RU2813018C1 - Device for proportioned supply of reagent into well - Google Patents

Abstract

FIELD: oil production industry.

SUBSTANCE: used for proportioning chemical reagents into wells during oil production. A device for proportioned supply of a reagent into a well contains a body divided into two cavities by an elastic reservoir installed inside the device body between at least two fasteners. A displacing fluid is located outside the elastic reservoir, and the internal cavity of the elastic reservoir is filled with a liquid chemical reagent and is hydraulically connected to a piston metering pump that supplies the liquid chemical reagent into the well. The piston of the metering pump is mechanically connected to a support in contact with the walls of the well casing. The device body has the ability to move relative to the piston of the metering pump due to deformation of the tubing pipes on which the device is installed in the well. The support is made in the form of an elastic cuff with holes and is fixed relative to the walls of the well casing due to friction forces.

EFFECT: design of the device and its installation in the well are simplified, the reliability of the device and its operation are increased.

1 cl, 1 dwg

Description

The invention relates to the oil production industry and can be used for dosing chemical reagents into wells during oil production in difficult conditions using electric submersible pumps (ESP) operating in periodic mode.

A submersible chemical reagent dispenser is known [patent RU No. 2625839 IPC E21B 37/06, publ. 07/19/2017], containing a cylindrical body, on one side of which a sealed module with an intelligent block is installed, and on the other side a base with a mixing chamber, a controlled valve and an outlet channel connected to the mixing chamber is mounted. The intelligent unit is connected by an electrical conductor in an insulating sheath, located in a sealed pipe, to a controlled valve. The internal cavity of the cylindrical body of the submersible dispenser is hermetically divided into two parts by a movable separating piston. When installing a submersible proportioner into a well, the cavity of the cylindrical body above the separating piston communicates through the holes with the annulus of the well and is filled with a displacing fluid (formation fluid). The cavity of the cylindrical body under the separating piston is filled with a liquid chemical reagent. The cylindrical body guides the piston, which descends to the base of the dispenser when the liquid chemical reagent flows out.

At the base of the dispenser there is a channel with a valve for filling the liquid chemical reagent. A controlled solenoid valve is installed in the output channel, configured to open or close according to a control signal. The intelligent unit is connected to the neutral wire of the three-phase electric drive of the submersible pump. The supply of a liquid chemical reagent by a known device is carried out due to the fact that the reagent, under its own weight or under the pressure of the displacing fluid, enters the solenoid valve; when the solenoid valve opens, the liquid chemical reagent enters the mixing chamber, into which the formation fluid also enters, after which the formation fluid mixture with a liquid chemical reagent is removed from the chamber and falls into the well. The known device solves the problem of increasing the service life of a submersible dispenser by increasing the useful volume of liquid chemical reagent pumped into the dispenser while reducing the weight of the installation, increasing the reliability of the submersible dispenser, simplifying and increasing the safety of filling the container with liquid chemical reagent at the manufacturer's plant or at the wellhead in equipment installation time.

The disadvantages of the known device include: the possibility of freezing or loss of sealing properties of the movable piston, which can lead to failure of the device; the need to supply electricity to power the device drive, which determines the complexity of its design and high cost; limited service life of the solenoid valve and low reliability of the intelligent control unit, which leads to a high probability of failure when the described device operates in a well.

The closest to the claimed device in terms of the set of essential features is the known device for dosed supply of a reagent into a well [patent RU No. 2664568, IPC E21B 37/06, publ. 08/21/2018], accepted as a prototype. The known device is suspended in a well on a tubing string below a sucker rod pump and contains a housing with a movable separating piston and sensors for its extreme positions. A movable separating piston divides the body of the known device into two cavities: a cavity for a liquid chemical reagent and a cavity for a displacement fluid, hydraulically connected to the well space. A dosing pump made in the form of a single-acting hydraulic cylinder is hydraulically connected to the cavity for the liquid chemical reagent via a suction channel. The piston cavity of the metering pump is connected to the well space by a discharge channel in which a controlled valve is installed. The piston of the metering pump is connected by a mechanical rigid connection to the well casing via an anchor. The anchor is installed in the well separately from the reagent dosing device and is rigidly fixed to the walls of the well casing. After installing the anchor, the body of the device for dosing the reagent and the downhole pumping equipment is lowered and installed into the well. The supply of a liquid chemical reagent by a known device is carried out by a metering pump from the cavity with the reagent during reciprocating movement of the device body inside the casing due to deformation of the tubing string. In this case, the volume of the reagent supplied to the well is compensated by increasing the volume of the cavity for the displacing liquid when the separation piston moves inside the device body.

