RU2498048C1 - Oil-well unit and method of its installation - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: oil-well unit consists of tubing string, one or several bypass holes made in tubing string, high-pressure channel and channels with high-pressure discharge device, one or several locking-bypass devices that include preset pressure chamber and locking device made as a gate or gate and case fixed at the tubing with ability of hydraulic connection between tube side and annular space. High-pressure channel is connected hermetically with preset pressure chamber which is a chamber of constant volume connected hermetically to the gate which can move inside the chamber or a chamber of constant volume connected to the gate from outside. At that gate represents either holding and locking elements or locking element. High-pressure channel and/or preset pressure chamber are fixed at tubing string.

EFFECT: possibility of regulation of fluid flow or process liquid flow, reducing hydraulic loss, increasing efficiency of the unit operation.

20 cl, 7 dwg

Description

The invention relates to the field of hydrocarbon production (oil, gas, condensate, etc.; and can be used for installation and operation of wells), including in multi-layer fields.

Known Well installation for the study of multilayer wells during simultaneous and separate operation of several production facilities, consisting of tubing, packers, at least one instrumentation connected to an electrically conductive cable, at least one hydraulic channel (RF Patent No. 93877, ЕВВ 43/14, 47/10, published on 05/10/2010).

The disadvantage of the above installation is that this well installation is intended only for the study of wells using a control instrument with automatic remote control and is not intended for remote control of fluid flow or pick-up during production or injection in real time.

The closest technical solution is a downhole installation, consisting of a high-pressure head device, tubing with at least one bypass channel, a shut-off device having at least one through hole of at least one hydraulic channel passing by tubing or inside the tubing and hermetically connecting a high-pressure head device with a shut-off and bypass device (RF Patent No. 2415255, ЕВВ 43/14, 34/06, publ. 03/27/2011, prototype).

The disadvantage of the above installation is the design complexity and the obligatory presence of a landing device for installing a regulator in it, having a bypass channel of a limited passage section with a diameter of not more than the diameter of the regulator and always less than the diameter of the seat for the regulator, which limits its use.

The well-known "Method of preparing for the operation of a downhole jet installation for logging horizontal wells", including mounting equipment on the surface and lowering it into the well to a predetermined depth (RF Patent No. 22525338, E21B 47/12, F04F 5/54, publ. 05.20.2005 .).

In the above Method, the installation of equipment is technologically complicated, as it includes numerous technological operations.

The closest technical solution is the method of preparing for operation of the downhole pumping equipment of Garipov, including mounting the equipment on the surface, lowering the equipment on the pipe string and installing them at a given depth. (RF patent No. 2414584, ЕВВ 23/00, publ. March 20, 2011, prototype).

The disadvantage of the above Method is the complexity of installation.

Our technical solution eliminates the above disadvantages and allows you to adjust the flow of fluid or process fluid by changing the size of the cross-section of the bypass hole or the total size of the cross-sections of the bypass holes, helping to reduce hydraulic losses, and, accordingly, increasing work efficiency.

This goal is achieved by the fact that the Well installation consists of tubing, one or more bypass holes made in the tubing, channel or channels of high pressure with a high-pressure device, one or more shut-off and by-pass devices, including a chamber of a given pressure and a shut-off device , which is a shutter or shutter and a housing fixed on the tubing with the possibility of hydraulic communication of the in-pipe space with the annular space, the high-pressure channel is sealed it is connected to a predetermined pressure chamber, which is a predetermined pressure chamber of constant volume, hermetically connected to the valve with the possibility of its movement inside it, or a predetermined pressure chamber of variable volume, connected externally to the valve, the valve being a holding and locking element or locking element, and the high-pressure channel and / or the set-pressure chamber are fixed on the tubing, the high-pressure device with the high-pressure channel are an identical high-pressure head device with a hydraulic high-pressure channel, a gas high-pressure head device with a high-pressure gas channel, a variable-pressure set pressure chamber is a bellows, a constant-pressure set pressure chamber is a sleeve, the housing is made in the form of a saddle with an inclined through channel, in the form of a sleeve with axial and bypass channels, the shutter is made in the form of a piston, the channel or channels of high pressure are fixed on the tubing by means of a detachable o or one-piece connection, a chamber or chambers of a given pressure are fixed * on the tubing by means of a detachable connection or one-piece connection, the housing or bodies are fixed on the tubing by a detachable or one-piece connection, it is additionally equipped with a fitting located in the bypass hole, a lock made in the form of a clamp or collets, with a geophysical instrument or instruments, a packer or packers, a protective device consisting of a casing and connecting elements fixed to the tubing by means of a fixative uyuschih elements representing a collar or studs.

