RU2389905C2 - Uplifting method of formation fluid, and pump unit for method's implementation - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: uplifting method of formation fluid involves lowering of suction device with plunger and valves to tubing string mounted inside casing string of the well at the fluid flowing from bottom-hole area to inter-tube and above-plunger area and from inter-tube space to inner cavity of tubing string. Plunger creates negative pressure in bottom-hole area. Forced opening and closing of plunger valve. Forced closing of above-plunger area in tubing string above plunger valve when plunger is lowered at the distance of plunger travel, and its opening when plunger is raised. Lowering - uplifting of suction device is performed by action of force on plunger. Plunger valve is kept closed at lifting and lowering of plunger, and opened and closed in forced manner when suction device is in lower position within the travel of plunger valve relative to its seat. Pump unit includes casing string, tubing string. A packer is installed in bottom-hole area. In bore of suction device there mounted is a valve. Drive traction member is arranged in tubing string and connected to suction device. Cutoff valve is mounted above plunger valve. Traction member is connected to plunger. Lower part of bottom-hole packer is equipped with support platform in which there are channels connecting inter-tube and bottom-hole space to the space below the valve. Seat of plunger valve is made in lower part of plunger. Valve is mounted in a flexible manner relative to plunger and equipped with an end stop having the possibility of contacting the support platform the length of some part of which projecting behind lower plunger surface corresponds to value of valve travel relative to its seat. Plunger has a support part to interact with elastic coupling of plunger valve, in which there made are channels connecting the space under plunger to the space above plunger.

EFFECT: excluding the possibility of overflow of uplifted fluid from inter-valve space to inter-tube space during downward plunger travel.

6 cl, 4 dwg

Description

The invention relates to the field of oil production and can be used to lift fluid from wells of any depth by means of a plunger suction device, including inclined and curved.

A known method of raising the reservoir fluid, including lowering the plunger pump into the well, creating a vacuum in the bottomhole space, opening the pump valve, filling the subplunger space with liquid, closing the valve and raising the liquid in the superplunger space to the surface (Oilfield Equipment. Reference. Edited by E.I. Bukhalenko. M., Nedra, 1990, p. 53, fig. 2.1).

Known pump installation for lifting formation fluid containing a casing string, a string of tubing, a packer installed in the bottom zone, a pump with a plunger and valves, as well as a traction body in the form of a rod with a drive device (Oilfield equipment. Reference. Edited by E.I. Bukhalenko. M., Nedra, 1990, p. 53, fig. 2.1).

The disadvantages of this method and device are low productivity and low longitudinal stability of the rods, which limits the depth of the liquid. In addition, the valves of the device are prone to freezing and rapid wear, which also reduces performance due to the need to stop equipment for repair.

To increase the productivity of the installation, for example, hydraulic piston units are known (Oilfield equipment. Handbook. Edited by E.I. Bukhalenko. M., Nedra, 1990, p. 169, Fig. 4.10), to increase the reliability of lifting bodies, for example pumping fluid into the boom cavity (USSR Author's Certificate No. 1627751, MKI 5 F04B 47/02), installation of additional rods and pumps (Russian Patent No. 2184271, MKI 7 F04B 47/02), as well as flexible traction bodies (Russian Patent No. 2114322 MKI 7 F04B 47/02).

A known method of raising the reservoir fluid, including the descent of the suction device with the plunger and valve into the tubing string mounted inside the casing string of the well, creating a rarefaction plunger in the bottom hole space, opening the valve, filling the plunger space with liquid, closing the valve and raising the liquid in the plunger space to the surface, while ensuring access of fluid from the bottomhole space to the annular and supraplunger spaces and, in addition, from the annular space into the inner cavity of the tubing string, and the valve is opened at the initial moment of plunger descent and closed at the initial moment of plunger lifting by forced action (Russian Patent No. 2220325, MKI 7 F04B 47/22).

A well-known pumping unit containing a casing string, a tubing string, a packer installed in the bottomhole zone, a suction device with a plunger and a valve, as well as a traction body with a drive device, while the suction device plunger is located directly in the tubing string pipes, and the valve is mounted in the bore of the plunger, in the packer there are channels connecting the bottomhole space with the annulus, in the plunger there are channels connecting the plunger space with under valve, and in the tubing string above the packer, holes are made connecting the annular space with the internal cavity of the tubing, and the traction unit is connected directly to the valve and is made in the form of a flexible element covering the idle block mounted in the bottom hole and connected with a drive device, one branch of which carries a valve, and the other is passed through a window in the packer (Russian Patent No. 2220325, MKI 7 F04B 47/22).

