RU2231628C1 - Device for dosed supply of chemical reagent into the well - Google Patents

Abstract

FIELD: oil and gas extractive industry.

SUBSTANCE: device has dosing means hydraulically connected to tank for chemical reagent and line of force pumping of chemical reagent into the well, outlet valve, drive of dosing means, cinematically connected to dosing means. Dosing means is made in form of plunger pump with force-pumping chamber and suck-in chamber. Pipeline suck-in chamber is connected to tank of chemical reagent into the well. Drive of dosing means is made in form of hydraulic pusher, in jointed connection to frame, with electric drive and control block. Cinematic connection of drive to and dosing means is performed through system: two-shoulder lever - spring-loaded stop, fixed on the frame. Rod of hydraulic pusher is in jointed connection to one shoulder of lever, end of second shoulder of which by means of roller fixed on it is placed in interaction with spring-loaded stop located in the barrel. Two-shoulder lever is placed on the frame rotatably. Body of plunger pump and barrel are rigidly displaced on the frame in such a way that their longitudinal axes are placed on one straight line. Line of force-pumping of chemical reagent into the well is made in form of flexible capillary armored pipe and is fixed on outer surface of tubing pipes. Outlet valve is placed on said pipe in area of receiving well pump.

EFFECT: higher reliability and simplified adjustment of reagent supply, universal use of device for handling different wells.

3 cl, 2 dwg

Description

The invention relates to the oil and gas industry, in particular, to devices for the dosed supply of a chemical reagent into a well in order to prevent and remove asphaltene-tar-paraffin deposits (AFS), corrosion products, and well demulsification.

A device is known for supplying a chemical reagent to a well, comprising a dispenser in the form of a plunger pump, hydraulically connected to a container for a chemical reagent and a line for injecting a chemical reagent into the well in the form of a flexible hose in communication with a hollow rod string, non-return and exhaust valves and a dispenser drive in the form rocker of the rocking machine (see ed. certificate. USSR No. 1837101, class E 21 B 37/06, 1991).

The disadvantage of this device is that the flow of reagent dispenser in this device is unregulated, is pulsating in nature, because the stroke of the pump plunger is determined by the speed of the gearbox of the pumping unit. As a result, a short (pulsating) in time interaction of the chemical reagent with sediments in the well, which requires a large consumption of the chemical reagent and a longer duration of exposure to the chemical reagent to ensure complete removal of the products of exposure to the chemical reagent in the well. In addition, in this device, the implementation of the line for injecting a chemical reagent into the well in the form of a flexible hose that is not protected from an external aggressive environment is possible only with its placement in a column of hollow rods, which reduces the reliability of the injection line and limits the scope of the device.

There is another device for supplying a chemical reagent to a well, containing a container for a chemical reagent, a dispenser installed on the well reinforcement in the form of a plunger pump with a line for injecting a chemical reagent into the well (see RF patent No. 2142553, class E 21 V 37/06, 1995) . The supply of chemical reagent to the well is controlled by changing the diameter of the plunger of the plunger pump and by adjusting the adjustable stop.

A disadvantage of the known device is the difficulty in regulating the flow of a chemical reagent into the well, since for each new treatment of the well, a plunger pump must be disassembled for adjustment.

The closest in technical essence to the proposed one is a device for feeding a chemical reagent into a well, comprising a dispenser hydraulically connected to a container for a chemical reagent and a line for injecting a chemical reagent into the well in communication with a hollow rod string, an exhaust valve and a metering actuator made in the form of a reducer kinematically connected with the dispenser and with the drive of the submersible pump, while the dispenser is made in the form of a vane pump, which is mounted on the side of the gearbox (see RF patent No. 2171364, CL E 21 B 37/06, 2000).

When the rotor of the vane pump rotates, its working chambers change periodically; the chemical reagent is sucked from the tank into each chamber and displaced under pressure through the injection line into the lift string of the well in a dosed and continuous manner, where it interacts with deposits on the pipes. The supply of chemical reagent to the well is controlled in a vane pump by changing the distance between the axes of symmetry (eccentricity) of the rotor and stator of the vane pump.

Although the known device provides a continuous supply of chemical reagent into the well, and the design of the dispenser in the form of a vane pump allows you to control the flow of chemical reagent into the well, however, it is difficult to carry out such adjustment of the flow in the dispenser itself, because a change in supply is made by adjusting the eccentricity of the rotor and stator of the vane pump, which requires readjustment of the dispenser when changing the requirements for the quantity, composition of the chemical reagent, etc.

In addition, with this adjustment, the dispenser does not work reliably to supply small volumes of chemical reagent due to valve failure in the dispenser chambers.

