RU2521872C1 - Garipov hydraulic control - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: hydraulic control consists of a body, at least one bypass port and at least one inlet port, inside the body there is a device with a chamber of a variable or permanent volume, a control element connected to the device with the chamber of the variable or permanent volume, a hollow element made as per a monolithic or detachable design with the body, a separating element in the body made so that it separates hermetically the bypass port or ports from the inlet port or ports thus forming an inner chamber or an inner chamber and a bypass chamber inside. At that the inlet port or ports are placed in the inner chamber, a control element can be moved hermetically inside the separating element or in a space between the side wall of the body and the separating element with potential overlapping of the bypass port or ports.

EFFECT: improving operational efficiency of the hydraulic control.

10 cl, 10 dwg

Description

The invention relates to the field of hydrocarbon production: oil, gas, condensate, etc. - and can be used in the operation of wells, namely, when injecting a working agent or producing reservoir fluid, including during simultaneous and separate operation of several reservoirs in multilayer fields.

A hydraulic regulator is known, comprising a housing, a movable element located inside the housing, a hollow barrel and retainers provided with through-holes, which are capable of hydraulically communicating the in-pipe space with an annular, one or more inlets, one or more hydraulic channels hermetically connected to the inlets made with the possibility of hydraulic communication with the zone of movement of the movable element, while in the housing is rigidly closed epleny hollow stem and clips (RF patent №113783, E 21 B 34/06, publ. 27.02.2012).

The disadvantages of the above regulator are high fluid requirements, design complexity, high processing requirements and wear resistance of its internal surfaces in the zone of movement of the movable element, which stops moving and wedges with a large amount of mechanical impurities.

The closest technical solution is a regulator containing a piston and / or bellows chamber interacting with locking devices, having at least one passage opening hydraulically connected to the piston and / or bellows chambers, and bypass channels interacting with each other (RF patent No. 2415255, ЕВВ 43/14, 34/06, publ. 03/27/2011, prototype).

The disadvantage of the above regulator is the limited use due to the mandatory use of a landing device for installing a controller 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.

The proposed technical solution eliminates the above disadvantages, increases the efficiency of the hydraulic controller by reducing hydraulic losses by adjusting 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, as well as by increasing the discreteness of changing the control modes.

This goal is achieved in that the hydraulic controller, consisting of a housing of at least one bypass and at least one inlet, inside the housing there is a device with a camera of variable or predetermined volume, a control element connected to the device with a camera of variable or a predetermined volume, a hollow element made with the body in one piece or separately, a separation element located in the body and made with the possibility of tight separation of the bypass or fast openings from the inlet or inlets, with the formation of an inner chamber or inner and bypass chambers in the housing, while the inlet or inlet openings are located in the inner chamber, the control element is made with the possibility of tight movement inside the separation element or in the space between the side wall of the housing and the separation element with the ability to tightly close the bypass or bypass holes, the separation element is a sealing insert with through and bypass holes, the separation element is a sealing partition with a through hole, it is additionally equipped with a movable element or connecting node, a lock made in the form of a latch or centralizer, located in the housing for fixing and centering the position of the regulating element, a fitting, a plug, a check valve , a sealing element, which is a nipple or stuffing box.

Figure 1 shows the hydraulic regulator in the closed position, with the body and the hollow element made integral, the camera of variable volume is represented by a bellows in the extended state, figure 2 shows the hydraulic regulator in the open position, with the body and the hollow element made separately, the camera variable volume is represented by a bellows in a compressed state, figure 3 shows the hydraulic regulator in the closed position, with a housing and a hollow element, made separately, the camera of a given volume is represented by a piston pair with a piston in the lower position, FIG. 4 shows a hydraulic regulator in an open position, with a housing and a hollow element made separately, a chamber of a given volume is represented by a piston pair with a piston in an upper position, FIG. 5 shows a hydraulic regulator in an open position , with a spring located between the piston and the plug, with a housing and a hollow element made separately, Fig.6 shows a hydraulic regulator with a spring located between the piston and the separation element, with the housing and Fig. 7 shows a hydraulic regulator in an open position, a variable-volume chamber is represented by a bellows in a compressed state, with a housing and a hollow element made in one piece, with an internal and bypass chambers; Fig. 8 shows a hydraulic regulator of a variable chamber volume is represented by a bellows in an extended state in the closed position with the housing and the hollow element, made separately, figure 9 shows a hydraulic regulator with a spring and a plunger connected to p regulates element in the closed position, Figure 10 shows a hydraulic controller with housing and a hollow element made with them separately, in the closed position, with a check valve.

The hydraulic regulator consists of a housing 1 with a hollow element 2, made with it integral or separately, at least one bypass 3 and at least one inlet 4 holes, inside the housing 1 there is a device with a camera of variable or predetermined volume 5, dividing element 6 and control element 7.

The hollow element 2 is, for example, a pipe section.

At least one bypass hole 3 hydraulically communicates the annulus of the borehole with the in-tube space of the tubing through the space of the hollow element 2.

