RU2314409C1 - Device for waterproofing operations performing in well - Google Patents

Abstract

FIELD: oil and gas industry, particularly methods or devices for cementing, for plugging holes, crevices, or the like.

SUBSTANCE: device comprises flow column and pipe string arranged inside it. Flow column has stem arranged at lower end thereof. Pipe string has radial channels formed in lower pipe string part and is sealed below the channels. Radial channels are air-tightly sealed with bush having side channels. Bush may perform limited upward movement to align side channels with radial pipe string channels. Disc valve with seat is installed between flow column and stem. Seat has rupturable member, which retains seat in opened state. Lower part of pipe string may hermetically seal disc valve seat and cooperate with rupturable member. Stem has hollow end part provided with plug installed inside end part so that the plug may perform limited upward movement as plug rests upon well bottom. The end part has radial channel, which may be hermetically closed as plug slides upwards.

EFFECT: increased waterproofing efficiency.

2 dwg

Description

The proposal relates to the oil and gas industry, in particular to devices for conducting waterproofing work in the well.

There is a method of conducting waterproofing work on a well (patent RU No. 2188929, IPC 7 ЕВВ 33/13, Bull. No. 28 dated 09/10/2002) and a device for its implementation, according to which the tubing pipe string is connected with the annular space, while the pipeless coupling string a long pipe (BDT) is lowered into the cavity of the column of elevator pipes, and then a buffer liquid inert to the water insulating composition in the volume of 0.3-0.5 m ³ is pumped into the cavity of the BDT, the water insulating composition in the calculated volume and the second portion of the buffer liquid are pumped in a volume of 0.2-0.3 m ³ pressurization of the water-insulating composition and buffer fluid is carried out, and the pumping is carried out by two independently working pumping units, which pump the squeezing fluid into the BDT column, the lift pipe string and into the production casing, while the process of pumping the squeezing fluid with both units is continued until the water-insulating composition is completely displaced from the BDT column and penetration of the water-insulating composition into the formation, after which the second unit pumping the squeezing liquid is stopped the annular space between the lift and production casing, connect the cavity of the lift column by means of a throttle device with a drain line coming from the well, flushing fluid is pumped into the BDT column in a volume sufficient to clean it from the components used, the ring cavity of the production casing is sealed, and then the drain is closed line and leave the well under pressure for the duration of the reaction of the water-insulating mixture, while the performance of the first pumping unit pumping the vending machine liquid in the BDT column, and the capacity of the second unit pumping the squeezing liquid into the tubing string and production casing is proportional to the cross sectional area of the BDT and the sum of the cross-sectional areas of the annular channel formed by the outer surface of the BDT column and the inner surface of the lift column, as well as the cross section an annular channel formed by the outer surface of the elevator string and the inner surface of the production string, while setting the throttle the triads are made in such a way that the pressure in the area of the waterproofing works during the sale of the waterproofing composition into the formation and during the washing of the BDT column is constant.

The disadvantages of this device are:

- firstly, the complexity of the design, due to the large number of nodes and parts;

- secondly, a complex application technology associated with the fact that the forcing of the liquid is carried out by two independently operating pump units, while the performance of each pump unit requires compliance with certain proportions.

The closest in technical essence is a device for waterproofing work in the well (patent RU No. 2188929, IPC 7 ЕВВ 33/13, Bull. No. 28 of 09/10/2002), consisting of a column of elevator pipes lowered into the well with inside column of pipes.

The disadvantages of this device are:

firstly, it is impossible to use the column space of the well as an averaging capacity in the preparation of a waterproofing composition;

secondly, the unstable density of the water insulation composition injected into the well, since it is impossible to circulate the water insulation composition through the pipe string in the well during its preparation, which leads to a decrease in the quality of insulation work in the well and, as a result, to quick re-work;

thirdly, it is impossible to crimp pipe columns in the well without lowering and raising additional equipment, such as a packer, into the well.

The objective of the invention is the possibility of crimping pipe columns in the well before carrying out waterproofing works without lowering and lifting additional equipment and eliminating the averaging capacity from the technological process for preparing a waterproofing composition, as well as improving the quality of waterproofing works.

The stated technical problem is solved by a device for conducting waterproofing work in the well, consisting of a column of elevator pipes lowered into the well with a column of pipes located inside it.