A method of mounting a downhole installation includes mounting equipment on a surface, sequentially tightly connecting a channel or channels of high pressure with a chamber or chambers of a given pressure of constant or variable volume, fixing a channel of high pressure and / or a chamber of a given pressure on a tubing, in which one or more bypass holes, the connection of the chamber of a given pressure with a locking device in the form of a shutter or shutter and housing, with subsequent installation and fixing housing on the tubing, then the descent of the downhole installation into the well, its installation at a given depth and the hermetic connection of the channel or channels of high pressure with a pressure device of high pressure, the connection of the chamber of a given pressure of variable volume with the shutter shutter is carried out with rigid fixation, with the connection of the chamber of a given pressure constant volume with a shutter shutter is carried out hermetically.

The figure 1 shows a downhole installation with two chambers of a given pressure of variable volume mounted on the tubing from the outside, which are connected to shut-off devices and to high-pressure channels rigidly fixed to the tubing from the outside, one chamber of a given pressure is located with a protective device, Fig.2 shows A downhole installation with a chamber of a given pressure of constant volume rigidly fixed to the tubing outside, connected to the valve and to a high pressure channel rigidly fixed to the tubing outside, in FIG. .3 shows a borehole installation with a chamber of a given pressure of variable volume in the form of a bellows rigidly fixed to the tubing inside, connected to a valve in the form of a cylinder and with a channel of high pressure rigidly fixed to a tubing inside, Fig. 4 shows a borehole installation with a chamber of a given pressure variable volume in the form of a bellows mounted with a protective device, rigidly fixed outside the tubing, connected to the valve in the form of a cylinder, Fig.5 and 6 shows a downhole installation with a chamber of a given pressure a variable volume in the form of a bellows located on the tubing inside, connected to a shutter in the form of a cylinder made with bypass channels, and with a high pressure channel rigidly fixed on the tubing inside, Fig.7 shows a borehole installation with a chamber of a given pressure of variable volume in the form a bellows located outside the tubing and connected to the valve and to the high pressure channel rigidly fixed to the tubing outside.

The downhole installation includes tubing 1, a channel or channels of high pressure 2 with a pressure head device of high pressure 3, one or more bypass openings 4, one or more shut-off and bypass devices.

The shut-off and by-pass device includes a predetermined pressure chamber of constant or variable volumes 5 and a shut-off device, which is a shutter 6 or shutter 6 and a housing 7.

The high pressure channel 2 is a tubular element of constant or variable cross-section, for example, a high pressure hydraulic channel, a high pressure gas channel.

The hydraulic channel of high pressure 2 is a load-bearing, armored umbilical or tube (metal or other synthetic polymineral material resistant to high pressure-pressure), filled with liquid.

The high-pressure gas channel 2 is a tube or a load-carrying, armored hose filled with gas.

The channel or channels of high pressure 2 pass through the tubing 1, while the channel of high pressure 2 is fixed to the tubing 1 internally or externally, and the channels of high pressure 2 are fixed to the tubing 1 inside and / or outside, the fixation is carried out by means of a detachable connection or one-piece connection.

The high pressure channel 2 is hermetically connected to the chamber of a given pressure 5, for example, by means of an adapter or a sub.

The high-pressure head device 3 is a gas cylinder or compressor, an injection or production pump and / or a high-pressure head line in the form of a pressure line with a high-pressure medium, by means of which the working agent is injected in the form of a liquid medium or a gaseous high-pressure medium into the high-pressure channel pressure 2 to create a given pressure in the chamber of a given pressure 5.

