RU2810373C1 - Sucker rod pump for operation in conditions complicated by formation of deposits - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention is intended for oil production by installing a sucker rod pump, in particular in conditions complicated by the formation of deposits, such as salts and asphaltene-paraffin deposits, in the valves of the sucker rod pump. The sucker rod pump for operation in conditions complicated by the formation of deposits consists of a rod pump, casing with sealed cavity filled with reagent, and the reagent supply mechanism. A sucker rod pump is driven by a drive through a string of sucker rods and comprises a cylinder, a suction valve, a hollow plunger and a discharge valve. The reagent supply mechanism is hydraulically connected to the cavity of the rod pump cylinder. The casing body is concentrically installed on the outer surfaces of the lower tubing and the cylinder of the sucker rod pump connected through a coupling to the lower tubing. The outer surfaces of the lower tubing and the rod pump cylinder are the inner surface of the casing, in which a side hole is made in the lower part. The upper part of the casing is equipped with a bypass valve. A separator made of a rubber cuff in the shape of a washer is installed in the sealed cavity of the casing. The rod pump plunger has a length that ensures that the side hole is blocked during running in and is equipped with an automatic coupler with the ability to connect to the sucker rod string, the outer surface of the lower tubing is polished.

EFFECT: increased reliability and efficiency of operation of the sucker rod pump in conditions complicated by the formation of deposits.

1 cl, 2 dwg

Description

The invention relates to the oil production industry and is intended for oil production by installing a sucker rod pump, in particular in conditions complicated by the formation of deposits (salts, asphaltene-paraffin deposits (ARS)) in the valves of the sucker rod pump.

The most favorable conditions for the formation of salt deposits in the installation of a sucker-rod deep-well pump are created in the valve assemblies. When the pump operates, the thermobaric conditions in the valves change sharply, the liquid is intensively mixed, and in some cases gas is released, which promotes crystal formation when the associated waters are saturated with salts. Salt deposits in the valves lead to a decrease in productivity due to leaks, which subsequently leads to a complete lack of supply and the need for repairs to replace deep-well pumping equipment.

A downhole dosing device is known (patent RU No. 49572, IPC E21B 43/00, published on November 27, 2005 in Bulletin No. 33), containing a container with a reagent, a filter to prevent the ingress of solids, a bypass device, and the device is equipped with a separator-float, installed with the ability to move along the axis inside the container when the reagent is consumed, and the bypass device is located in the lower part of the container, and in the upper part there is a nozzle with a hole.

The disadvantages of this device are:

- low efficiency due to a short operating life due to the rapid removal of the reagent in the first 100 days of operation, ineffective use of the reagent, the main part of which is removed before deposits form;

- insufficiently high strength and reliability of the structure; equipment elements are exposed to external aggressive factors aimed at destroying the structure, which leads to rapid failure of known devices.

A device for supplying a chemical reagent into a well is known (patent RU No. 2231628, IPC E21B 37/06, published on June 27, 2004 in Bulletin No. 18), containing a dispenser hydraulically connected to a container for a chemical reagent and a line for injection of a chemical reagent into the well, connected to the well, an outlet valve and a dispenser drive, kinematically connected to the dispenser, 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 container for the chemical reagent, and the discharge chamber is connected to the injection line of the chemical reagent into the well , the dispenser drive is made in the form of a hydraulic pusher pivotally mounted on a stand with an electric drive and a control unit, and the kinematic connection between the drive and the dispenser is carried out through a system of a double-arm lever - a spring-loaded stop, fixed to the stand, while the hydraulic pusher rod is pivotally connected to one arm of the lever, the end of the second the arm of which, by means of a roller attached to it, interacts with a spring-loaded stop placed in the glass, and the double-arm lever is placed on a stand with the possibility of rotation, while the body of the plunger pump and the glass in which the spring-loaded stop is located are rigidly fixed to the stand so that they the longitudinal axes are located on the same straight line, while the line for injection of the chemical reagent into the well is made in the form of a flexible capillary armored tube and is fixed on the outer surface of the tubing pipes, and the outlet valve is placed on the said tube in the receiving area of the well pump.