The disadvantage of this method and the pumping unit is the possibility of leakage of the liquid being lifted from the supra-plunger space when the plunger moves down, which leads to a decrease in productivity.

In addition, a well-pumping unit with a flexible traction unit requires quite complicated installation and repair work related to the installation and maintenance of the deflecting roller and the bending block located in the bottom hole.

A known method of raising the reservoir fluid, adopted as a prototype, including the descent of the suction device with a plunger and a valve into the tubing string mounted inside the casing string of the well, while providing fluid access from the bottomhole space to the annular and supraplunger spaces and from the annular space into the internal cavity of the tubing string, the creation of a vacuum plunger in the bottomhole space, the forced opening of the plunger valve in the the first moment of the plunger descent and forced closure of the plunger valve at the initial moment of the plunger rise, while during the descent of the plunger the plunger space is forcedly closed in the tubing string above the plunger valve at a stroke distance of the plunger and open it when the plunger rises (Patent RU 2292487, MKI 7 F04B 47/02).

A known pump installation, adopted as a prototype, containing a casing string, a tubing string, a packer installed in the bottom-hole zone, which has channels connecting the bottom-hole space with the annulus, a suction device with a plunger, in which the valve is mounted in the bore, and in the body channels are made connecting the sub-plunger space with the sub-valve, located in the tubing string, in which openings are made above the packer, connecting the annulus to the inside the upper cavity of the tubing, as well as the drive traction unit associated with the plunger valve and the shut-off valve mounted on the traction body, above the plunger valve, at a stroke distance of the plunger, with the possibility of interaction with the corresponding packer mounted in the tubing string pipes (Patent RU 2292487, MKI 7 F04B 47/02).

The disadvantage of this method and the pump installation is the possibility of fluid overflow from the inter valve space of the tubing string into the annulus during the plunger stroke down to the overlap of the holes communicating the valve space with the annular space, which leads to unproductive pumping of liquid from the annular space to the inter valve and, accordingly, to reduce the performance of the pumping unit.

The lifting fluid lifting force is transmitted by the traction body through the plunger valve, which leads to high contact stresses on the working surfaces of the valve-seat pair and, as a result, to their rapid wear and reduction of the overhaul periods.

The presence of holes in the tubing located above the packer adversely affects the durability and durability of the plunger seals, which two times per rise-lowering cycle pass through the edges of these holes at high pressure of the liquid column bursting the seals, which also leads to a reduction in the overhaul periods , a decrease in productivity and a deterioration in the economic performance of the well.

The problem solved by the invention in terms of the method of raising the reservoir fluid and the pumping unit for its implementation is to exclude the possibility of overflow of the fluid to be raised from the inter valve space of the tubing string into the annulus during the plunger stroke down.

This problem is solved as follows. In the known method of raising the reservoir fluid, including the descent of the suction device with the plunger and valve into the tubing string mounted inside the casing string of the well, while ensuring access of fluid from the bottomhole space to the annular and subplunger spaces and from the annular space to the inner cavity of the tubing string -compressor pipes, creation of a rarefaction plunger in the bottomhole space, forced opening and closing of the plunger valve, forced shut off e of the plunger space in the tubing string above the plunger valve when lowering the plunger at a plunger stroke distance and opening it when raising the plunger, according to the invention, the descent - raising of the suction device is effected by the force on the plunger, the plunger valve is kept closed when raising and lowering the plunger, and forcibly open and close in the lower position of the suction device within the stroke of the plunger valve relative to its seat.

In a known pump installation comprising a casing string, a tubing string installed in the bottomhole packer, which has channels connecting the bottomhole space with the annulus, a suction device with a plunger in the bore of which is mounted a valve located in the tubing string , a drive traction unit associated with the suction device and equipped with a shut-off valve mounted above the plunger valve, at a stroke distance of the plunger, with the possibility of interaction with the corresponding packer mounted in the tubing string, according to the invention, the traction member is connected to the plunger, the bottomhole packer in its lower part is provided with a support platform in which channels are connected connecting the annular and bottomhole spaces with the under-valve, while the valve seat is made in the lower part of the plunger, and the valve is mounted elastically with respect to the plunger and is equipped with an end stop having contact with the support platform, the length of which protrudes beyond the lower the surface of the plunger corresponds to the valve stroke relative to its seat, while the plunger has a support part for interacting with the elastic connection of the plunger valve, in which channels are made connecting the sub-plunger space with the plunger.