The high-pressure head device 3 with the high-pressure channel 2 is, for example, a hydraulic high-pressure head device with a hydraulic high-pressure channel, a gas high-pressure head device with a high-pressure gas channel.

The bypass hole or bypass holes 4 are made in tubing 1.

The number of bypass holes 4 depends on the operating conditions of the installation, and the size of the cross-section of the bypass hole 4 or the total size of the cross-sections of the bypass holes 4 is equal to or larger than the size of the inner diameter of the tubing 1.

The size of the cross-sectional area of the bypass hole 4 or the total size of the cross-sectional areas of the bypass holes 4 allows you to provide a given volume of injection of the process fluid or fluid production, that is, the specified volume is controlled by the number and size of the cross-section of the bypass holes 4.

The set pressure chamber of constant volume 5 is, for example, a piston chamber, a plunger chamber made in the form of a cylinder, a sleeve.

The set pressure chamber of variable volume 5 is, for example, a bellows.

The chamber of a predetermined pressure of constant volume 5 is connected to the shutter 6 hermetically with the possibility of its movement inside the chamber, and the chamber of the preset pressure of variable volume 5 from the outside is fixed with the shutter 6 with the possibility of its movement during compression or extension of the chamber of the preset pressure of variable volume 5.

A detachable connection is, for example, a fixing device in the form of a bolt, a pin, a clamp with fasteners or pins, and an integral connection is, for example, welding or glue.

The high-pressure channel 2 and / or the set-pressure chamber 5 are fixed on the tubing 1 by means of a detachable connection or an integral connection.

The shutter 6 is a holding and locking elements or locking element. The locking element is, for example, a ball, cone, cylinder, rigid plate, for example, a spade shape. The holding element is, for example, a rod, a rod, a cylinder, a tubular element.

The shutter 6 is, for example, a piston.

The locking element is further provided with at least one bypass channel 9.

The retaining element is additionally fixed on the tubing 1 with the possibility of its movement along the tubing 1 through, for example, a detachable connection.

The housing 7 of the locking device is configured to hydraulically communicate the annulus with the annulus, for example, with an axial or inclined channel 8 and at least one bypass channel 9 hydraulically connected to one another and with one or more bypass holes 4, channel 8 has a constant or variable cross-section.

The housing 7 of the locking device is made, for example, in the form of a saddle with an inclined through channel 8, in the form of a sleeve with axial 8 and bypass 9 channels.

The housing 7 of the locking device is fixed to the tubing 1 inside or outside, and the housing 7 of the locking device is fixed to the tubing 1 inside and / or outside by means of a detachable connection or an integral connection.

The downhole installation is additionally equipped with a protective device 10, consisting of a casing in the form of, for example, a tube, a plate, and connecting elements fixed to the tubing 1 by means of fixing elements, a fitting 11 located in the bypass hole 4, a lock 12 made in the form of a retainer or collet , a packer or packers 13, a geophysical instrument or instruments 14, allowing for detailed monitoring of changes in pressure, temperature, flow.

The installation of deep research instruments before and after the bypass holes 4 with a fitting 11 allows for detailed monitoring of changes in well parameters, for example, pressure, temperature, flow rate and others.

The method is as follows.

Known fittings are installed on the surface for separating the pipe and annular spaces and sealing the high pressure channel 2, for example, a hydraulic channel.

First, the equipment is mounted on the surface; for this, the high-pressure channel 2, for example, a hydraulic channel pre-filled with an incompressible fluid, is tightly connected to a predetermined pressure chamber 5 of constant or variable volume or high-pressure channels 2 with cameras of a preset pressure 5 of constant or variable volume.

Then, by means of a detachable connection or an integral connection, a high pressure channel 2 and / or a predetermined pressure chamber 5 are fixed on the tubing 1, in which one or more bypass holes 4 are preliminarily made.

