RU2150570C1 - Method of installation of patch in casing string - Google Patents

Abstract

FIELD: equipment and methods of underground repairs, particularly, methods of installation of metal corrugated and round patches for restoration of airtightness of casing strings of oil, water and gas wells. SUBSTANCE: method includes lowering of tool into well with patch oriented on defect, building up of excessive hydraulic pressure in system to expand patch by device force pusher with mandrel head from top to bottom. Patch is expanded by mandrel head with the help of force pusher and wellhead stop. Stop is used to compensate tool counterweight to force pusher. Lowered tool is rigidly connected with wellhead flange for execution of tool reciprocation in well. EFFECT: extended range of well repairs along the entire length of casing string beginning from wellhead. 1 dwg

Description

 The invention relates to techniques and technology for underground repairs, and in particular to methods for installing corrugated metal and round adhesives to restore the tightness of casing pipes of oil, water and gas wells.

 The known method, which includes the descent into the well of the patch on the tool and expanding it to mate with the casing in a predetermined interval by pulling under the hydraulic pressure of the head of the head upward with the upper end of the patch resting on the casing through the hydraulic anchor of the patch [1].

 This method has the disadvantage that the expanding head, when expanding the patch to mate with the casing, is pulled through the patch from bottom to top by axial load on the tool (tubing). In this case, the tubing is subjected to a double load: hydraulic pressure and axial tension, which does not exclude the rupture of the pipes during tension during installation of the patch at great depths (more than 2000 m) and, as a result, the goal is not achieved when repairing deep wells.

 The closest in technical essence and the achieved result is a method of installing the patch in the pipe casing, including the descent of the device assembly with the patch on the tool into the well, the orientation of the patch on the defect, the creation of excessive hydraulic pressure in the system and the expansion of the patch with the head of the device from top to bottom with the power pusher of the device , before pairing with the casing [2].

 The known method allows the installation of the patch in the presence of sufficient tool weight (tubing) over the device, which is a counterweight to the power pusher to push the head of the head from top to bottom, expanding the patch. In addition, this method allows the installation of a patch in deep wells of more than 1,500 m, and when repairing wells with casing defects above 1,500 m and especially close to the wellhead, it is not possible. The device that provides the implementation of this method is equipped with an anchor in its lower part, which complicates the design of the device and does not exclude the possibility of jamming of the anchor in the column when lifting the tool to the surface.

 The aim of the invention is to expand the range of repair of wells along the entire length of the casing string, starting from the mouth.

 The circuit is achieved by the fact that in the known method of installing the patch in the casing string of the pipe, including lowering the device assembly with the patch on the tool into the well, orienting the patch on the defect, creating excessive hydraulic pressure in the system and expanding the patch with the head of the device from top to bottom with the pusher device to casing mating, according to the invention, the expansion of the patch by the head is provided with a power pusher, using the wellhead, which compensates the counterweight tool to the power pusher, tightly connect the descent tool with the wellhead flange and perform reciprocating movement of the tool in the well.

 Implementation of the proposed technical solution is provided by the use of a device for installing a patch in a casing string, and wellhead support.

 The drawing shows a General view of the device and the patch, which are lowered into the well to the place of casing pipe defect, and wellhead emphasis.

 The device consists of a turning hydraulic head 1, a power pusher 2, a lower stop of the patch 3, intermediate stops of the patch 4, a circulation valve 5 and a patch 6. The device assembly with the patch 6 is lowered on the tubing 8 into the casing of the well 8 and focuses on the defect 9. On the flange 10 of the casing pipe at the mouth (rotor table) is attached to the wellhead stop 11.

 The wellhead 11 is equipped with wedges that are known in practice, which in one direction (down) allow the tool to pass, and in the other (up), they wedge it, which ensures that the power pusher with the calculated hydraulic pressure exerts pushing the mandrel head through the patch from top to bottom.

 The implementation of the method.

 After lowering the device assembly with the patch 6 on the tool (tubing) 7 into the casing 8 and orienting the patch on the defect 9, the tool 7 is wedged from moving upward by the wellhead 11.

Then, the calculated excess hydraulic pressure is created in the system. The liquid under pressure enters the cavity of the power follower 2 and the head of the head 1, which ensures that the power head pushes the head of the head into the plaster 6 and expands it to interface with the casing 8 along the length of the working stroke of the head of the head. After that, the pressure in the system is reset to zero, the wellhead stop 11 is wedged out, the tool 7 is deposited on the length of the working stroke of the mandrel head (l _x ).

At this point, the lower end of the patch 6 is provided with an intermediate stop 4 when moving it to a length l _x .

 After jamming the tool 7 with the wellhead stop 11, the process of pushing the mandrel head and the expansion of the patch is repeated.

 In this way, the patch is expanded to mate with the casing until the mandrel head comes out of the patch completely.

 If necessary, the patch can be calibrated with a head by hydraulic pressure from bottom to top by lifting the tool, and from top to bottom by weighing the tool.

 After installing the patch and wedging the tool, the device is lifted to the surface, and the liquid is drained from the lifted tool through the circulation valve 5.

 The proposed technical solution allows you to expand the range of well repair along the entire length of the casing string, starting from the mouth, while there is no need to have various devices for installing adhesives in the casing string at the corresponding well repair depths.

 Technological and constructive solutions using wellhead support provide a 100% guarantee of the success of repairing leaky casing pipes in wells at any depth.

Sources of information
1. A. S.SSSSR N 562636 according to class E 21 B 33/12, 1977, BI N 23.

 2. A.S.SSSR N 1747673 according to class. E 21 B 29/10, 1992. BI N 26.

Claims (1)

 The method of installing the patch in the pipe casing, including the descent of the device assembly with the patch on the tool into the well, the orientation of the patch on the defect, the creation of excess hydraulic pressure in the system and the expansion of the patch with the head of the device from top to bottom using the device pusher to interface with the casing, characterized in that the expansion of the patch with the head of the plunger is provided with a power pusher, using the wellhead stop, which compensates the counterweight of the tool to the power pusher, tightly bind accelerated tool with a wellhead flange and perform reciprocating tool movement in the well.