The traction member is connected to the plunger by means of a transitional part provided with through-holes, and the shut-off valve is mounted elastically in the longitudinal direction relative to the traction member, while an emphasis is mounted on the inner surface of the tubing string above the shut-off valve to interact with it, in which holes are made for the passage of fluid.

The plunger valve and the shut-off valve can be made conical, while the end stop is made in the form of a rod, and the shut-off valve is additionally equipped with an elastic element mounted between its lower surface and the thrust ring mounted on the traction body.

The plunger valve and the shut-off valve can be made ball, while the end stop is made in the form of a separator basket with the possibility of fixing the valve ball from falling out, and the shut-off valve is made in the form of several ball valves mounted in a common separator basket with the possibility of fixing balls from falling out, covering the traction body.

Thus, the possibility of overflow of fluid from the inter-valve space of the tubing string into the inter-pipe during the plunger stroke down is excluded.

Figure 1 shows the pumping unit (version with conical valves) in the lowest position at the time of filling the plunger space with formation fluid (the plunger valve is open, the shut-off valve is closed).

Figure 2 of the drawing shows a pumping unit (version with conical valves) at the time of raising the reservoir fluid (movement of the plunger up, the plunger valve closed, the shut-off valve open).

Figure 3 of the drawing shows the pumping unit (version with ball valves) in the lowest position at the time of filling the plunger space with formation fluid (the plunger valve is open, the shut-off valve is closed).

Figure 4 of the drawing shows a pumping unit (version with ball valves) at the time of raising the reservoir fluid (movement of the plunger up, the plunger valve closed, the shut-off valve open).

SUBSTANCE: method for raising formation fluid includes descent of a suction device with a plunger and a valve into a tubing string mounted inside the casing string of a well while providing fluid access from the bottomhole space to the annular and subplunger spaces and from the annular space into the inner cavity of the tubing string. , creating a rarefaction plunger in the bottomhole space, forcing the opening and closing of the plunger valve in the lower position of the suction device VA within the stroke of the plunger valve relative to its seat, the forced overlapping of the plunger space in the tubing string above the plunger valve when the plunger is lowered at a plunger stroke distance and it is opened when the plunger is raised, while the suction device is lowered and raised by the force exerted on the plunger and the plunger valve is kept closed when raising and lowering the plunger.

Thus, it eliminates the possibility of fluid flow from the inter valve space of the tubing string into the annular space during the plunger stroke down, the overhaul periods increase and the well productivity increases.

The method of raising the reservoir fluid is implemented in the pumping unit described below.

The pump installation consists of a casing string 1 with a filter in the bottom-hole space, a tubing string 2 supported by a packer 3 with a support pad 4 mounted in the bottom-hole space, a plunger 5 installed in the tubing string 2, while in a valve 6 is installed in the plunger 5, which can interact with a seat 7 made on the inner surface of the bore of the plunger 5. Inside the plunger 5 there is a support part 8, through which the shank of the valve 6 is passed, and between the support part 8 and valve pan 6 mounted elastic element 9, for example a spring or elastic sleeve. The valve 6 is equipped with an end stop 10 that can interact with the support platform 4, the length of the part protruding beyond the lower surface of the plunger 5, corresponds to the stroke of the valve 6 relative to the seat 7. In the support part 8, channels 11 are made connecting the bottomhole space with the above-plunger. The plunger 5 is connected to the traction body 12 through the adapter 13 with holes 14. The traction body 12 is movable from the drive 15.

In the packer 3, channels 16 are made connecting the bottomhole space with the annulus.

On the traction body 12 above the valve 6, at a stroke of the plunger 5, a shut-off valve 17 is installed, and in the column of tubing 2 a packer 18 is installed with the possibility of interaction with the seat 19 with the shut-off valve 17. The shut-off valve 17 has the ability to interact with the stop 20 mounted on the tubing string, and between the shut-off valve 17 and the stop 20, an elastic element 21, for example a spring or an elastic sleeve, is mounted, while the elastic element 21 provides a reliable pressing of the valve 17 to the saddle 19 of the packer compartment 18, as well as exhaust compensation and inaccurate installation of the shut-off valve 17 along the length of the traction member 12. In the support 20, channels 22 are made for the passage of fluid into the cavity of the tubing and then to the surface.

The plunger valve 6 and the shut-off valve 17 can be made conical (version 1, 2) or ball (version 3, 4).