The presence of a controlled valve in the discharge channel of the metering pump allows you to regulate the flow rate of the reagent supplied to the well by changing the response frequency. The known device solves the problem of simplifying the design and increasing ease of use.

The essential features of the prototype, which coincide with the features of the claimed device, are the presence of a housing divided into two cavities, with one cavity hydraulically connected to the well space for supplying a displacement fluid, and the other cavity filled with a liquid chemical reagent and hydraulically connected to a piston metering pump, supplying a liquid chemical reagent into the well, while the piston of the metering pump is mechanically connected to a support in contact with the walls of the well casing, and the body of the device has the ability to move relative to the piston of the metering pump due to the deformation of the tubing pipes on which the device is installed in well.

The disadvantages of the known device, adopted as a prototype, include: the possibility of freezing or loss of sealing properties of the movable separating piston, which can lead to failure of the device; design complexity, and, consequently, low reliability; the difficulty of installing equipment in the well due to the rigid mechanical connection of the anchor (support) with the walls of the well casing; difficulty in setting up the reagent dosing mode; the need for an electrical or other monitoring and control line due to the presence of sensors and controlled elements.

The tasks to be solved by the proposed invention are: simplifying the design of the device and its installation in the well; increasing the reliability of the device and its functioning.

The objectives are solved due to the fact that in the known device for dosed supply of a reagent into a well, containing a housing divided into two cavities, one cavity is hydraulically connected to the well space for supplying a displacement fluid, and the other cavity is filled with a liquid chemical reagent and is hydraulically connected with a piston metering pump that supplies a liquid chemical reagent into the well, wherein the metering pump piston is mechanically connected to a support in contact with the walls of the well casing, and the device body can move relative to the metering pump piston due to deformation of the tubing pipes , in which the device is installed in a well according to the invention, the housing is divided into two cavities by an elastic reservoir installed inside the device housing between at least two fasteners, while a displacing liquid is located outside the reservoir, and the internal cavity of the reservoir is filled with a liquid chemical reagent and hydraulically connected to dosing pump, the support is made in the form of an elastic cuff with holes and is fixed relative to the walls of the well casing due to friction forces.

The features of the claimed invention, distinctive from the prototype device, are: a housing divided into two cavities by an elastic reservoir installed inside the device body between at least two fasteners, while a displacing liquid is located outside the reservoir, and the internal cavity of the reservoir is filled with a liquid chemical reagent and hydraulically connected to a dosing pump; the support is made in the form of an elastic cuff with holes and is fixed relative to the walls of the well casing due to friction forces.

An elastic reservoir dividing the device body into two cavities and installed inside it between at least two fasteners, made, for example, from a polyurethane-based material, performs the functions of storing a liquid chemical reagent in its internal cavity and separating it from the displacing liquid entering the inside the device body from the well as the chemical reagent is consumed. This makes the design simple and reliable, eliminates the need to use a separating piston and, therefore, eliminates the possibility of failure due to the piston hanging or the formation of a gap at the point of contact of the piston with the device body, which leads to a violation of the sealing of the cavity with the liquid chemical reagent from the well space.

Making the support in the form of an elastic cuff with holes, due to the properties of the material, for example, oil and petrol resistant rubber PF-T, does not require high precision during installation and, as a result, simplifies the process of installing the device in the well. The holes in the cuff allow the unhindered movement of fluid in the well.

Based on the foregoing, the claimed device for dosed supply of a reagent into a well is a technical solution, has novelty and has an inventive step, since it is not known from the prior art and does not clearly follow from the prior art for a specialist. 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 a drawing, which shows a schematic diagram of the proposed device in the form of a longitudinal section.

The essence of the claimed invention is as follows. A device for dosed supply of a reagent into a well consists of a connecting unit 1 with a fastening 2, for example a mounting hook, attached to the connecting unit 1 of a housing 3, made, for example, in the form of a smooth pipe, having holes 4, located coaxially inside the housing 3 of an elastic reservoir 5, filled with a liquid chemical reagent 6 and suspended at one end on a mount 2, and the other, fixed to a volumetric metering pump 7, for example, by means of a clamping ring 8. The volumetric metering pump 7 is connected to a support 9, made in the form of an elastic cuff with holes, resting on the wall of the casing string 10, and connected by means of a rod 11 passing through the sleeve 12, with a piston 13 located in the working chamber 14 of the volumetric dosing pump 7. The support 9 is fixed relative to the walls of the casing string 10 of the well due to friction forces.

