RU169386U1 - Device for blocking the absorption zones of technical fluid in boreholes - Google Patents

Abstract

The utility model relates to the field of drilling and is intended for the routine repair of an oil wellbore. The task that the proposed utility model solves is to increase the reliability of overlapping intervals (zones) of absorption of technical fluid in an open wellbore with less labor and increased efficiency. overlapping zones of absorption of technical fluid in boreholes, including a housing containing a node for milling the walls of the well, lowered into the well by pipes and p driven by a change in the pressure of the technical fluid supplied through the annulus from the ground surface of the well, in contrast to the known one, the body of the milling unit for the walls of the well is connected to a portion of the pipe on which the actuated pressure change of the technical fluid supplied through the annulus from the ground surface is installed wells, lock holder assembly with a repair plaster of thin-walled elastic material, rolled up, held in tension in transport position using the hinged locks of the locking holder. The inventive device can be installed as part of the BHA - the layout of the bottom of the drill string in the well.

Description

The utility model relates to the field of drilling and is intended for maintenance of an oil wellbore.

A known method for installing in the inner part of the casing corrugated metal patches to restore the tightness of the casing of the wells (www.tehsovet.ru/article-2011-10-3-1460).

The essence of the repair method is that in workshop conditions, a longitudinally-corrugated pipe is made from a round seamless pipe with a wall thickness of 3 mm on a special installation, which is lowered into the well in the repair interval on a special device and rolled up until it makes tight contact with the casing . The corrugated patch is lowered into the casing leakage interval on the pipes and the patch is expanded with the head plunger from the top of the device using the power pusher, reciprocating the tool in the well. Longitudinally corrugated pipes are made from round thin-walled cold-deformed heat-treated pipes. The patch allows you to solve the issues of shutting down formations and restoring the tightness of casing strings in various geological and technical conditions in wells at depths up to 2000 m.

However, the method of using metal adhesives has several limitations. The value of the permissible depression acting on the installed patch during development and during operation of the wells should not exceed 9 MPa.

Another disadvantage of this method is that the device is lowered on the rods, which is a laborious and expensive process. In addition, in order for the corrugated patch to be rolled out in the casing, it must be made of soft metal, which can be abrased by working downhole equipment. If the leakage has uneven edges, then the plaster body breaks through, and the task of restoring the tightness remains unsolved. In addition, if it is not possible to carefully treat the casing walls from paraffin, salt deposits, etc., then the patch cannot be installed, or the installed patch slides along the walls of the well, after which repeated repair work on the well is necessary. This is because the patch of corrugated pipe is simply rolled to the inner size of the casing, as a result of which its adhesion to the surface of the casing becomes small.

As an alternative to the above-described methods for installing adhesives for restoration of casing leak tightness, the Avangard design patch is proposed, made of durable high-viscosity metal, for example, steel with shape memory effect (EPF), which, when heated, takes the form of the inner surface of the casing and presses on the walls wells. Due to this effort, he does not slip from the walls of the well (www.tehsovet.ru/article-2011-10-3-1460).

The installation of such a patch in the well should be carried out on a wireline cable, and the working part of the patch will be heated using thermogas generators made of recycled rocket fuel.

A known method of repairing a casing string (Pat. RF №2336408, prior. 01/26/2007, publ. 20.10.2008).

The method includes milling the inner surface of the casing string, calibrating it to form an annular sample for a metal patch in the repair interval, performing annular grooves in the upper and lower parts of the sample, installing a metallic patch with a regulated tightness in the repair interval. Provides reliable sealing, eliminates the danger of shear patch (prototype).

The known device for implementing the method comprises a drill pipe calibration and milling unit installed on a drill pipe string and brought into operation by changing the pressure of the drilling fluid to obtain a ring sample of a given diameter for further installation of a metal patch in it. At the same time, the processes of milling and installing the patch provide for the sequence of these operations with lifting the drill pipe string and replacing equipment for the next stage, which leads to an increase in time and labor costs for repair.

Known adhesives are used to repair casing strings, the diameter of which is normalized along the entire length, the walls of the strings have a relatively even surface, which does not impede its close contact with the metal plaster.

At the stage of drilling rocks for the construction of wells for various purposes (oil, gas, ore, hydrogeological, etc.), another problem arises - the elimination of the intervals of absorption of flushing fluid in an open hole, which is practically impossible to solve using a metal patch using the above-described known methods.

Typically, when there are intervals of absorption of the drilling fluid (technical fluid) during drilling, in this interval the diameter of the well changes sharply due to erosion of the walls or due to the removal of rock fragments into the open borehole, which complicates the use of known adhesives, since they are made from round thin-walled pipes with a constant diameter corresponding to the diameter of the casing, as a result of which it is impossible to reliably cover the interval with violations and with a sharp change in the diameter of the well during drilling and.

The technical problem that the proposed utility model solves is to increase the reliability of overlapping intervals (zones) of the absorption of technical fluid in an open borehole with less labor and increased efficiency.

This problem is solved in that in a device for overlapping zones of absorption of technical fluid in boreholes, including a housing containing a node for milling the walls of the well, lowered into the well by pipes and driven by a change in the pressure of the technical fluid supplied through the annulus from the surface of the well, unlike the known one, the body of the milling unit for the walls of the well is connected to the pipe section on which the pressure-activated fluid of the technical fluid is installed, supplied along the in-pipe space from the surface of the borehole, a lock holder assembly with a repair plaster made of thin-walled elastic material rolled up, held in a stressed state in the transport position with the help of hinged locks of the lock holder.

