RU2703029C1 - Device for interval-by-interval hydraulic fracturing of strong rocks - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining, namely to development of gently sloping coal beds, and can be used for their degassing. Device for intermittent hydraulic fracturing of strong rocks, consisting of housing with channel, installed on it elastic sealing elements, between which piston pair is arranged, wherein piston pair working chamber is communicated with said channel, and in its cylinder there is a radial hole with the possibility of communication with the working chamber of the piston pair, which includes a reverse hydraulic shock device installed on the bottom part of the housing, an adapter connected to the wellhead part of the housing, and a rod for connection to the drill rod. Body has a through hole with a tube for supplying working fluid into said reverse hydraulic shock device, which includes a bushing with a striker and a head piece containing a battery and a working fluid distributor. Striker is arranged on tube for supply of working fluid with possibility of axial movement and spring-loaded by return spring. Bushing is connected to the body and a head piece is attached to it by means of thread. In the hammer the groove is made with the possibility of connection to the channel connected to the draining, and to the control channel connected to the working fluid distributor, at that the above tube for working fluid supply is connected to the working liquid distributor and the accumulator by means of the pressure channel. Headguard, sleeve and hammer make working chamber connected with working fluid distributor by drain channel and further through said distributor and additional drain channel with said channel connected with drain. Rod has central hole and is installed with possibility of axial movement inside adapter, in which channel is made with possibility of connection with specified channel of housing and channel connected with specified tube for supply of working fluid.

EFFECT: technical result consists in hydraulic fracturing in wells of complex hypsometry or with low stability of walls, as well as simplified extraction of device from well.

1 cl, 4 dwg

Description

The technical solution relates to mining, namely to the development of gently dipping coal seams, and can be used for their degassing.

A device for hydraulic fracturing of rocks in a well (RF patent No. 2367791, E21B 43/26, published in Bull. No. 26 for 2009), comprising a hollow body with holes for the working fluid, at the ends of which are fixed elastic sealing elements, one of which is connected with the fitting, the other with the tip, while the hollow body is made in the form of a glass connected by the open part to the hollow sleeve and having a through hole in the bottom. A hydraulically unbalanced spool is installed in the body cavity with the possibility of moving in it, having a through central hole so that with one end it is pressed by a working spring installed in the cup between the hollow sleeve and the specified spool, to the stationary seal located at the bottom of the cup, and its opposite the end is placed in the cavity of the specified sleeve.

Common features with the proposed solution are the presence of elastic sealing elements for sealing the area of wells installed on the housing with openings for the working fluid.

A disadvantage of the known device is that its elastic sealing elements are a thin-walled shell, which increases the likelihood of jamming of the device in the well. So, when it is sent to the bottom of the well, jamming leads to crushing of the elastic sealing elements and to loss of efficiency, and in the case of jamming during the reverse stroke, to separation of the device from the drill stand and its loss. In this regard, the area of use of the device is limited only to wells having relatively simple hypsometry.

The closest in technical essence and combination of essential features is a device for hydraulic fracturing of rocks in a well (RF patent No. 2268359, E21B 43/26, publ. In Bull. No. 2 for 2006), consisting of a housing with a channel, elastic mounted on it sealing elements, between which a piston pair with sealing rings is placed, and a locking nut, while the working chamber of the piston pair is in communication with the channel, and a radial hole is made in its cylinder with the possibility of communication with the working chamber of the piston pair when packing with bore holes with elastic sealing elements and additional compression of elastic sealing elements at hydraulic fracturing pressure with self-locking of an isolated section of the well.

Common features with the proposed solution are the presence of a housing with a channel, elastic sealing elements installed on it, between which a piston pair is placed, the working chamber of which is in communication with the specified channel. A radial hole is made in the cylinder of the piston pair, which has the ability to communicate with the working chamber of the piston pair.

The disadvantage of this device is that its design does not provide the ability to overcome jamming in the case of complex hypsometry of the well or low stability of its walls. In this regard, the area of use of the device is limited only to wells having relatively simple hypsometry with stable walls.