The cavity of the working chamber 14 above the piston 13 is constantly in communication with the internal cavity of the elastic reservoir 5 using a compensation channel 15. The cavity of the working chamber 14 under the piston 13 has the ability to alternately communicate with the internal cavity of the elastic reservoir 5 and the annulus using a suction channel 16 equipped with a valve 17 , and a discharge channel 18, equipped with a spring-loaded valve 19. Also, the volumetric metering pump 7 has a filling channel 20, equipped with a check valve 21 and communicating with the internal cavity of the elastic reservoir 5.

The inventive device for dosed supply of a reagent into a well operates as follows. By means of connecting unit 1, the device is connected, for example, to the base of a submersible electric motor (SEM) of an electric centrifugal pump installation (not shown in the figure), lowered into the well on a tubing string. Before lowering the device into the well, an elastic reservoir 5, fixed at one end to a fastening 2, for example, a mounting hook, and located inside a housing 3 with holes 4, is filled with a liquid chemical reagent 6. In this case, the second end of the elastic reservoir 5 is fixed to a volumetric dosing pump 7, for example using a clamping ring 8.

When lowering the device into the well, support 9, made in the form of an elastic cuff with holes, in contact with the walls of the well casing 10 under the influence of friction forces, moves upward relative to the device, while rigidly connected to it by means of a rod 11 passing through the sleeve 12, piston 13 the volumetric metering pump 7 will not rest against the upper plane of the working chamber 14 of the volumetric metering pump 7, after which all elements of the device are lowered into the well synchronously. In this case, part of the liquid chemical reagent 6 in the cavity above the piston 13 of the working chamber 14 is forced into the elastic reservoir 5 through the compensation channel 15, and the cavity under the piston 13 of the working chamber 14 is filled with liquid chemical reagent 6 from the elastic reservoir 5 through the suction channel 16 through the valve 17 When lowering the device to a given depth, after starting the downhole pumping equipment (not shown in the figure), the pressure in the tubing string increases, which leads to its deformation in the form of elongation, as a result of which the device moves even lower in the casing string 10 When the operation of downhole pumping equipment is stopped, the pressure in the tubing string decreases, deformation is removed and the length of the string decreases. In this case, the device moves up to the initial depth of descent, however, due to the friction of support 9 in the form of an elastic cuff with holes on the wall of casing 10, support 9 remains in place, and piston 13 moves down the working chamber 14. Thus, a portion of liquid chemical reagent 6, located in the cavity under the piston 13 of the working chamber 14, is displaced along the discharge channel 18 through the spring-loaded valve 19 into the well, and the cavity above the piston 13 of the working chamber 14 is filled with liquid chemical reagent 6 through the compensation channel 15. At the same time, the volume of the internal cavity of the elastic reservoir 5 decreases, which is compensated by the displacement fluid entering the space between the housing 3 and the elastic reservoir 5 through the holes 4. When the downhole pumping equipment is turned on again, the device moves down, however, due to the friction of the support 9 in the form of an elastic cuff with holes against the casing wall column 10, support 9 remains in place, and piston 13 moves up the working chamber 14, thereby selecting the next portion of liquid chemical reagent 6 from the elastic reservoir 5. The cycle of dosing liquid chemical reagent 6 into the well is repeated until the elastic reservoir 5 will not be completely empty, after which the equipment is removed from the well, and already on the surface the elastic reservoir 5 is again filled with liquid chemical reagent 6 through the filling channel 20 through the check valve 21, and then the device is lowered into the well again.

Thus, the use of the inventive device makes it possible to ensure the reliability of the process of dosed supply of a liquid reagent into a well during oil production in difficult conditions using electric centrifugal pump installations. In addition, the design of the device and its installation in the well are simplified.

Claims (1)

A device for dosed supply of a reagent into a well, containing a housing divided into two cavities, with one cavity hydraulically connected to the well space for supplying a displacement fluid, and the other cavity filled with a liquid chemical reagent and hydraulically connected to a piston metering pump supplying liquid chemical reagent into the well, while the piston of the metering pump is mechanically connected to a support in contact with the walls of the well casing, and the body of the device has the ability to move relative to the piston of the metering pump due to the deformation of the tubing on which the device is installed in the well, characterized in that that the body is divided into two cavities by an elastic reservoir installed inside the device body between at least two fasteners, while a displacing liquid is located outside the elastic reservoir, and the internal cavity of the elastic reservoir is filled with a liquid chemical reagent and hydraulically connected to a metering pump, the support is made in the form of an elastic cuff with holes and is fixed relative to the walls of the well casing due to friction forces.