What is new is that the column of elevator pipes is equipped with a liner at the bottom, and the column of pipes is equipped with radial channels at the bottom, below which it is plugged, and the radial channels of the pipe string are sealed from the outside with a sleeve with side channels, while the sleeve is made with the possibility of limited upward movement and alignment of the side channels with radial channels of the pipe string, and a poppet valve with a seat is installed between the pipe string and the shank, which is equipped with a destructible plate holding element open valve, and the lower part of the pipe string has the ability to tightly close the poppet valve seat and interact with the destructible element, while the liner bottom is equipped with a hollow limiter with a plug installed inside and made with the possibility of limited upward movement with emphasis on the bottom of the well, in the limiter there are made radial holes made with the possibility of hermetic overlapping with a plug when moving up.

The figure 1 shows the proposed device in longitudinal section.

The figure 2 shows a view And destructible element.

A device for conducting waterproofing operations in a well consists of a column of elevator pipes 2 lowered into the well 1 (see FIG. 1) with a column of pipes 3 located inside it. The column of elevator pipes 2 is equipped with a liner 5 from the bottom 4 of the coupling 5. The pipe 3 has a radial bottom channels 6, below which it is muffled by means of a plug 7. Radial channels 6 of the pipe string 3 are sealed from the outside by a sleeve 8 equipped with side channels 9. The sleeve 8 is fixed in the transport position relative to the pipe string 3 by a shear element 10 made with the possibility of limited upward movement and alignment of the side channels 9 with the radial channels 6 of the pipe string 3. Between the column of lift pipes 2 and the shank 4, a poppet valve 11 with a seat 12 is installed, which is equipped with a destructible element 13 (see figure 2), holding the poppet valve 9 is open. The lower part of the pipe string 3 has the ability to tightly overlap the seat 12 of the poppet valve 11 and interact with the destructible element 13.

The shank 4 below is equipped with a hollow end 14 with a plug 15 installed inside and made with the possibility of limited upward movement with emphasis on the bottom 16 of the well 1. Radial holes 17 are made in the end 14, which can be sealed by a plug 15 when moving upward.

Unauthorized fluid flows during operation are eliminated by the sealing elements 18 and 19.

A device for waterproofing works as follows.

Before running into the well 1 of the column of elevator pipes 2 (see Fig. 1), the equipment is lowered at the end of the column of elevator pipes 2. For this purpose, the pipes of the liner 5 are first assembled, lowering them into the well 1, the lowermost pipe of the liner 4 is equipped hollow limiter 14 with a plug 15 installed inside it. During lowering of the shank 5 into the well 1, the radial holes 17 of the end 14 are opened by fixing the plug 15 in the end 14 with a locking ring 20, which does not allow the plug 15 to block the radial holes 17 of the end Vika 14 until the plug 15 interacts with the bottom hole 16 of the well 1. After the descent, the tail 5 into the well 1 at the calculated depth, the assembled arrangement of the shank pipes 5 is screwed to the lower end of the sleeve 4, then a seat 12 is sealed inside the sleeve 4 with a poppet valve attached to it from below 11 and destructible element 13. After that, the assembled equipment is screwed onto the lower end of the column of elevator pipes 2 by means of a sleeve 4.

Next, a column of elevator pipes 2, equipped at the end with the above-described equipment, is first lowered into the well 1. During the descent of the column of elevator pipes 2 into the well 1, the liquid in it flows freely from the bottom up into the column of elevator pipes 2 due to the destructible element 13, which keeps the poppet valve 11 in the open state. The descent of the column of elevator pipes 2 into the well 1 is continued until the plug 15 rests against the bottom 16, as evidenced by the weight loss of the column of elevator pipes 2 on the weight indicator (not shown in Figs. 1 and 2) installed on the wellhead 1 , while the plug 15 compresses the circlip 20 and moves upward hermetically by means of the sealing element 18, blocking the radial holes 17 of the end 14. After that, the column of elevator pipes 2 is refilled with process fluid and is connected to the pump unit (not shown in Figs. 1 and 2) . After that, they pressurize the string of elevator pipes 2. After making sure the tightness of the string of elevator pipes 2, it is lifted up until the lower edge of the shank 5 is opposite the perforations 21 made in the casing of the well 1 opposite the insulated aquifer 22. Then fasten the upper end of the column of elevator pipes 2 at the wellhead 1.

Then, the pipe string 3, provided with a plug 7 at the end, is lowered into the pipe string 2, until the pipe cap 7 enters the seat 12 and the sleeve 8, fixed in the transport position relative to the pipe string 3 by the shear element 10, does not interact its lower end with a seat 12, as evidenced by the drop in the weight of the pipe string 3 on the weight indicator (not shown in FIGS. 1 and 2) installed at the wellhead 1. An annular space 23 is formed between the pipe string 2 and pipe string 3. pipe filling 3 technological fluid and bind it to the pump unit. After this, the pipe string 3 is crimped. Next, the pipe string 3 is pulled, while the plug 7 enters the saddle 12 of the coupling 4 of the tubing string 2 and destroys the destructible element 13 (see FIGS. 1 and 2), which falls on the bottom, with its lower end 16 wells 1.