The inventive device can be installed as part of BHA - layout of the bottom of the drill string in the well.

The figure 1 presents the inventive device in the transport position inside the borehole.

In FIG. 2 shows the device in working condition.

The inventive device includes a pipe section 3 lowered on pipes into the borehole 1 as part of the bottom of the drill string assembly - a BHA 3 on which a locking holder assembly 4 with a repair plaster 5 made of thin-walled elastic material rolled up and in tension in a transport state is installed position, and connected to the pipe section 3 by means of a thread 6, a milling unit 7 with milling cutters 8 (Fig. 1).

Milling cutters 8 are driven by hydromechanical drives 9, controlled from the surface by changing the pressure of the technical fluid TJ 10 supplied from the ground surface. The technical fluid may be a drilling fluid while drilling a well or the liquid phase of a cement slurry used in cementing a wellbore.

The locking holder 4 with the help of folding locks 11 holds the rolled roll of the repair patch 5 in tension. Hinged locks 11 are actuated by hydromechanical actuators 12, controlled from the surface by changing the pressure TJ 10 supplied from the ground surface.

At the bottom of the BHA 2 contains a chisel 13 with flushing holes 14 through which TJ 10 circulates first through the in-tube space 15, and then through the annular space 16.

Pos. 17 - absorption zone TJ 10, which must be isolated in an open wellbore 1. Pos. 18 - ring sampling in the wellbore 1 (Fig. 2).

The device operates as follows.

In the process of drilling wells, the device in the BHA 2 with a bit 13 in the wellbore 1 is in the transport position, i.e. the repair patch 5 is in a folded state and is held in tension by means of folding locks 11 of the lock holder assembly 4 (FIG. 1).

When the pressure of TJ 10 in the flow line on the surface (not shown) (which is a clear sign of opening the absorption zone in the well), the drilling process is stopped and by changing the pressure of TJ 10 supplied from the ground surface through the in-pipe space 15, the milling cutters 8 are moved from the transport position in the working (open) state and perform a reciprocating movement of the entire layout of the drill string along the wellbore in depth within the height of the roll of the repair patch 5 to obtain rings th sample wells 18 in the barrel 1 for further installation in the repair patch 5 therein.

After three or four reciprocating flights of the drill string, the BHA 2 is installed opposite the obtained annular sample 18 in the wall of the well 1, then from the surface, by changing the pressure TJ 10 supplied through the in-pipe space 15, the hydromechanical actuators 12 of the assembly of the locking holder 4 with the repair plaster are actuated 5, as a result of which the hinged locks 11 rotate and release the roll of the repair patch 5, which, under the action of the elastic force, is deployed and due to the pressure drop between the column TJ 10 in the mud dimensional space 16 and the pressure in the absorption range 17 is pressed against the borehole wall in an annular sampling interval 18 of the wellbore 1 (Fig. 2).

After installing the repair patch 5 against the absorption zone 17, the circulation of the fluid through the in-pipe 15 and the annular space 16 is restored, which also leads to a corresponding restoration of pressure on the flow line (not shown).

In the event that in the corresponding interval there are absorption zones of large lengths, then the BHA include two or more castle holders with rolls of repair adhesives, which allows them to overlap the absorption zones of TJ of any length.

Since the repair patch 5 is rolled up, due to its expandable diameter when released from the locking holders 11, the patch 5 can block the wellbore in a wide range of changes in its diameter, which compares favorably with the known plasters having a tubular design with a predetermined diameter corresponding to diameter of casing strings.

Due to the fact that the milling of the wellbore and the installation of the patch are carried out in one descent into the well of the drill pipe string without replacing equipment, this ensures a reduction in labor costs for repair, while the drilling process is not interrupted for a long time.

The inventive device can also be installed on tubing (tubing) in the well in order to ensure that the roll plaster overlays the walls of the wellbore in the production interval to isolate this interval during grouting from the effects of the liquid phase of the grouting fluid injected into the well to repair or fix the casing columns, thereby eliminating the clogging effect of the cement slurry on the bottomhole zone of the production interval. Then, during subsequent perforation of the casing string, the bottomhole zone of the productive interval is drained, which is not affected by the process of mudding, which ensures the preservation of its natural productivity and eliminates the need for subsequent use of such labor-consuming and expensive decolming technologies as hydrochloric acid, depression and microwave treatment.

Claims (2)

1. Device for overlapping zones of absorption of technical fluid in boreholes, comprising a housing containing a node for milling the walls of the well, lowered into the well by pipes and driven by a change in the pressure of the technical fluid supplied through the in-tube space, characterized in that the body of the node for milling the walls of the well connected to the pipe section on which is installed driven by a change in the pressure of the technical fluid supplied through the in-pipe space, the lock holder assembly with repair plaster of thin-walled elastic material, rolled up, held in tension in the transport position with the help of folding locks of the lock holder. 2. A device for blocking the zones of absorption of technical fluid in boreholes according to claim 1, characterized in that it is installed as part of the BHA - the bottom of the drill string in the well.

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