RU2319864C1 - Well pumping unit - Google Patents

Abstract

FIELD: oil producing industry.

SUBSTANCE: invention relates to well pumping units employing submersible electric motors. Proposed pumping unit contains submersible electric motor to drive pump installed in well on tubing string. Valve is installed on tubing string higher than pump to bypass medium pumped out of well from pump output to well annulus through bypass hole. Said bypass valve is made in form of hollow cylindrical lock installed coaxially with tubing string for axial displacement relative to bypass hole. Said cylindrical lock is furnished with minimum one ring sealing member with cutting edge to engage with inner surface of tubing string in zone of displacement. Cylindrical lock is connected by mechanical tie-rod with electric drive connected to control device and furnished with minimum one pressure transmitter.

EFFECT: improved reliability of operation of well pumping unit.

1 dwg

Description

The invention relates to downhole pumping units, in particular to pumping units using submersible motors designed to produce liquid media from a well, such as oil.

When producing liquid from a well, if the inlet pressure is lower than critical or the liquid level is lower than the pump inlet, a significant amount of free gas can enter the pump, which will disrupt the pump. The latter is possible when the pump flow is greater than the flow rate of the well. A similar situation occurs when the passage for the pumped medium is blocked after the pump exit (for example, due to paraffin, ice plugs, shut-off valves on the flow line), or when the pressure at the pump outlet exceeds the pressure developed by the pump when it is running in parallel with other pumps.

In this case, the pump flow drops to zero. The process of disruption of the feed is stable and without special measures, the transition of the installation to normal mode is almost impossible. The operation of the installation in the mode of interruption of supply leads, first of all, to overheating of the electric motor, pump and power supply cable in the area of the pump. In addition, individual pump units will operate in dry friction mode. All this leads to a sharp decrease in the durability and reliability of the installation.

Currently, to protect against feed failure during operation of submersible centrifugal electric pump installations, automatic power off of the electric motor is provided when it is underloaded or when pressure drops at the wellhead (signs of feed failure) and subsequent switching on. However, this technique does not always provide reliable protection against feed failure (from overheating).

A well-known pumping installation, in which a device for eliminating a "gas plug" is installed, which includes a pipeline connecting the upper part of the pump with its inlet and a check valve-type assembly in which the shut-off element (plunger) simultaneously acts as a spool with respect to the inlet the specified pipeline (see US patent No. 21919635, CL 415-11, 1940).

During normal feed, the plunger rises and closes the inlet to the pipeline. When the supply drops below a certain level, the plunger lowers and blocks the pump outlet, and opens the entrance to the bypass pipe from the cavity behind the non-return valve. As a result, the gas-liquid mixture flows from the tubing string to the pump inlet. At this time, the pump continues to operate in a non-expendable mode - feed cut-off mode. Consequently, the mixture coming from the tubing to its inlet will exit into the annulus. The pump will exit the feed stall condition by reducing the pressure drop across the pump outlet and its inlet due to an increase in the liquid level in the annulus and its decrease in the tubing when it flows from the tubing to the annulus, as well as an increase in the outlet pressure directly behind the flow of the mixture through the bypass pipe. However, the latter component will not have a decisive influence due to insufficiently high costs through the bypass pipeline. Therefore, the pump will work for a long time in the mode of stalling, before the ratio of the pressures at the outlet and inlet of the pump is reached, at which it will exit the state of stalling. The disadvantage of this device is that when the unit is turned off, liquid from the tubing string will flow out through the bypass hole.

A well-known downhole pump installation containing a submersible centrifugal electric pump with a check valve for bypassing the gas-liquid mixture after the pump exits through the bypass valve into the annulus when the feed is interrupted, the mixture is taken up to the check valve (see copyright certificate SU No. 1147854, class F04D 13 / 10, 03/30/1985).

However, during the operation of this downhole pumping unit during the bypass process, there will be no forced cooling of the electric motor, since the mixture moves from the outlet of the pump to its inlet without washing the electric motor. During long-term operation of the installation in bypass mode, which may occur for unremovable reasons for the supply failure, for example, when the pressure in the system is higher than at the pump outlet, this will lead to overheating and subsequent failure of the electric motor.

The closest to the invention in terms of technical essence and the achieved result is a downhole pump installation, comprising a submersible electric motor installed in the well on the pipe string for driving the pump and a valve mounted on the pipe string above the pump to transfer the medium pumped from the well from the pump outlet to the annulus of the well through the bypass hole (see patent RU No. 2102633, CL F04D 13/10, 01/20/1998).

In this borehole pumping unit, the mixture is bypassed from the pump outlet into the annulus at or below the location of the electric motor, which makes it possible to provide forced cooling of the electric motor when it is in bypass mode and to reduce supply losses in the mode of mixture lifting. However, the design of the bypass valve does not ensure reliable operation of the installation in case of deposition of paraffin and other deposits on the valve walls.