The unloading of the pipe string 3 onto the seat 12 is continued, the lower part of the pipe string 3 being sealed on the seat 12, the shear element 10 being destroyed, as a result of which the side channels 9 of the sleeve 8 are aligned with the radial channels 6 of the pipe string 3. The sleeve 8 is in the upper position stops using the locking ring 24 in the annular sample 25 of the pipe string 3, not allowing the sleeve 8 to spontaneously move relative to the lower end of the pipe string 3.

Next, start preparing a waterproofing composition.

To do this, by pumping liquid into the pipe string 3 through the combined radial channels 8 of the pipe string 3 and side channels 9 of the sleeve 8 and then up the annular space 23, and then again into the pipe string 3, a waterproofing composition is prepared by circular circulation (annular space 23 of the well 1 between a column of elevator pipes 2 and a column of pipes 3 is used as averaging tank). Thus, the circular circulation of the waterproofing composition is continued until its density is stabilized.

After preparing the waterproofing composition, the pipe string 3 is lifted up until the lower edge of the plug 7 is 0.3-0.5 meters above the seat 12, while the poppet valve 11 closes. The space between the tubing string 2 and the tubing string 3 is sealed at the wellhead.

Then, the estimated volume of the squeezing fluid is pumped into the annular space 23 from the wellhead 1, leaving approximately 100 liters of the waterproofing composition in the annular space 23, taking into account that after the pushing the upper level of the waterproofing composition was higher than the side channels 9 of the sleeve 8 in order to prevent mixing of the squeezing fluid with a water-proofing composition inside the pipe string 3. A water-proofing composition is forced from the annular space 23 through the seat 12 and sold under pressure the poppet valve 11 through the inner space of the shank 5 into the end 14. Under pressure, the plug 15 moves down inside the end 14 and is fixed by the retaining ring 20 in the lower position (see Fig. 1), while the radial holes 17 of the end 14 and the waterproofing structure open pushed through the opened radial holes 17 of the trailer 14 through the perforations 21 in an insulated aquifer 22.

Next, the annular space 23 is sealed at the wellhead and the calculated volume of displacement fluid is pumped into the pipe string 3 and the waterproofing composition is forced from the pipe string 3 through radial channels 6 of the pipe string 3 and side channels 9 of the sleeve 8 and then through the annular space 23 through the seat 12 and poppet valve 11 in the inner spaces of the shank 5 and the trailer 12, through the open radial holes 17 of the trailer 14 through the perforations 21 in an insulated aquifer 22. The sale is waterproof of the composition in an insulated reservoir 22 to produce the appearance of squeezing liquid from the radial holes 17, limit switch 14 that is determined by the flow rate of injected displacement fluid.

After that, without relieving pressure, lift the pipe string 3 up to the maximum possible length (the length of one pipe), while the radial holes 17 of the end 14 rise above the perforations 21.

Well 1 is left to solidify the waterproofing composition in the insulated formation 25.

After the water-proofing composition has solidified in the insulated formation 22, a pipe string 3 with a plug 7 is removed from the well 1, and the poppet valve 11 is closed and the water-proofing composition does not get back into the pipe string 2. Then a pipe pipe 2 with equipment at the end is removed from the well 1 .

The proposed device allows you to compress the pipe string in the well without lowering and lifting additional equipment before the waterproofing works, and also to eliminate the averaging capacity, which simplifies the preparation of the waterproofing composition, and the sale of the waterproofing composition in an isolated aquifer is carried out after the density of the waterproofing composition is stabilized, which improves the quality of insulation work and eliminates the likelihood of repeated work.

Claims (1)

A device for carrying out waterproofing work in a well, consisting of a column of elevator pipes lowered into the well with a column of pipes located inside it, characterized in that the column of elevator pipes is equipped with a liner at the bottom and the pipe string is provided with radial channels below which are plugged below, and the column’s radial channels pipes outside are hermetically closed by a sleeve with side channels, while the sleeve is made with the possibility of limited upward movement and alignment of the side channels with the radial channels of the column tr ub, while between the column of elevator pipes and the shank a poppet valve with a seat is installed, which is equipped with a destructible element that holds the poppet valve in the open state, and the lower part of the pipe string has the ability to tightly close the poppet valve seat and interact with the destructible element, with the shank bottom equipped with a hollow limit switch with a plug installed inside and made with the possibility of limited upward movement with emphasis on the bottom hole, and in the limit switch There are radial holes made with the possibility of tight sealing with a plug when moving up.

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