The bypass or bypass holes 3 are made in the housing 1 with a hollow element 2, hydraulically communicating with each other, for example, when separately performing the housing 1 and the hollow element 2, at least one bypass hole 3 is made in the housing 1 and at least one bypass hole 3 in the hollow element 2.

The dividing element 6 is made with the possibility of tight separation of the bypass or bypass holes 3 from the inlet or inlets 4, with the formation in the housing 1 of the inner chamber 8 or the inner 8 and the bypass 9 chambers, while the inlet or inlet openings 4 are located in the inner chamber 8.

The separation element 6 is, for example, a sealing insert or partition with a through hole 10 or with a through 10 and a bypass hole 11. The separation element 6 is made monolithic or composite of rubber-metal aggregate.

The control element 7 is arranged to move through the through hole 10 of the separation element 6 or in the space between the side wall of the housing 1 and the separation element 6 and with the possibility of hermetically closing the bypass or bypass holes 3 or 3 and 11.

The control element 7 is, for example, a valve in the form of a saddle with a ball; when combining the ball with the saddle, the ball overlaps the bypass or bypass holes 3 or 3 and 11, ensuring the hydraulic communication of the annulus with the space of the hollow element 2 and, accordingly, with the in-tube space Tubing. The control element 7 is, for example, a rod, when combining the rod with the bypass or bypass holes 3 or 3 and 11, it overlaps it or them and, accordingly, blocks the hydraulic communication of the annulus with the tubing.

The number of bypass holes 3 or 3 and 11 in the hydraulic controller depends on the technical operating conditions of the installation, and the size of the cross-section of the bypass holes 3 or 3 and 11 or the total size of the cross-sections of the bypass holes 3 or 3 and 11 is equal to or greater than the size of the inner diameter of the hollow element 2 The size of the cross-section of the bypass holes 3 or 3 and 11 or the total size of the cross-sections of the bypass holes 3 or 3 and 11 allows you to provide a given volume of injection of process fluid or production lyuida, i.e. a predetermined volume of injection or extraction is controlled number and size of the cross section crossing the overflow openings 3 or 3 and in the hydraulic regulator 11 by, for example shtudirovaniya by reducing the diameter of the opening area of the bypass holes 3, or 3 and 11.

A device with a chamber of variable or predetermined volume 5 is located partially or completely in the inner chamber 8 and is, for example, a bellows, a piston or plunger chamber, while hermetically connected to the control element 7 and is hermetically and rigidly fixed, for example by welding or soldering, to the housing 1, for example, a base or a side surface.

A device with a camera of variable or predetermined volume 5 is further provided with a spring 12 mounted inside or outside the camera of variable or predetermined volume. Moreover, in the piston or plunger chambers 5, the spring 12 is located inside or on the rod outside the cup 13 of the piston or plunger chambers 5.

A device with a camera of variable or predetermined volume 5 is additionally equipped with a charging hole 14, which provides charging of the camera of variable or predetermined volume of device 5 with gas at the bench before being lowered into the well, or with borehole fluid, or with a liquid with a given pressure through the high pressure channel 15.

For example, the charging hole 14 in FIG. 1 allows the internal space of the chamber of variable or predetermined volume to interact with the borehole fluid from the tube space by connecting the internal cavity of the hollow member 2 with the internal space of the chamber of variable or predetermined volume of the device 5.

A device with a chamber of variable or predetermined volume 5 is located in the inner chamber 8 with the possibility of hydraulic interaction with the annular space or the tube space of the well through the hole 14 or for interaction with the high pressure channel 15, hydraulic or gas.

The inlet or inlets 4 provide a hydraulic communication of the inner chamber 8 with the high pressure channel 15 or with the borehole fluid.

The hydraulic regulator is additionally equipped with a movable element or connecting unit 16, a lock made in the form of a retainer or collet and located in the housing 1, providing a fixation of the position of the regulating element 7, a sealing element 17, a fitting 18, a plug 19, a check valve 20.

The movable element or the connecting unit 16 connects the device with a camera of variable or predetermined volume 5 to the control element 7 and is configured to tightly move inside the through hole 10 of the separation element 6 or between the side wall of the housing and the separation element 6 and with the possibility of tight closing of the bypass or bypass holes 3 or 3 and 11.

The connecting unit 16 is, for example, a telescopic connection.

The movable element 16 is, for example, a rod, a rod, a tubular element, which hermetically moves through the through hole 10 of the separation element 6 or in the space between the side wall of the housing 1 and the separation element 6.

The sealing element 17 is a nipple, sealing element or gland device and is located, for example, in the charging hole 14, in the inlet 4, in the through hole 10.

A sealing element 17, for example an oil seal, is installed in the inlet 4 for hydraulic communication of the inner chamber 8 with the high pressure channel 15, for example a nipple, is installed in the charging hole 14.

The fitting 18 is installed in the inlet 4 or bypass hole 3. The plug 19 is installed in the charging hole 14. The check valve 20 is installed, for example, in the bypass 3 or inlet 4 hole.