The problem to which the present invention is directed, is the creation of a downhole pumping unit, which would ensure the removal of deposits in the valve location zone for bypassing the medium pumped out of the well.

The technical result achieved by using the invention is to increase the reliability of a well pump installation.

This problem is solved, and the technical result is achieved due to the fact that the well pump installation includes a submersible electric motor installed in the well on the pipe string to drive the pump and a valve mounted on the pipe string above the pump to transfer the medium pumped out of the well from the pump outlet to the annulus of the well through the bypass hole, while the bypass valve is made in the form of a pipe pipe installed coaxially with the possibility of axial movement relative to the bypass hole along a hollow cylindrical shutter equipped with at least one annular sealing element with a cutting edge for interaction of the latter with the inner surface of the pipe string in the movement zone relative to the bypass hole of the hollow cylindrical shutter connected by mechanical traction with an electric drive connected to a control device equipped with at least one pressure sensor.

In the course of analysis of various types of downhole pumping units, it was found out that it is possible to transfer the medium pumped out of the well from the pump outlet to the annulus of the well, for example, when the pump flow is greater than the well flow rate, even if the bypass valve has accumulated on its walls deposits that impede the movement of the valve shutter. For this, the valve shutter is connected by a mechanical traction to an electric actuator, the power of which is selected based on the characteristics of the medium pumped by the borehole pumping unit, and therefore, taking into account possible deposits on the valve walls for bypass in the shutter movement zone. Moreover, in order to reduce the load on the shutter electric drive, the latter is made with at least one annular sealing element with a cutting edge, which cuts off the layer of deposits from the inner surface of the pipe string in the shutter movement zone. At the same time, connecting the shutter actuator to a control device equipped with at least one sensor ensures quick operation of the bypass valve, thereby preventing overheating of the submersible motor of the pump unit. In the case of a control device with one sensor, the latter is designed to measure the pressure difference between the pressure in the pipe string and in the annulus of the pipe string. If there are more than one sensors, for example two sensors, then one sensor measures the pressure in the annulus of the pipe string and the other in the pressure pipe of the pump. The pressure sensor can be installed in the place of pressure measurement or in a sealed compartment together with the control unit and can be connected to the internal cavity of the pipe string and the annular space of the pipe string by means of sealed tubes. In any case, the accurate operation of the bypass valve is achieved in case of violation of the operating mode of the downhole pump unit.

The drawing shows a longitudinal section of a downhole pumping unit.

The downhole pump installation comprises a submersible motor 2 installed in the borehole on the pipe string 1 to drive the pump 3 and a valve 4 mounted on the pipe string 1 above the pump 3 to transfer the medium pumped from the borehole from the outlet of the pump 3 to the annulus of the borehole through the bypass hole 5. Valve 4 for bypass is made in the form of a pipe column 1 installed coaxially with axial movement relative to the bypass hole 5 of the hollow cylindrical shutter 6, provided with at least one annular recess a sealing element 7 with a cutting edge for interaction of the latter with the inner surface of the pipe string 1 in the movement zone relative to the bypass hole 5 of the hollow cylindrical shutter 6 connected by a mechanical rod 8 with an electric actuator 9 connected to a control device 10 equipped with at least one pressure sensor eleven.

In the normal mode of operation of the downhole pumping unit, a cylindrical shutter 6 overlaps the bypass hole 5 (several bypass holes 5 can be made). The pump 3 pumped out of the well liquid medium through the pipe string 1 through the bypass valve 4 is supplied to the surface. When the level of the liquid medium pumped out of the well falls below an acceptable level, for example, when the supply of pump 3 is greater than the flow rate of the well, the pressure difference between the pressure in the pipe string 1 above pump 3 and in the annulus of the well exceeds the permissible value, which is detected by pressure sensors 11. As a result, the control device 10 starts the electric drive 9, which causes the movement of the cylindrical shutter 6 and the message of the inner space of the pipe string 1 with its annular space. As a result, part of the liquid medium supplied by the pump 3 from the well begins to enter the annulus, which leads to an increase in pressure in the annulus and a decrease in the pressure difference between the pressure in the pipe string and in the annulus. Upon reaching the specified value of the difference of the above pressures at the command of the control device 10, the cylindrical shutter 6 moves and blocks the bypass hole 5.

The present invention can be used in the oil industry to ensure reliable operation of downhole pumping units.

Claims (1)

A downhole pump installation comprising a submersible electric motor installed in a borehole on a pipe string for driving a pump and a valve mounted on a pipe string above the pump to bypass the medium pumped from the borehole from the pump outlet into the annulus of the borehole through a bypass hole, characterized in that the bypass valve is made in in the form of a pipe pipe installed coaxially with the possibility of axial movement relative to the bypass hole of the hollow cylindrical valve, provided with at least one pipe a sealing ring element with a cutting edge for interaction of the latter with the inner surface of the pipe string in the movement zone relative to the bypass hole of the hollow cylindrical shutter, connected by mechanical traction to an electric drive connected to a control device equipped with at least one pressure sensor.