The technical problem to which the invention is directed is to simplify the regulation of the supply of a chemical reagent, increase the reliability of regulation of the flow, ensure the simplicity, reliability and versatility of the device for processing various wells or conduct various treatments in one well by adjusting the flow by changing the frequency of movement of the plunger pump plunger constant volume of injection for one swing of the plunger pump.

This technical problem is solved due to the fact that in the known device for supplying a chemical reagent to a well, comprising a dispenser hydraulically connected to a container for a chemical reagent and a line for injecting a chemical reagent into a well in communication with the well, an exhaust valve and a dispenser drive kinematically associated with the dispenser, new is that the dispenser is made in the form of a plunger pump with discharge and suction chambers, while the suction chamber is connected by a pipeline to the chemical reagent tank, injection chamber - with a line for injecting a chemical reagent into the well, the metering drive is made in the form of a hydropusher pivotally mounted on a rack with an electric drive and a control unit, and the kinematic connection of the drive and the metering device is through a two-arm lever system - a spring-loaded stop fixed on the rack, while the rod the hydraulic pusher is pivotally connected to one arm of the lever, the end of the second arm of which, through the roller mounted on it, is in interaction with the spring-loaded sometimes, and the two-arm lever is rotatably mounted on the stand, while the plunger pump housing and the cup, in which the spring-loaded stop is placed, are rigidly fixed on the stand so that their longitudinal axes are located on one straight line, while the chemical injection line into the well made in the form of a flexible capillary armored tube and mounted on the outer surface of the tubing, and the exhaust valve is placed on the specified tube in the receiving zone of the downhole pump.

The plunger pump can be made in the form of a plunger hydraulic cylinder.

The hydraulic pusher control unit includes a generator for the frequency of movement of its rod.

The use of a plunger pump as a dispenser makes it possible to simplify the regulation of the supply of a chemical reagent to the well, since it is possible to organize a kinematic connection of the plunger pump plunger with a dispenser drive in such a way that the flow of a chemical reagent into the well is controlled not by the plunger pump, but by changing the modes in the dispenser drive. This made it possible to control the supply of chemical reagent to the well by changing the frequency of movement of the plunger of the plunger pump with a constant volume of injection of the chemical reagent in one stroke of the plunger, which ensures the dosing of the required volume of chemical reagent for this well.

The execution of the metering drive in the form of a hydraulic pusher with an electric drive, the rod of which is kinematically connected with the plunger of the plunger pump, namely, the execution of the kinematic connection in the form of a two-shouldered lever, the end of one arm of which interacts via a spring-loaded stop with the plunger of the plunger pump, and the other arm of the lever is pivotally connected to the rod hydraulic pusher, allows you to change the number of swings of the plunger pump and thereby simplify the regulation of the flow of chemical reagent into the well.

The execution of the dispenser, the dispenser drive in the form of independent nodes allows you to service, adjust and repair these nodes independently of each other. Moreover, the use of a hydraulic pusher as a drive increases the reliability of feed control due to the absence of mechanical components in it.

Due to the fact that a flexible capillary armored tube is used as the injection line of the chemical reagent into the well, it became possible to place the injection line in the well anywhere, including to place and fix it on the outer surface of the well pipes and to place it with an exhaust valve on any depth - in the receiving zone of the downhole pump, while the discharge line provides the required pressure of the injected fluid; such a pipeline is convenient and reliable during its transportation.

A device for supplying a chemical reagent to a well is shown in the drawings, where Fig. 1 shows a general view of the device in a well; figure 2 - structural embodiment of the device.

The device comprises a dispenser 1, a dispenser drive 2 kinematically connected to the dispenser 1, a chemical reagent tank 3 and a chemical reagent injection line 4 into the well with an input valve 5 to the wellhead equipment and an exhaust valve 6.

The dispenser 1 is made in the form of a plunger pump, in particular, in the form of a plunger hydraulic cylinder containing a hydraulic cylinder 7, in which the plunger is placed 8. A hydraulic part is fixed to the hydraulic cylinder 7 by means of a nut 9, which contains a suction chamber 10 and a chemical injection chamber 11. The suction chamber 10 by a pipe 12 is connected to the tank 3, and the chamber 11 is connected to the injection line 4 of the chemical reagent into the well.

The drive 2 of the dispenser 1 is made in the form of a hydraulic pusher 13 with a rod 14 and an electric drive (not shown in the drawing). The rod 14 of the hydraulic pusher 13 is kinematically connected with the plunger 8 of the plunger pump through a two-arm lever system 15 - an emphasis 16, spring-loaded 17. The two-arm lever 15 is mounted on a stand 18 with the possibility of rotation about the axis 19. One shoulder 20 of the lever 15 is pivotally connected (axis 21) with a rod 14 of the hydraulic pusher 13. At the end of the other arm 22, a movable roller 24 is fixed on the axis 23, which, when the device is in operation, interacts with the spring-loaded stop 16. To prevent the plunger 8 of the plunger pump from warping and to ensure an accurate dosage chemical reactant anija spring loaded stop 16 is placed in the beaker 25, verily plunger pump housing 25 and a cup rigidly mounted to the rack 18 so that their longitudinal axes are collinear. The hydraulic pusher 13 is attached to the rack 18 pivotally on the axis 26 with the possibility of rotation relative to the specified axis.