For example, in the inner chamber 8, a device with a camera of variable or predetermined volume 5 is installed, which is a bellows hermetically connected to the movable element 16 by, for example, threading or rigid fixing by soldering, cold welding.

For example, a device with a camera of variable or predetermined volume 5 is installed in the inner chamber 8, which is a bellows made with a charging hole 14 for interacting with the borehole fluid of the annulus or tube space, and provided with a sealing element 17. At the same time, the bellows 5 is connected to the movable element 16 by means of a threaded connection or rigid fixation.

The hydraulic regulator operates as follows.

The hydraulic controller through the hollow element 2 is installed on the tubing with the location of the inner chamber 8 above the separation element 6 or under the separation element 6 and connected to at least one high pressure channel 15.

The chamber of variable or predetermined volume of the device 5 is filled, for example, with a fluid equal to the pressure of the annulus or tube space or of the high pressure hydraulic channel, or a spring 12 is installed in it, which allows either compressing or squeezing the device with a chamber of variable volume 5, providing the ability to move the regulatory element 7.

The pressure in the inner chamber 8 is changed by means of a high-pressure channel, which compresses or expands the device with a chamber of variable or predetermined volume 5, for example, a bellows, and, consequently, moves the regulating element 7 up or down from the “closed” position to "Open" or vice versa, which compresses or expands the camera variable or predetermined volume of the device 5.

The change in pressure in the inner chamber 8 is carried out remotely from the surface in real time by means of a high pressure channel 15.

The pressure in the inner chamber 8 is regulated and, accordingly, the regulation is carried out by moving the control element 7 by means of a device with a variable volume chamber 5.

The compression of the chamber of a variable or predetermined volume of the device 5 leads to the movement of the regulating element 7, made in the form of, for example, a cylinder, and the opening of the bypass or bypass holes 3 or 3 and 11 and, accordingly, to access the fluid flow from the annulus to the hollow element 2 and then into the tubing space, and the expansion of the chamber of a variable or predetermined volume of the device 5 leads to the displacement and return to the initial state of the “closed” position of the control element 7 and the bypass or bypass closure GOVERNMENTAL holes 3, or 3 and 11 and, correspondingly, to close the fluid flow from the annulus access.

The production volume is controlled by transferring fluid from the formation to the tubing in-pipe space by means of the bypass or bypass holes 3 into the inner space of the hollow element 2, and then into the tubing in-pipe space and then entering the surface.

The regulation of the volume of injection of the working agent or fluid production is carried out by changing the size of the cross-section of the bypass holes 3 or 3 and 11 or the total size of the cross-sections of the bypass holes 3 or 3 and 11, as well as by changing the number of bypass holes 3 or 3 and 11, which helps to reduce hydraulic losses and increases operational efficiency, including by increasing the discreteness of changes in control modes. By changing the pressure in the high-pressure channel 15 in a predetermined, for example, in a cyclic mode, remote control is carried out by injection or production with a specific mode of operation of the well, including in cyclic mode.

The proposed technical solution allows to increase the efficiency of the device by reducing hydraulic losses and increasing the pressure control range provided by changing and exceeding the pressure inside the chamber of a variable or predetermined volume over the pressure in the inner chamber, as well as the number of bypass holes or the total size of the cross-sections of the bypass holes of the hydraulic regulator .

Claims (10)

1. The hydraulic regulator, consisting of a housing of at least one bypass and at least one inlet, there is a device with a camera of variable or predetermined volume inside the case, a control element connected to the device with a camera of variable or predetermined volume, characterized the fact that it is additionally equipped with a hollow element made with the housing in one piece or separately, and a dividing element located in the housing and made with the possibility of tight separation of the bypass whether there are bypasses from the inlet or inlets, with the formation of an inner chamber or inner and bypass chambers in the housing, while the inlet or inlets are located in the inner chamber, the control element is capable of tightly moving inside the separation element or in the space between the side wall of the housing and a dividing element with the possibility of tight closure of the bypass or bypass holes. 2. The hydraulic regulator according to claim 1, characterized in that the separating element is a sealing insert with through and bypass holes. 3. The hydraulic regulator according to claim 1, characterized in that the separating element is a sealing wall with a through hole. 4. The hydraulic regulator according to claim 1, characterized in that it is further provided with a movable element or a connecting node. 5. The hydraulic regulator according to claim 1, characterized in that it is additionally equipped with a lock made in the form of a latch or centralizer, located in the housing for fixing and centering the position of the regulatory element. 6. The hydraulic regulator according to claim 1, characterized in that it is additionally equipped with a fitting. 7. The hydraulic regulator according to claim 1, characterized in that it is further provided with a plug. 8. The hydraulic regulator according to claim 1, characterized in that it is additionally equipped with a check valve. 9. The hydraulic regulator according to claim 1, characterized in that it is further provided with a sealing element. 10. The hydraulic regulator according to claim 9, characterized in that the sealing element is a nipple or stuffing box.

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