EA038348B1 - Sand valve for rod screw pump units - Google Patents

Abstract

The invention relates to the field of borehole mining of liquid mineral resources. A sand control valve for sucker rod pumping units enabling adjustment of its activation delay time and increasing reliability and life of both the valve and the pump due to the fact that the sand control valve is made in the form of two check valves placed serially in one housing. The spool of the upper drain valve is designed as a spring-actuated cylinder, its cheek sealing drain holes in the body of TBG, and its actuator valve installed as a movable device on the beam above its upper end surface. Under the spool of the drain valve, there is a lower back valve, its sealing element also installed on the beam as a movable device. When both valves are shut, a closed cavity is formed between them, connected with the annular space via the drain valve as liquid is discharged to the annular space. Such sand valve design enables tuning the delay in activating the drain valve used to sediment and discharge the fluid head of heaviest mechanical admixtures from TBG, increase its reliability and operating resource, protect electrical submersible motor against its sharp overload in case a stable sand plug forms, reduce operational costs of oil production due to longer well cleaning and inter-repair intervals.

Description

The invention relates to the field of downhole production of liquid minerals, namely to valve mechanisms for controlling the fluid flow of sucker rod screw pumping units (VNU), designed to prevent the formation of sand plugs in the tubing during pump stops and can be used when flushing Tubing, when draining fluid from the tubing string before lifting them for underground well workovers.

A known valve for controlling the flow of fluid during the operation of wells by a submersible sucker rod pumping unit (United States Patent No. US 9027654 B2, Valve With Shuttle. May 12, 2015. Inventor: Lawrence Osborne), containing a spring-loaded spool-type drain valve with a conical sealing collar, mated to closed position with a sealing shoulder of the seat on the body of a disc-type drain valve, movably fixed to the activator rod, which receives the weight of the liquid column in the lift pipe and activates the action of the drain valve to discharge liquid into the annulus.

The disadvantages of the known valve design include the fact that its activation occurs immediately after the pump stops with liquid discharge from the tubing, in which the particles of mechanical impurities are still evenly distributed over its entire height.

After it is closed, a sufficient amount of sand can remain in the remaining part of the liquid column above the valve for the subsequent formation of a dense sand plug during long breaks. Subsequent starting of the pump can lead to overheating of the electric motor and its failure.

In addition, the conical shape of the closing part of the movable spool and the seat of the drain valve has a low resource, because when dumping liquid with sand, this part of the seal will undergo intense water-jet wear and loss of its tightness.

This principle of activating the drain valve has another significant operational drawback - the discharge of a significant column of liquid from the lift pipe above the device during the subsequent start-up of the pumping equipment will result in an overconsumption of electricity spent on its subsequent filling to the wellhead.

The objective of the invention is to develop a design of a sand control valve that allows you to adjust the delay time of the start of activation of the drain valve for sedimentation and discharge only the most highly concentrated mechanical impurities of the liquid column from the tubing, increasing its reliability and service life, protecting the electric motor from sudden overload during the formation of a stable sand plug, reducing operating oil production costs by increasing the intertreatment and turnaround time of wells.

For this, the sand control valve is made in the form of two check valves arranged in series in one housing (Fig. 1). Moreover, the spool of the upper drain valve is made in the form of a spring-loaded cylinder, the side surface of which serves as a sealing and overlaps the drain holes in the tubing body, and its disk-type activator is movably mounted on the rod and located above its upper end surface.

A lower check valve of the same type is located under the spool of the drain valve and, in the closed position of both valves, when the pump is stopped, forms a closed cavity between them, which can be connected to the annular space by means of a drain valve with a bellows-type activator. As it can be used a valve from the so-called. mandrels of a gas-lift installation.

The regulation of the delay time for the start of activation of the drain valve is carried out by changing the pressure P _{from the} inert gas in the bellows of the drain valve when filling it. The required duration of the response delay for dumping the liquid column from the tubing will be determined by the concentration and rate of sedimentation of sand in the liquid, as well as the recovery time of the hydrostatic level of the liquid in the well.

Due to the presence of this device, there is no need to assemble downhole equipment with standard check and drain valves, the functions of which it can simultaneously perform. The same device allows carrying out various technological operations associated with pumping process fluids into the annulus with the pump turned off.

The proposed design also makes it possible to communicate the tubing channel with the annular space for complete drainage of fluid from the tubing by pneumatic action from the surface part (from the wellhead) during routine and major well workovers.

If a stable sand plug forms after a long shutdown of the pump, during its subsequent start there is a danger that the fluid pressure from the pump will not be enough to push it through the tubing. In this case, the drain valve will work as a safety valve and the liquid will be partially discharged into the annulus. This will also prevent a sudden increase in pressure between the sand valve and the pump, and mitigate the sudden increase in the load on the electric motor.

The invention is illustrated by graphical applications, where FIG. 1 and 2 show designs with actuator valves, respectively, of the disk and ball types for the operation of wells by sucker rod pumping units.