After that, the chamber of the given pressure 5 is connected to the locking device in the form of a shutter 6 or a shutter 6 and a housing 7, with subsequent installation and fixing of the housing 7 on the tubing.

For this purpose, the set pressure chamber 5 is connected to the shutter 6, while the set pressure chamber of variable volume 5 is rigidly fixed outside to the shutter 6, and the set pressure chamber of constant volume 5 is connected tightly to the shutter 6, while allowing the shutter 6 to move inside it. Or with a shutter 6 and a housing 7, with subsequent installation and fixing of the housing 7 on the tubing 1, while the housing 7 is installed on the tubing 1 at a predetermined distance in the zone of the bypass holes 4 with the possibility of hydraulic communication of the tube space with the annular by closing the shutter 6, at least at least one bypass channel 9 in the housing 7 and, respectively, overlapping the bypass hole or the bypass holes 4 in the tubing 1, and fix the housing 7 on the tubing 1 inside or outside, and the housing 7 on the tubing 1 inside and / or outside by means of a detachable th connection or one-piece connection.

The set pressure chamber 5 with the shutter 6 or the set pressure chamber 5 with the shutters 6 is mounted at a predetermined distance from the bypass hole or bypass holes 4 by known means.

The specified distance in the zone of the bypass holes 4 depends on the length of the extension or compression of the chamber of the given pressure of variable volume 5 and on the size of the shutter 6.

The mounted downhole installation is lowered into the well and installed at a predetermined depth.

Hermetically connect the high pressure channel 2 to the high-pressure device 3 in the form of, for example, a hydraulic pump and start the well into operation.

During the operation of the well, for example, during the injection process, periodically in real time periodically open or close the bypass hole or bypass holes 4 in the tubing 1 by changing the pressure in the high pressure channel 2 and, accordingly, in the chamber of the given pressure 5.

A change in pressure in the chamber of a given pressure of variable volume 5 in the form of a bellows leads to its compression or expansion. The compression of the bellows 5 leads to the lifting of the shutter 6 and the opening of at least one bypass hole 4, and the expansion of the bellows 5 leads to the lowering of the shutter 6 and, accordingly, to closing the bypass hole or bypass holes 4 in the tubing 1 and, for example, inclined the through channel 8 in the saddle 7. The pressure in the high-pressure channel 2 and, accordingly, in the bellows 5 is changed remotely from the surface in real time.

A change in pressure in the chamber of a given pressure of constant volume 5 leads to an increase in pressure in the chamber 5 itself and the shutter 6 to move, for example, in the form of a cylinder, which moves up or down under pressure, closing or opening at least one bypass channel 9, closing or by opening the bypass hole or bypass holes 4 in the tubing 1 and, accordingly, providing hydraulic communication of the pipe space with the annular space.

Downhole installation works as follows.

The downhole installation is lowered into the well at a predetermined distance and the well is put into operation, for example, for injection.

In the process of injection, periodically in real time, the bypass opening or bypass holes 4 in the tubing 1 is opened or closed by changing the pressure in the high-pressure channel 2, for example, in the hydraulic channel under the action of the high-pressure pressure device 3, which leads to the shutter 6 moving up or down.

For example, increasing the pressure in the chamber of the given pressure 5 causes the shutter 6 to lower and the bypass hole or bypass holes 4 to close, while the shutter 6 is lowered remotely from the surface by real-time control of the high-pressure head device 3 by increasing the pressure.

The decrease in pressure in the high pressure channel 2, for example, in the hydraulic channel, below the downhole pressure leads to the rise of the shutter 6 under the influence of excessive downhole pressure and, accordingly, to open the bypass hole or bypass holes 4 in the tubing 1.

If the well installation is additionally equipped with a packer or packers 13 for separating the layers and an electronic geophysical device or devices 14, then it is possible to carry out simultaneous-separate injection or simultaneous-separate production from several production facilities and conduct reservoir parameter studies, adjusting the shutter movement 6.

