RU2746916C1 - Device for dosing reagent supply into the well - Google Patents

Abstract

FIELD: oil industry.SUBSTANCE: invention relates to the oil industry and can be used for uniform dosing of a chemical reagent during oil production in difficult conditions using sucker rod pump installations. The device is installed in a well below a sucker rod pump, contains a container with a liquid reagent with a dosage hole, communicated with a positive displacement plunger pump - a dispenser with a drive, the response frequency of which is proportional to the oscillation frequency of the sucker rod pump drive. The device is equipped with a unit for supplying a displacing liquid into a container with a liquid reagent, made in the form of a gravitational separator, the channels of which in the upper part are connected to check valves. The plunger of the metering pump is connected to the suction valve of the sucker rod pump; a porous element is installed above the metering hole in the container with the liquid reagent.EFFECT: design is simplified and the reliability of the device is increased.1 cl, 2 dwg

Description

The invention relates to the oil industry and can be used for uniform dosing of a chemical reagent during oil production in difficult conditions using sucker rod pumps (SUPS).

A device for supplying a chemical reagent to a well is known, comprising a cylindrical body with an upper cover and a bottom overlapped from below with a dosage hole for the reagent to flow out. The body contains a hollow tube, one end of which is immersed in the reagent, and the other is mounted in the inlet of the upper cover and is hydraulically connected to the annulus. An inlet module is mounted on the upper cover of the casing, which is a gravity separator "water-oil" communicating with the hollow tube and preventing formation water from entering the casing. The inlet module is made in the form of a thick-walled cylinder having a central through channel and internal axial channels evenly spaced around it along the circumference, radial inlet openings made under the intake hood and connected to the lower part of the axial channels. The axial channels in their upper part are communicated with the central channel by means of inclined connecting bores. The device is designed to ensure a constant flow rate of the chemical reagent into the well without changing its concentration [patent RU No. 2624850, IPC E21B 37/06, publ. 07.07.2017].

The disadvantages of the known device include the possibility of clogging of the dosage hole by mechanical impurities, which is due to its small diameter. This will disrupt the operation of the device and lead to its failure. During the operation of the input module, the gas released from the formation liquid can form a gas plug in the upper part of the module, which prevents the device from operating. When the well conditions change (for example, water cut during waterflooding), the density of the produced fluid can change, which will lead to a change in the reagent consumption and a decrease in the effectiveness of protection of downhole equipment in difficult operating conditions.

Known is a submersible chemical reagent dispenser device containing a cylindrical body, on one side of which a sealed module with an intelligent unit is installed. On the other side of the body there is a base with a mixing chamber, with a controlled valve and with an outlet channel communicated with the mixing chamber. The intelligent unit is connected by an electrical conductor in an insulated sheath located in a sealed pipe with a controlled valve. The inner cavity of the cylindrical body is made hermetically sealed with the possibility of filling with formation fluid and chemical reagent, and is hermetically separated by a piston. The sealed tube is the piston guide and is located along the axis of the cylindrical body. At the base of the dispenser there is additionally made a filling channel of a chemical reagent with a valve.As a controlled valve, an electromagnetic valve is installed, made with the possibility of opening or closing by a control signal. The solenoid valve is installed in the output channel, the Intelligent unit is connected to the neutral wire of the three-phase electric drive of the submersible pump [RU patent No. 2 625 839 IPC E21B 37/06, publ. 07/19/2017].

The disadvantages of the known device include the possibility of freezing or loss of sealing properties of the movable piston, which leads to failure of the device. The need to supply electricity to power the drive and the operation of the device determines the complexity of its design and high cost. The limited resource of the solenoid valve and the low reliability of the intelligent control unit cause a high probability of failure when the described device is operating in the well.

The closest to the claimed device in terms of the totality of features is a device for dosed supply of the reagent into the well. This device contains a container for a reagent installed in the well below the oil-producing equipment and a reciprocating pump-metering pump communicated with it and having its own drive. The cavity of this pump has the ability to connect the suction channel to the reservoir for the reagent, and the injection channel to the well. The metering pump is made in the form of a single-acting piston hydraulic cylinder, which is located in the device body and installed on the tubing string. The piston cavity of the cylinder is hydraulically connected by a channel to the container for the reagent and to the suction channel of the metering pump, and the piston is mechanically connected to the casing by means of an anchor. The container for the reagent can be refilled from the surface by means of a capillary channel. The container with the reagent has a movable piston-separator, which prevents mixing of the formation fluid with the reagent [RU patent No. 2664568, IPC E21 B 37/06, publ. 08.21.2018].