In the above figures, position (a) is the position of its elements during the operation of the deep-well pump, and 1038348 position (b) is the position of the valve elements after stopping the deep-well pump at the moment of activation and discharge of the liquid column with mechanical impurities into the annulus.

The design of the sand control valve (see Fig. 1) consists of two main elements - the drain valve unit itself and the unit for adjusting the delay time of the start of its activation, located in series. The unit of the drain valve of the device consists of a movable cylindrical spool 2, the side surface of which adjoins the inner wall of the tubing 3 and closes the drain holes 4, the disc-type drain valve activator 1 is movably mounted on the rod 12. In the lower part, the spool of the drain valve rests on the adjusting spring 5 with a retaining ring 6 on the thread, which allows you to adjust the tightening force of the spring 5.

The unit for adjusting the delay time of the start of activation of the drain valve consists of a disc-type check valve 7 movably mounted on the rod 12, a drain valve 8 with a bellows-type activator 9 controlled by the intertubular pressure.

Between the drain and check valves, in their closed positions, a sealed cavity 10 is formed, which can communicate with the annular space by means of a drain valve 8 through drain holes 11.

The ball type actuator sand valve shown in FIG. 2.

The device works as follows.

When the screw pump is operating (see Fig. 1a), under the action of the fluid pressure, both upper 1 and lower 7 check valves are open, and the process of pumping fluid from the well is in progress. The drain holes 4 in the valve body are closed by the spool 2 of the drain valve under the action of the spring 5 and partially due to the hydraulic resistance to the fluid flow created by the spool 2.

After stopping the pump (see Fig. 1b) due to the lack of pressure, the disk activator 1 of the drain valve 2 installed on the rod 12, under the action of gravitational forces and the hydrostatic column of liquid in the tubing above it, sits on the spool 2. At the same time, the lower check valve 7 is closed. However at the initial moment, after stopping the pump, this force is not enough to move the spool 2 and open the drain ports 4, since the forces acting on the spool of the drain valve are balanced by the force of the spring 5 acting on it from below and the residual fluid pressure in the closed volume 10 with the lower check valve closed 7.

At this moment, the drain valve 8 is closed, because the pressure in the bellows 9 is greater than the annular pressure of the liquid (corresponds to the hydrodynamic pressure in the annular space during pump operation).

As the formation fluid inflows, the fluid level in the annulus gradually increases, and when it exceeds the pressure P _c in the bellows 9, the drain valve 8 begins to bleed fluid from the closed volume 10 through the drain valve 8 into the annulus, lowering the pressure in it. At the moment of reaching a differential pressure across the drain valve 2, sufficient to overcome the force of the spring 5, the spool of the drain valve 2 is displaced downward, opening the drain holes 4 in the body 3. The process of dumping the liquid column from the tubing into the annulus begins.

In the process of draining the fluid from the tubing into the annulus, the fluid level in the annulus rises rapidly, which leads to a more intense increase in external pressure on the bellows 9 and contributes to the complete opening of the drain valve 8. This will facilitate the further movement of the spool 2 and the complete opening of the drain ports 4 for dumping fluid into the annulus.

In the period from the pump stop and the growth of the annular pressure to a value sufficient for the drain valve to operate, sedimentation of the largest particles of mechanical impurities occurs, which can form a sand plug.

Such a delay in the actuation of the sand control valve allows you to discharge the most highly concentrated mechanical impurities column of liquid from the tubing, prevent the formation of sand plugs above the pump and reduce the power consumption for filling the vacant part of the lift pipe during the next start-up.

The cylindrical shape of the drain valve spool has a larger through hole for pumping liquid (therefore, creates less hydraulic resistance), is more reliable than the cone shut-off in the prototype, and is less prone to water-jet wear.

The sand control valves with activators and valves of other types, shown in Fig. 1, have a similar operating principle. 2, 3 and 4.

Claims (4)

CLAIM 1. Anti-sand valve for sucker rod pumping units, comprising a housing, a spring-loaded spool type drain check valve that closes the drain holes in the housing, as well as a check valve installed inside, characterized in that the upper drain valve spool is made in the form of a cylinder, the side surface of which overlaps drain holes in the body, its disc or ball type activator valve is installed movably on the rod above its upper end surface, and the lower disc or ball type check valve is installed movably on the rod under the drain, while between the drain and check valve there is cavity with a window equipped with a drain valve, when triggered, the cavity communicates with the annular space. 2. The anti-sand valve for sucker rod screw pumping units according to claim 1, characterized in that the valve activator of the drain valve and the lower check valve are made of a ball type. 3. Anti-sand valve for sucker rod screw pumping units according to claim 1, characterized in that the valve activator of the drain valve is made of a ball type, and the lower check valve is made of a disk type. 4. The anti-sand valve for sucker rod pumping units according to claim 1, characterized in that the valve-activator of the drain valve is made of disc type, and the lower check valve is made of the ball type.