RU41810U1 - Borehole PUMP PUMP FOR PRODUCING PLASTIC LIQUIDS - Google Patents

Abstract

A well sucker rod pump is an oil recovery technique. The objective of the utility model is to increase the reliability and operation of the pump. The essence of the utility model: A borehole sucker rod pump comprising a cylinder 1, a sealing assembly 4, a plunger 2 with a hollow stem 3 installed in the cylinder, an upper chamber 6 in which a check valve 7 is installed, which communicates with the annulus and the lower chamber 9 with the suction valve 10 installed in the lower part of the cylinder 1 and the discharge valve 11 installed in the plunger 2. New is that in the upper chamber 6 under the check valve 7 there is an additional valve - compensator 8, which communicates the chamber 6 with the annulus ohm

Description

Well sucker rod pump for the extraction of formation fluids.

The utility model relates to techniques for oil production, in particular to downhole sucker rod pumps.

A well-known double-acting sucker-rod pump driven by a rocking machine, containing a cylinder, a plunger with a rod installed in it, having a common passage channel, and a sealing assembly, forming in the cylinder the upper, communicated by the suction valve with the annulus of the well, and the lower, communicated with the cavity tubing strings with said passage through the passage of the plunger with the stem down, the chamber, and also the discharge valve.

When the plunger moves down, fluid from the annulus enters this pump into the upper chamber of the pump, and the liquid of the lower chamber is pumped into the pump tubes. When the plunger moves upward, fluid from the well enters the lower chamber, and fluid from the upper chamber is pumped into the cavity of the tubing. (See Av. St. USSR No. 578488 class P 04 B 47 / 02.1976.).

A disadvantage of the known pump design is that the maximum load on the pumping unit is the sum of the weight of the rod column and the weight of the liquid column located above the plunger, which makes it unprofitable to increase the depth of descent of such pumps, since the power spent on lifting the liquid increases , and pump performance drops.

The closest solution to the claimed is a well sucker rod pump for producing formation fluids, containing a cylinder, a sealing unit, a piston with a hollow rod, passed through a sealing element located under the piston lower chamber with a receiving valve installed in the lower part of the cylinder, and a discharge valve in the piston placed above the piston top

a chamber in which a check valve is installed communicating the chamber with the annulus (See Av. St. USSR No. 1721299, IPC ⁵ , F 04 B 47/02, dated 23.03.92.).

The disadvantage of this design is that when the piston moves down at the top of the cylinder, the non-return valve closes, connected by an inlet with above the piston chamber and an outlet with annulus, and as you know, the fluid is incompressible, then the rod string will be difficult to move down, or freeze at low content carbon gas mixture and minor fluid leaks in the sealing joint, which reduces the reliability of the pump.

The objective of the proposed technical solution is to increase the reliability of the downhole sucker rod pump while reducing the maximum load acting on the rocking machine when lifting fluid from the well.

The problem is solved due to the fact that, in contrast to the well-known sucker-rod pump containing a cylinder, a sealing assembly, a hollow rod plunger installed in the cylinder, forming two chambers with the cylinder: the upper one, in which there is a check valve communicating with the annulus, and a lower chamber with a suction valve installed in the lower part of the cylinder. And a pressure valve installed in the plunger, in the upper chamber under the check valve, an additional compensating valve is installed, soo -rotating chamber annulus.

The installation of a compensating valve allows the plunger to move smoothly down the rod string, which allows you to adjust the pressure in the upper chamber to compensate for the pressure of the weight of the liquid column, which removes the load on the rods and increases the reliability of the pump.

To ensure the possibility of operating a well with an unpressurized production string without carrying out repair and insulation works and switching to underlying productive horizons without clipping

overlying strata in the upper chamber of the downhole sucker rod pump above the check valve installed packer.

Figure 1 schematically shows a downhole sucker rod pump, figure 2 is a variant of the pump.

The borehole sucker rod pump includes a housing in the form of a cylinder 1, in which the plunger 2 moves with a hollow rod 3, which is connected through a sealing unit, for example, a borehole sucker rod pump of smaller diameter 4 with an automatic coupler 5, and forming in pair there are two chambers with the cylinder: the upper 6 communicating with the annular space by means of a check valve 7 and the compensating valve 8 and the lower chamber 9, communicated by the suction valve 10 installed in the lower part of the cylinder 1, with the annular transtvom and discharge valve 11 mounted in the plunger 2 with the cavity tubing 12 common to the plunger 2 and rod 3 13.Nasos passageway also includes a drain valve 14.

In an embodiment of the pump (FIG. 2), a packer 15 is installed in the upper chamber 6 above the check valve 7.

Downhole sucker rod pump operates as follows.

During the course of the plunger 2 with the rod 3 upward, the pressure in the lower chamber 9 decreases to the pressure at the inlet to the pump, the suction valve 10 opens, and the fluid from the well enters the cavity of the cylinder 1, the pressure valve is closed. At the same time, in the upper chamber 6, the compensator valve is closed 8, and the check valve 7 is open and the compensating force acting on the plunger 2 is directed upward and equal to the product of the annular cross-sectional area of the upper chamber 6 and the pressure difference between the pump intake and the vacuum in the upper chamber.

When the plunger 2 moves down, the suction valve 10 closes and the pressure in the cavity of the tubing 12 increases to the pressure at the outlet of the pump, after which the discharge valve 11 opens, and the liquid is forced out of the lower chamber 9 into the cavity of the tubing

12. In this case, the check valve in the upper chamber 6 is closed, the compensator valve is 8 (adjusted to the pressure of the liquid column weight. It opens at the moment when the pressure in the upper chamber reaches the pressure of the liquid column weight, a compensating force acting upward and equal to the product of the annular area section of the upper chamber 6 on the pressure difference at the outlet of the pump and the vacuum in the upper chamber 6. The drain valve 14 is designed to drain the fluid from the cavity of the tubing 12 when lifting during production present and workover.

The well sucker-rod pump with a packer (Fig. 2) works similarly, but at the same time, the packer 15 divides the annular space of the production string with the reservoir and the pump intake, which impedes the flow of the flooded fluid from the leakage interval of the production string or the waterlog above the underlying formation (horizon).

The use of a downhole sucker rod pump will reduce the number of accidents due to a decrease in the breakage rate of the string and will increase the allowable depth of descent of the sucker rod pump into the well by providing the following principle of hydraulic compensation of the rod loads, which will make it possible to extract formation fluids by a deep-pumping method from deep-seated formations and increase reliability of downhole pumping in all wells, regardless of their depth, and will also allow to operate wells with leaks th production casing.

Claims (2)

1. A downhole sucker rod pump for producing formation fluids, comprising a cylinder, a sealing assembly, a plunger with a hollow rod installed in the cylinder, forming two chambers with the cylinder: the upper one, in which there is a check valve communicating with the annulus and the lower chamber with a suction valve installed in the lower part of the cylinder and the discharge valve installed in the plunger, characterized in that in the upper chamber under the check valve an additional compensating valve is installed, which communicates the camera with ruby space. 2. The well pump according to claim 1, characterized in that a packer is installed in the upper chamber above the check valve.