The problem of the proposed technical solution is to expand the scope of the device due to the possibility of its use in wells of complex hypsometry or with low wall stability by impact on the structural elements of the device transmitted to the walls of the well, eliminating its curvature, as well as simplifying the removal of the device from the well, which is ensured reverse mode of operation.

The solution of this problem is achieved by the fact that the device for interval hydraulic fracturing of strong rocks, consisting of a housing with a channel, elastic sealing elements installed on it, between which the piston pair is placed, while the working chamber of the piston pair is in communication with the specified channel, and in its cylinder the radial hole with the possibility of communication with the working chamber of the piston pair, according to the technical solution, is equipped with a reversible hydraulic shock device mounted on the bottom of the body, an adapter connected to the wellhead of the housing and a rod for connecting to the drill stand, while the housing has a through hole with a tube placed therein for supplying working fluid to said reversible hydraulic hammer device, which includes a sleeve with a striker and a headgear containing a battery and a distributor working fluid, while the hammer is placed on the tube for supplying working fluid with the possibility of axial movement and is spring-loaded with a return spring, and the sleeve is attached to the housing and to it by means of a thread the cap is single, while in the striker, a groove is made with the possibility of connection with a channel associated with the drain, and with a control channel associated with the distributor of the working fluid, and the specified tube for supplying the working fluid is connected to the distributor of the working fluid and the battery using the pressure channel, this cap, sleeve and hammer form a working chamber connected to the distributor of the working fluid drain channel and then, through the specified distributor and an additional drain channel with the said channel m, associated with the drain, while the rod has a Central hole and is mounted with the possibility of axial movement inside the adapter, in which the channel is made with the possibility of connection with the specified channel of the housing and the channel connected to the said tube for supplying the working fluid. The given set of features allows for impact on the elements of the device transmitted to the walls of the well and to overcome sections of the well with complex hypsometry, which can significantly expand its scope. The operation of the hydropercussion device in reverse mode makes it possible to simplify the removal of the device from the well after hydraulic fracturing.

The essence of the technical solution is illustrated by the description of the design of the device for the interval hydraulic fracturing of strong rocks and the drawings of figure 1, which shows the layout and movement of the device for the interval hydraulic fracturing of solid rocks in the well of complex hypsometry, figure 2, which shows a General view of the device for the interval fracturing of solid rocks in longitudinal section, and FIG. 3 and 4, which respectively show locations A and B in FIG. 2 on an enlarged scale.

The device 1 (Fig. 1) for interval hydraulic fracturing of strong rocks (hereinafter referred to as the device) consists of a housing 2 (Figs. 2-4) with a channel 3 on which elastic sealing elements 4 and between them a piston pair are placed (in Fig. 2 , 4 pos. Is not indicated), consisting of a cylinder 5 and a piston 6, forming a working chamber 7, connected with the channel 3. In the cylinder 5 there is a radial hole 8 with the possibility of communication with the working chamber 7 of the piston pair. A through hole (pos. Not indicated) is made in the housing 2, in which a tube 9 is placed for supplying the working fluid to the reversible hydropercussion device (in Fig. 2, 3 poses are not indicated), which is installed on the bottomhole part of the housing 2. In its composition includes: a sleeve 10, an anvil 11 (Fig. 2, 3), which is axially mounted on the tube 9 and spring loaded with a return spring 12, and a thread 13 is attached to the sleeve 10 by a thread, in which the battery 14 and the distributor 15 of the working fluid are placed (hereinafter referred to as distributor 15). In the striker 11, a groove 16 is made with the possibility of connection with the channel 17 and the control channel 18 associated with the distributor 15. Channel 17 is connected to the drain 19, and the tube 9 is connected to the distributor 15 and the battery 14 using the pressure channel 20. Head 13, sleeve 10 and the striker 11 form a working chamber 21, connected to the distributor 15 by a drain channel 22 and then through the specified distributor 15 and an additional drain channel 22a and a channel 17 with a drain 19. The device 1 is connected to the drill stand 23 (Fig. 1) by means of an adapter 24, connected to the wellhead part of the housing 2 (Fig. 2, 4), and the rod 25, which has a Central hole 26 and is mounted with the possibility of axial movement inside the adapter 24. The adapter 24 is made channel 27 with the possibility of connection with channel 3 and channel 28 connected to the tube 9 .