The drive of the described device for the dosed supply of the reagent into the well is a pumping unit, therefore, during operation, the body of the device reciprocates together with the tubing. When the body moves upward, the reagent from the container through the open valve enters the cylinder of the metering pump. When the body moves down, the valve closes and the reagent displaced by the piston from the cylinder enters the well.

The flow rate of the reagent supplied to the well can be controlled by a controlled valve. When a signal is sent to the controlled valve, its mechanism changes position, blocking the piston cavity, and connects the cavity of the metering pump and the discharge channel. In this case, the amount of reagent in the cavity of the metering pump is displaced by the piston under the action of a spring into the injection channel and then into the well. The flow rate of the reagent supplied to the well is regulated by changing the time between the solenoid valve actuations. As the reagent is consumed, the movable separating piston of the container goes down. When the lower sensor is triggered, a signal is sent to fill the container through the capillary channel, which stops when the dividing piston reaches the upper sensor. This device is adopted as a prototype.

Signs of the prototype, coinciding with the essential features of the claimed invention, - a device for dosed supply of the reagent into the well, installed in the well below the sucker rod pump, containing a container with a liquid reagent with a dosing hole, communicated with a volumetric plunger metering pump with a drive, the response frequency of which is proportional the oscillation frequency of the sucker rod pump drive.

The disadvantages of the known device, taken as a prototype, include the possibility of freezing or loss of the sealing properties of the movable piston-separator, which causes the failure of the device; the complexity of the design and adjustment of the reagent dosing regimen; the complexity of accurate installation in the casing of the anchor.

The problem to be solved by the present invention is to simplify the design and increase the reliability of the device for the dosed supply of the reagent into the well.

The problem was solved due to the fact that the known device for the dosed supply of the reagent into the well, installed in the well below the sucker rod pump, containing a container with a liquid reagent with a dosing hole, communicated with a volumetric plunger metering pump with a drive, the response frequency of which is proportional to the frequency rocking of the sucker rod pump drive, according to the invention, is equipped with a unit for supplying a displacing fluid to a container with a liquid reagent, made in the form of a gravity separator, the channels of which in the upper part are connected to check valves, while the metering pump plunger is connected to the suction valve of the sucker rod pump, and A porous element is additionally installed above the dosing hole in the container with the liquid reagent.

Signs of the proposed technical solution, distinguishing from the prototype, - a unit for supplying a displacing liquid into a container with a liquid reagent, made in the form of a gravitational separator, the channels of which in the upper part are connected to check valves; the plunger of the metering pump is connected to the suction valve of the sucker rod pump; A porous element is additionally installed above the dosing hole in the container with the liquid reagent.

The drive of the metering pump of the proposed device from the suction valve of the sucker rod pump provides a stable and uniform supply of the liquid reagent into the well. The plunger of the metering pump is connected to the suction valve of the sucker rod pump, for example, by means of a rod with a permanent magnet installed at the end of the rod. At the same time, the installation of the device in the well does not require additional operations.

The porous element installed in the container with the liquid reagent above the dispensing hole protects the dispensing hole from clogging with mechanical impurities, and also reduces the rate of flow of the liquid reagent from the dispensing hole, as it is an additional hydraulic resistance.

The use of a gravity separator in the design of the proposed device makes it possible to separate oil from the well fluid, and to use the separated oil as a displacing liquid of a water-soluble chemical reagent from a container with a dosage hole.

The installation of check valves in the upper part of the gravity separator ensures the removal of free gas and the prevention of the formation of a gas lock, which determines the stable operation of the proposed device.

On the basis of the foregoing, the inventive device for dispensing a reagent into a well is a technical solution, has novelty and has an inventive step, since it is unknown from the prior art and for a specialist does not explicitly follow from the prior art. The industrial applicability of the device is confirmed by the possibility of its implementation using known means used in the oil industry and materials.