The disadvantages of this device are:

- the flexible line for injection of a chemical reagent into the well is extremely unreliable, due to the high probability of its damage during descent or breakage under changing well conditions;

- also a disadvantage is the use of a wellhead dispenser, the need to constantly adjust the dispenser’s performance, which increases labor costs and increases the influence of the human factor on the efficiency of use.

The closest is a downhole rod pumping unit (patent SU No. 1434883, IPC F04B 47/02, E21B 43/00, published on August 10, 2000 in Bulletin No. 22, a description of the implementation of the method is given in the source Ibragimov L.Kh., Mishchenko I .T., Cheloyants D.K. Intensification of oil production. - M.: Nauka, 2000 pp. 296-298), containing a rod pump connected to a column of pumping pipes, installed in the pump cylinder with a suction valve, a hollow plunger with a hollow plunger placed in it a discharge valve, a container, the sealed cavity of the body of which is filled with a reagent, and a reagent supply mechanism hydraulically communicated with the cavity of the pump cylinder, wherein the suction valve has a seat and a shut-off element, characterized in that, in order to increase efficiency during operation, by automatically supplying a reagent for removal deposits accumulated in the suction valve, the cylinder cavity in the installation area of the suction valve is equipped with upper and lower annular stops with a suction valve seat located between them, spring-loaded from the side of the upper annular stop and installed with the possibility of axial movement, the container body is installed concentrically with the outer surface of the pump cylinder, which is the inner surface of the container, in which drain and fill holes are made, respectively, directly above the lower annular stop and in the upper part, the reagent supply mechanism is formed by the seat of the suction valve of the pump cylinder and the drain hole of the container, the fill hole of which is connected to the pump cavity above the plunger and in the pump column pipes

The disadvantages of this installation are:

- complexity and low reliability of the design, since when salt deposits form in the valves and the balls do not fit tightly to the seat, leaks of the produced fluid and the difference necessary for the spring to operate will occur, and the movement of the suction valve will not be achieved;

- low efficiency; as the well fluid enters the casing, it will be mixed with the reagent, which will reduce the efficiency of removing salt deposits.

The technical result of the invention is to increase the reliability and operating efficiency of a deep-rod pump installation for operation in conditions complicated by the formation of deposits, by ensuring a stable, uniform supply of the reagent, eliminating mixing of the reagent and well fluid, high-quality cleaning of the rod pump valves from salt deposits or paraffin, extending the service life services.

The technical result is achieved by installing a sucker rod pump for operation in conditions complicated by the formation of deposits, consisting of a sucker rod pump, a casing with a sealed cavity filled with a reagent, and a reagent supply mechanism, while the sucker rod pump, driven by a drive through a string of sucker rods, contains a cylinder , suction valve, hollow plunger and discharge valve, the reagent supply mechanism is hydraulically connected to the cavity of the rod pump cylinder, the casing body is concentrically installed on the outer surfaces of the lower tubing - tubing and the rod pump cylinder, connected through a coupling to the lower tubing, while the outer The surfaces of the lower tubing and the cylinder of the sucker rod pump are the inner surface of the casing, in which a side hole is made in the lower part.

What is new is that the casing is equipped with a bypass valve in the upper part, a washer-shaped rubber cuff separator is installed in the sealed cavity of the casing, the plunger of the sucker rod pump is made with a length that ensures that the side hole is blocked during descent, and is equipped with an automatic coupler with the ability to connect to the string of sucker rods , the outer surface of the lower tubing is polished.

In fig. 1, 2 shows a diagram of the installation of a deep-rod pump for operation in conditions complicated by the formation of deposits, where the tubing is 1, the cylinder of the sucker rod pump is 2, the suction valve is 3, the hollow plunger is 4, the discharge valve is 5, the string of sucker rods is 6, casing – 7, side opening – 8, automatic coupler – 9, bypass valve – 10, separator – 11.

The installation of a sucker-rod deep-well pump for operation in conditions complicated by the formation of deposits consists of a sucker-rod pump, a casing 7 with a sealed cavity filled with a reagent, and a reagent supply mechanism. In this case, the rod pump, driven by a drive through the string of sucker rods 6, contains a cylinder 2, a suction valve 3, a hollow plunger 4 and a discharge valve 5. The reagent supply mechanism is hydraulically connected to the cavity of the cylinder of the rod pump 2.