The device operates as follows. In accordance with the project, a well 29 is drilled, into which, using the drill stand 23, the device 1 is delivered to a location determined by the project (Fig. 1).

Further, through the Central hole 26 of the rod 25, the channels 27 and 3 feed the working fluid into the working chamber 7 of the piston pair. The piston pair, consisting of a cylinder 5 and a piston 6, begins to expand along the housing 2 until the working chamber 7 reaches the radial hole 8 in the cylinder 5. When the piston pair is extended, the elastic sealing elements 4 are compressed, increase in diameter and seal the area between by them (in Fig. 1, the position is not indicated) of the well 29, into which the working fluid enters through the radial hole 8 and when the pressure increases to the ultimate strength of the rock mass, its hydraulic fracturing occurs. In this case, the working fluid does not enter the distributor 15 and it is in position I.

After hydraulic fracturing, the pressure of the working fluid is released and the piston 6 and cylinder 5 are returned to their original position.

Further, the device 1 is moved along the well 29 towards the bottom to the place of the next hydraulic fracturing. If the well 29 has a significant curvature, then the device 1 is jammed in it. In this case, the rod 25 is mechanically moved so that its central hole 26 switches from the channel 27 to the channel 28, which is connected to the tube 9 located in the housing 2, through which the working fluid enters the groove 16, the pressure channel 20 and the control channel 18 . Further, through the pressure channel 20, the working fluid is supplied to the distributor 15 and the battery 14, and through the control channel 18 to the distributor 15, which goes into position II. The camera 21 is connected to the tube 9 and the striker 11 under the action of the working fluid begins to move down the drawing. When the striker 11 moves, the groove 16 disconnects the control channel 18 from the tube 9 and connects it to the drain 19 through the channel 17, the distributor 15 returns to position I, the camera 21 is connected to the drain 19 through the drain channel 22 and an additional drain channel 22a, as a result of which the striker 11 under the action of the return spring 12 it slows down the movement and, possibly, strikes the housing 2. After stopping, it starts moving in the opposite direction, the groove 16 disconnects the control channel 18 from the drain 19 and connects it to the pipe 9, the distributor 15 goes into position II and connects the chamber 21 through the drain channel 22 and the pressure channel 20 with the pipe 9, and the firing pin 11, under the action of force from the working fluid side, slows down the movement and can strike the head cap 13 of device 1. After stopping the firing pin 11, the cycle is repeated.

Depending on the amount of working fluid supplied to the device 1, striking strokes 11 can be made against the body 2 or on the headgear 13, which allows overcoming the effect of jamming of the device 1 in the well 29 in both directions, providing a reverse.

Claims (1)

A device for interval hydraulic fracturing of strong rocks, consisting of a housing with a channel, elastic sealing elements installed on it, between which a piston pair is placed, while the working chamber of the piston pair is in communication with the specified channel, and a radial hole is made in its cylinder with the possibility of communication with the working a piston pair chamber, characterized in that it is equipped with a reversible hydraulic shock device mounted on the bottom of the body, an adapter connected to the wellhead of the body, and a rod m to connect to the drill stand, while in the case there is a through hole with a tube placed therein for supplying the working fluid to the specified reversible hydraulic hammer device, which includes a sleeve with a striker and a headgear containing a battery and a distributor of working fluid, while the striker is placed on the tube for supplying a working fluid with the possibility of axial movement and is spring-loaded with a return spring, and the sleeve is attached to the housing and a cap is attached to it by means of a thread, while a groove is made in the striker with the ability to connect with a channel associated with the drain, and with a control channel associated with the distributor of the working fluid, moreover, the specified tube for supplying the working fluid is connected to the distributor of the working fluid and the battery using the pressure channel, while the headgear, sleeve and hammer form the working chamber, connected to the distributor of the working fluid by a drain channel and then, through said distributor and an additional drain channel, to said channel connected with the drain, the rod having a central a hole and installed with the possibility of axial movement inside the adapter, in which the channel is made with the possibility of connection with the specified channel of the housing and the channel connected to the said tube for supplying the working fluid.

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