The proposed downhole installation and method compared to analogs is simpler, since it does not require additional devices, for example, a landing device for installing a regulator in it, and provide control by injection or production by changing the size of the cross-section of the bypass hole or the total size of the cross-sections of the bypass holes and by changing their number, helping to reduce hydraulic losses, which increases work efficiency, including remote control of the inflow or reception mystery in the process of extraction or injection in real time.

The use of additional research geophysical instruments and packers provides additional research in real time, both simultaneously and separately on the exploited formations, periodically remotely blocking the bypass holes or chucking them, that is, changing the size of the cross-section of the bypass hole, in different GDI modes.

Claims (20)

1. Downhole installation, consisting of tubing, one or more bypass holes made in the tubing, channel or channels of high pressure with a high-pressure pressure device, one or more shut-off and by-pass devices, shut-off and by-pass device includes a chamber of a given pressure and shut-off a device that is a shutter or shutter and a housing fixed on the tubing with the possibility of hydraulic communication of the in-pipe space with the annular space, the high pressure channel is hermetically sealed connected to a predetermined pressure chamber, which is a constant-volume predetermined pressure chamber, hermetically connected to the valve with the possibility of its movement inside it, or a variable-volume predetermined pressure chamber, connected externally to the valve, the valve being a holding and locking element or a locking element , and the high-pressure channel and / or the set pressure chamber are fixed on the tubing. 2. The downhole installation according to claim 1, characterized in that the high-pressure head device with a high pressure channel is a high-pressure hydraulic pressure device with a high-pressure hydraulic channel. 3. The downhole installation according to claim 1, characterized in that the high-pressure head device with a high-pressure channel is a high-pressure gas pressure device with a high-pressure gas channel. 4. The downhole installation according to claim 1, characterized in that the chamber of a given pressure of variable volume is a bellows. 5. The downhole installation according to claim 1, characterized in that the chamber of a given pressure of constant volume is a sleeve. 6. The downhole installation according to claim 1, characterized in that the housing is made in the form of a saddle with an inclined through channel. 7. The downhole installation according to claim 1, characterized in that the housing is made in the form of a sleeve with axial and bypass channels. 8. The downhole installation according to claim 1, characterized in that the shutter is made in the form of a piston. 9. The downhole installation according to claim 1, characterized in that the channel or channels of high pressure are fixed on the tubing by means of a detachable or one-piece connection. 10. The downhole installation according to claim 1, characterized in that the camera or cameras of a given pressure are fixed to the tubing by means of a detachable connection or an integral connection. 11. The downhole installation according to claim 1, characterized in that the housing or bodies are fixed on the tubing by means of a detachable or one-piece connection. 12. The downhole installation according to claim 1, characterized in that it is further provided with a fitting located in the bypass hole. 13. The downhole installation according to claim 1, characterized in that it is further provided with a lock made in the form of a retainer or collet. 14. The downhole installation according to claim 1, characterized in that it is additionally equipped with a geophysical instrument or instruments. 15. The downhole installation according to claim 1, characterized in that it is further provided with a packer or packers. 16. The downhole installation according to claim 1, characterized in that it is additionally equipped with a protective device consisting of a casing and connecting elements fixed to the tubing by means of fixing elements. 17. The downhole installation according to clause 16, characterized in that the locking elements are a clamp or pins. 18. A method of mounting a downhole installation, including mounting equipment on a surface, making a hermetic connection of a high pressure channel or channels with a chamber or chambers of a given pressure of constant or variable volume, fixing a high pressure channel and / or a chamber of a given pressure on a tubing in which one or more bypass holes, the connection of the chamber of a given pressure with a locking device in the form of a shutter or shutter and a housing, with subsequent installation and fixation the casing of the locking device on the tubing, then the descent of the well installation into the well, its installation at a predetermined depth, and the tight connection of the high pressure channel or channels with the high pressure device. 19. The installation method of the downhole installation according to claim 18, characterized in that the connection of the chamber of a given pressure of variable volume with the shutter of the shut-off device is carried out with rigid fixation. 20. The installation method of the downhole installation according to claim 18, characterized in that the connection of the chamber of a given pressure of constant volume with the shutter of the shut-off device is carried out hermetically.

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