The essence of the device is illustrated by drawings, where Fig. 1 shows a longitudinal section of the claimed device.

FIG. 2 shows a cross-section of a gravity separator.

The device for the dosed supply of the reagent into the well (Fig. 1) consists of a container 1 made of a smooth pipe and filled with a liquid water-soluble reagent 2, a plunger metering pump 3 with a plunger 4 and a check valve 5 installed inside, a connecting unit 6, a displacing supply unit liquid 7 into a container with a liquid reagent.

Tank 1 with a liquid reagent 2 is communicated with a volumetric plunger metering pump 3 with a drive, the response frequency of which is proportional to the frequency of oscillations of the sucker rod pump drive 8. The displacement fluid supply unit 7 into the liquid reagent tank is made in the form of a gravity separator with holes 9 for the reservoir liquid, Channels 10 of the supply unit 7, which is a gravity separator "water-oil", are connected in the upper part with check valves 11.

A rod 12 with a magnet 13 mounted on it is fixed to the plunger 4, to which a rubber protective plate 14 is vulcanized to damp shocks against the ball 15 of the suction valve 16, which is paired with the seat 17 of the suction valve 16 of the sucker rod pump 8.

Inside the distributor 18, located in the lower part of the container 1, a porous element 20 is installed in the positioning cylinder 19 above the dispensing opening 21.

The stroke of the plunger 4 is limited by the lifting height of the ball 75 of the suction valve 16 of the rod pump 8. Depending on the viscosity of the chemical reagent 2 placed in the container 1, the parameters of the porous element 20 are calculated.

Mechanized device for dispensing reagent c. the well is installed under the sucker rod pump 8 by means of the connecting unit 6 and operates as follows.

A mechanized device for dispensing the reagent into the well is connected to the pump 8 by means of the connecting unit 6 and is lowered into the well as part of the assembly of the sucker rod pumping unit. The container 1 is filled with a liquid water-soluble reagent 2, and the plunger 4 of the metering pump 3 is connected to the ball 15 of the valve 16 by means of a rod 12 with a magnet 13 installed on it,

The well fluid enters the supply unit 7 (Fig. 1) through the holes 9 and passes through the channels 10 (Fig. 2), where, due to the low flow rate, it is separated into oil and water, that is, it is separated. In this case, oil, as a liquid with a lower density, accumulates in the upper part of the channels 10.

The accumulated free gas is discharged from the channels 10 of the supply unit 7 through the check valves 11.

When the suction valve 16 of the sucker rod pump 8 is opened, the rod 12 connected to it by a magnet 13 raises the plunger 4 and the previously separated oil from the channels 10 enters the metering pump 3.

When the suction valve 16 of the rod pump 8 is closed, the plunger 4 moves downward. Under the action of excess pressure, valve 5 opens and the separated oil enters the tank 1, while a certain volume of liquid reagent 2 is displaced through the porous element 20 and the metering hole 21 into the well. Since the liquid reagent 2 is water-soluble, it does not mix with the oil entering the tank 1, which ensures a constant concentration of the reagent 2 dosed into the well. Oil, as a liquid with a lower density, is concentrated in the upper part of the tank 1. Particles of mechanical impurities contained in the well products are separated during the operation of the supply unit 7, which is a gravitational separator, and the porous element 20, which prevents clogging of the dosage hole 21.

Thus, the use of the proposed device allows for a continuous uniform supply of a liquid reagent into the well during oil production in difficult conditions using sucker rod pump installations. The claimed device is characterized by simplicity of design and installation in the well.

Claims (1)

A device for dispensing a reagent into a well, installed in a well below a sucker-rod borehole pump, containing a container with a liquid reagent with a dosing hole, communicated with a volumetric plunger metering pump with a drive, the frequency of which is proportional to the frequency of oscillations of the sucker rod pump drive, characterized in that it is equipped with a unit for supplying a displacing fluid into a container with a liquid reagent, made in the form of a gravitational separator, the channels of which in the upper part are connected to check valves, while the plunger of the metering pump is connected to the suction valve of the sucker rod pump, and above the metering hole in the container with liquid a porous element is additionally installed with a reagent.

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