In the case of valves 6, 17 being tapered, the stop 10 is made in the form of a shank, while the shut-off valve 17 is equipped with an elastic element 24 mounted between its lower surface and the thrust ring 23 mounted on the traction body 12.

In the case of ball valves 6, 17, the end stop 10 is made in the form of a separator basket with the possibility of fixing the valve ball from falling out, and the shut-off valve 17 is made in the form of several ball valves mounted in a common separator basket 25 with the possibility of fixing the balls from falling out covering the traction body 12, which has the ability to interact with the thrust ring 23 and the elastic element 26.

Ball valves are currently predominantly used, and fixing balls from falling out allows the use of a pumping unit in deviated and curved wells.

The pump installation operates as follows.

The traction member 12 by means of the actuator 15 lowers the plunger 5, while the plunger valve 6 is in the closed position. At the end of the descent of the plunger 5, the end stop 10 of the valve 6 abuts against the support platform 4, ensuring the rise of the valve 6 above the seat 7 and the flow of fluid from the bottomhole zone and the annular space into the valve space. When lifting the plunger 5, the valve 6 remains in place, and the seat 7 together with the plunger 5 is pulled to the valve 6 until it is in full contact with it. Thus, the valve 6 is closed and is in a closed state throughout the ascent and subsequent descent.

The shut-off valve 17 in the process of moving the plunger 5 down comes into contact with the saddle 19 of the packer-shut-off valve 18, while the overflow of the liquid to be lifted into the supra-plunger space and from the supra-plunger space to the bottom hole is blocked.

In the process of moving the traction member up, the shut-off valve 17 moves away from the saddle 19 of the packer-shut-off valve 18. Thus, the plunger 5 with the closed valve 6 lifts the formation fluid located in the above-plunger space through the opened shut-off valve 17 to the surface.

Following the plunger 5, a column of liquid from the bottomhole and annular spaces rushes into the subplunger and when the plunger moves upward through the open shutoff valve 17 it enters the surface.

Claims (6)

1. The method of raising the reservoir fluid, including the descent of the suction device with a plunger and a valve into the tubing string mounted inside the casing string of the well, while ensuring access of the fluid from the bottomhole space to the annular and supraplunger spaces and from the annular space to the inner cavity of the tubing string -compressor pipes, creation of a rarefaction plunger in the bottomhole space, forced opening and closing of the plunger valve, forced overlapping of the plunger the space in the tubing string above the plunger valve when lowering the plunger at a distance of the plunger stroke and opening it when lifting the plunger, characterized in that the descent - raising of the suction device is effected by the force on the plunger, the plunger valve is kept closed when raising and lowering the plunger, and forcibly open and close in the lower position of the suction device within the stroke of the plunger valve relative to its seat. 2. A pump installation comprising a casing string, a tubing string, a packer installed in the bottom-hole zone, which has channels connecting the bottom-hole space with the annulus, a suction device with a plunger, in the bore of which a valve is mounted, located in the tubing string , a drive traction member associated with the suction device, and equipped with a shut-off valve mounted above the plunger valve, at a plunger stroke distance, with the possibility of interaction with the respective a packer installed in the tubing string, characterized in that the traction unit is connected to the plunger, the bottomhole packer in its lower part is provided with a support platform in which channels are made connecting the annulus and the bottomhole space with the valve, while the valve seat made in the lower part of the plunger, and the valve has an elastic connection with the plunger and is equipped with an end stop having contact with the support platform, the length of which protrudes beyond the lower surface of the plunger, with It corresponds to the valve stroke relative to its seat, while the plunger has a support part for interacting with the elastic connection of the plunger valve, in which channels are connected connecting the sub-plunger space with the plunger. 3. The pump installation according to claim 2, characterized in that the traction member is connected to the plunger by means of a transition piece provided with through holes. 4. The pump installation according to claim 2, characterized in that the shut-off valve is mounted elastically in the longitudinal direction relative to the traction member, while an emphasis is mounted on the inner surface of the tubing string above the shut-off valve to interact with it; openings for the passage of fluid. 5. The pump installation according to claim 2, characterized in that the plunger valve and the shut-off valve are conical, the end stop is made in the form of a rod, and the shut-off valve is equipped with an elastic element mounted between its lower surface and a thrust ring mounted on the traction body . 6. The pump installation according to claim 2, characterized in that the plunger valve and the shut-off valve are made of ball, the end stop is made in the form of a separator basket with the possibility of fixing the valve ball from falling out, and the shut-off valve is made in the form of several ball valves mounted in a common basket-separator with the ability to fix the balls from falling out, covering the traction body.

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