The casing body 7 is concentrically installed on the outer surfaces of the lower tubing 1 and the cylinder of the sucker rod pump 2, connected through a coupling to the lower tubing. The clutch ensures that the stroke of the separator 11 is limited.

In this case, the outer surfaces of the lower tubing 1 and the cylinder of the sucker rod pump 2 are the inner surface of the casing 7, in which a side hole 8 is made in the lower part.

In the upper part of the casing 7 is equipped with a bypass valve 10, which ensures uniform flow of the reagent from the sealed cavity of the casing 7 into the rod pump, which promotes high-quality cleaning of the rod pump valves from salt deposits or paraffin deposits, and as a result increases the reliability of the device.

In the sealed cavity of the casing 7 there is a separator 11 made of a rubber cuff in the shape of a washer. Separator 11 prevents mixing of well fluid and reagent in the upper part of the sealed cavity of casing 7, as a result, the efficiency of the device increases, because the reagent remains in a concentrated state.

The plunger 4 of the sucker rod pump is made with a length that ensures that the side hole 8 is blocked during descent, and is equipped with an automatic coupler 9 with the ability to connect to the string of pumping rods 6. The automatic coupler 9 allows the connection of the plunger 4 with the string of rods 6 to prevent spillage of the reagent from the sealed cavity.

The outer surface of the lower tubing 1 is polished, preventing separator 11 from jamming when moving.

The proposed installation of a sucker rod pump for operation in conditions complicated by the formation of deposits operates as follows.

When a deep-rod pump is operated, driven by a drive through a string of sucker rods 6, the product is lifted along the string of tubing pipes 1. When the plunger 4 moves upward, the suction valve 3 opens, the discharge valve 5 closes, and the pump cylinder 2 is filled with the incoming liquid. from the well. When plunger 4 moves down, discharge valve 5 is open, suction valve 3 is closed, liquid from cylinder 2 enters plunger 4 of the pump. When the sucker rod pump is operating, plunger 4 ensures that the side hole 8 is closed, preventing leaks. When salt deposits form on the pump valves, leading to leaks through the valves, recorded in the form of a dynamogram and a decrease in liquid measurements, the plunger 4 is re-adjusted upward to open the side hole 8 in cylinder 2 and the reagent enters the pump. Due to the presence of leaks in the valves, the reagent enters from the cavity of the casing 7 into the cavity of the cylinder of the rod pump 2, washing the valves with the reagent and dissolving the salts. As the reagent exits through the bypass valve 10, the well fluid enters the cavity of the casing 7, while the separator 11 moves down.

Thus, the proposed invention increases the reliability and operating efficiency of a deep-rod pump installation for operation in conditions complicated by the formation of deposits, by ensuring a stable, uniform supply of the reagent, eliminating mixing of the reagent and well fluid, high-quality cleaning of the rod pump valves from salt deposits or paraffin and increase in overhaul period.

Claims (1)

Installation of a deep-rod pump for operation in conditions complicated by the formation of deposits, consisting of a rod pump, a casing with a sealed cavity filled with a reagent, and a reagent supply mechanism, while the rod pump, driven by a drive through a string of sucker rods, contains a cylinder, a suction valve , a hollow plunger and a discharge valve, the reagent supply mechanism is hydraulically connected to the cavity of the rod pump cylinder, the casing body is concentrically installed on the outer surfaces of the lower tubing - tubing and the rod pump cylinder, connected through a coupling to the lower tubing, while the outer surfaces of the lower tubing and the cylinder of the rod pump are the inner surface of the casing, in which a side hole is made in the lower part, characterized in that in the upper part the casing is equipped with a bypass valve, a separator made of a rubber cuff in the form of a washer is installed in the sealed cavity of the casing, the plunger of the rod pump is made with a length ensuring the closing of the side hole during descent, and is equipped with an automatic coupler with the ability to connect to the string of sucker rods; the outer surface of the lower tubing is polished.