is cemented by pumping cement mortar through the tubing string.

A disadvantage of the known methods is the violation of the integrity of the production string, not acceptable when liquidating the well.

The proposed invention solves the problem of cementing the conductor of the well being liquidated while maintaining the integrity of the production string.

The problem is solved in that in the method of cementing the conductor, including creating holes in the conductor above its shoe and injecting the cement mortar through the holes, according to the invention, the space between the conductor and production casing is sealed at the wellhead, the holes in the conductor are created by simultaneously perforating the production casing and conductor through production casing, disconnect the production casing in the interval below the bottom of the conductor, along the production casing through perforation holes and annular space of the conductor pump cement slurry, drill the place of separation of the production string, during the heat release during hardening of the cement injected into the annular space of the conductor, conduct thermometry on the production casing, analyze the thermogram, the intervals with increased temperature are marked as cemented.

SUMMARY OF THE INVENTION

When liquidating a well, it is important to eliminate annular fluid flows, especially in the intervals of the conductor, where the main aquifers with drinking water are located. In this case, a prerequisite is the preservation of the integrity of the production string as the main element of the well. Existing technical solutions do not provide these requirements. The proposed invention solves the problem of cementing the conductor of the well being liquidated while maintaining the integrity of the production string. The problem is solved as follows.

At the wellhead, the space between the conductor and the production string is sealed, for example, by welding. Thermometry is carried out in the production casing with recording the background temperature value in the interval of the conductor. A perforator is lowered into the production casing and holes are perforated simultaneously in the production casing and conductor in the interval of the sole of the conductor. The production casing in the interval below the bottom of the conductor is divided into the lower and upper parts of the well, for which they put a cement bridge or install an explosion packer. A cement slurry is pumped through the production casing through the perforations into the annular space of the conductor. Drill the place of separation of the production string. During the heat release during hardening of the cement mortar, injected into the annular space of the conductor, conduct thermometry on the production casing. Analyze the thermogram in comparison with the background value. Intervals with increased temperature values are marked as cemented. If necessary, perforate uncemented intervals and repeat the operation. As a result, it is possible to isolate the annular space of the conductor and to ensure the absence of salt water flows into fresh aquifers.

Concrete example

Preparing for the liquidation of an oil well. The well design includes a direction to a depth of 10 m, a conductor to a depth of 170 m and a production casing to a depth of 1700 m. The well has been in operation for 50 years. At the wellhead, the space between the conductor and the production string is sealed. Thermometry is carried out in the production casing with recording the background temperature value in the interval of the conductor. A perforator is lowered into the production casing and 10 holes are perforated simultaneously in the production casing and conductor in the interval of the conductor sole at depths from 165 to 168 m. In the production casing, in the interval below the conductor sole from a depth of 175 m, a cement bridge 50 m deep is placed. perforations and annular space of the conductor pump cement mortar from the calculation until it reaches the surface. Drill a cement bridge in the production casing. After 18 hours from the moment of cement mixing, i.e. during the heat release, conduct thermometry on the production casing. Analyze the thermogram in comparison with the background value. The presence of cement in the entire interval of the conductor is noted.

As a result, a conclusion is drawn about the complete isolation of the annular space of the conductor.

The application of the proposed method will solve the problem of cementing the conductor of the well being liquidated while maintaining the integrity of the production string.

Claims (1)

A method of cementing a conductor, including making holes in the conductor above its shoe and injecting cement mortar through openings, characterized in that the space between the conductor and production casing is sealed at the wellhead, the holes in the conductor are created by simultaneously perforating the production casing and conductor through the production casing, and disconnect the production the column in the interval below the bottom of the conductor, along the production casing through the perforations and annular transtvo conductor pumped cement slurry drilled out position uncoupling the production tubing in heat dissipation during the hardening cement slurry injected in the annulus conductor, is carried on the production string thermometry analyzed thermogram intervals with increased temperature values marked as cemented.