The line for injecting 4 chemical reagent into the well is in communication with the chamber 11 for dispensing the dispenser 1 and is a pipeline in the form of a flexible reinforced capillary tube with an inner diameter of ⌀ = 3.8 mm, made of stainless steel, reinforced, for example, with a copolymer and armored from the outside. Such a line for injecting 4 chemical reagents into the well, made in the proposed form, can withstand pressure up to 550 atm. The descent into the well and fixing of such a pipeline is carried out simultaneously with the descent of the tubing 27, the discharge line 4 is fixed to the outer surface of the tubing 27 by means of clamps 28. At the lower end of the pipeline of the injection line 4, the exhaust valve 6 is fixed so that it located in the reception zone of the downhole pump 29. The valve 6 in the device operates as a non-return valve. On the surface and for transportation, the flexible pipe of the discharge line 4 is wound on a drum 30.

The control of the hydraulic pusher 13 is carried out from the control unit (not shown in the drawing), including a generator for the frequency of movement of the rod 14; By installing a time relay in the frequency generator at the required frequency of movement of the rod 14, therefore, and the frequency of movement of the plunger 8 of the plunger pump, they provide the required volume of chemical reagent injection into the well with a constant (unchanged) volume of injection for one stroke of the plunger pump plunger.

The device operates as follows.

Before turning on the device, the required total amount of chemical reagent injection into this well is determined to carry out work, for example, to prevent or remove paraffin deposits in the well; determine the volume of injection of the reagent for one swing of the plunger pump. Set the time relay of the frequency generator of the control unit to the desired frequency of movement of the rod 14 of the hydraulic pusher 13. The reciprocating movement of the rod 14 oscillates the lever 15, the movable roller 24 on the shoulder 22 of which will periodically be in interaction with the spring stop 16, bringing it back - translational movement in the glass 25. The emphasis 16 results in a reciprocating movement of the plunger 8 of the plunger pump with the chemical reagent required for the given conditions of the well. At one (reverse) stroke, the plunger 8 fills the hydraulic part of the dispenser 1 through the suction chamber 10 from the tank 3 with a chemical reagent, and with another (direct) stroke of the plunger 8, this volume of chemical reagent from the hydraulic part of the dispenser 1 is fed into the line through the discharge chamber 11 injection 4, and then through valve 6, into the treatment zone for receiving the downhole pump 29 and, together with the pumped liquid, into the tubing string 27, where the chemical reagent affects the AFS.

Thus, the proposed device allows to solve various tasks for the prevention and removal of paraffin deposits, corrosion products and demulsions from the well using various chemicals and in wells with different technical characteristics, and the reagent supply is controlled simply, reliably, without changing the device blocks themselves, with This increases the efficiency of chemical injection. The drive design is greatly simplified. Provides the versatility and reuse of the device in wells with different technological modes, the ease of replacing failed any unit of the device.

Claims (3)

1. A device for supplying a chemical reagent to a well, comprising a dispenser hydraulically connected to a container for a chemical reagent and a line for injecting a chemical reagent into a well in communication with the well, an exhaust valve and a dispenser drive kinematically connected to the dispenser, characterized in that the dispenser is made in in the form of a plunger pump with discharge and suction chambers, while the suction chamber is connected by a pipeline with a container for a chemical reagent, and the discharge chamber - with a discharge line of a chemical reagent in well, the dispenser drive is made in the form of a hydraulic pusher pivotally mounted on the stand with an electric drive and a control unit, and the drive and dispenser are kinematically connected through a two-arm lever system — a spring-loaded stop fixed on the stand, while the hydraulic pusher rod is pivotally connected to one lever arm, the end the second shoulder of which, by means of a roller fixed on it, is in interaction with a spring-loaded stop placed in the glass, and the two-arm lever is placed on the stand with the possibility of rotation the one, while the plunger pump housing and the cup, in which the spring-loaded stop is placed, are rigidly fixed on the column in such a way that their longitudinal axes are located on one straight line, while the chemical injection line into the well is made in the form of a flexible capillary armored tube and is fixed on the outer surface of the tubing, and the exhaust valve is located on the specified tube in the receiving zone of the downhole pump. 2. The device according to claim 1, characterized in that the plunger pump is made in the form of a plunger hydraulic cylinder. 3. The device according to claim 1, characterized in that the control unit of the hydraulic pusher includes a generator for the frequency of movement of its rod.

Images