RU2621231C2 - Device for dual exploitation of two layers of wells - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention falls into the area of the oil and gas producing industry and may be applied for the dual exploitation of two layers in the oilfield wells. The device for the dual exploitation of two layers of the well includes a control valve with a hydraulic system, which includes the plunger pump that is kinematically associated with the spindle of the electric motor and hydraulically with the cylinder of the valve action. The cylinder includes a chassis with decks and a spring loaded piston, which rod is hingedly linked with a cut-off element body, performed in the form of the valve. The plunger pump is located in the balancing vessel, filled with the operating fluid. The balancing diaphragm vessel is pointed along the chassis axis. At this, its above-diaphragm part is linked by the channel in the chassis wall with the annular space, and the under-diaphragm cavity - with the inlet of the plunger pump. The spring loaded piston of the cylinder and the cut-off element (valve) at the time of closing (opening) of the control valve form the differential piston, which has the spring loaded piston as a larger part, and the cut-off element - as a smaller one.

EFFECT: invention provides the reduction of the central load to the spindle of the electric motor of the device in the conditions of high bottom hole pressures in the well upon controlling the control valve from the surface in a position of "closed (open)".

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Description

The invention relates to the oil industry, in particular to devices for simultaneous and separate operation of two layers in oil wells.

Known borehole pumping unit for simultaneous and separate operation (WEM) of two layers, containing a column of elevator pipes, a packer, a liner and two separate centrifugal pumps with separate cables, supplying products of the upper and lower layers to one column of elevator pipes, through which it is supplied to the surface moreover, the products of the lower reservoir are fed by the lower pump into the column of elevator pipes along the circumferential casing, in which a channel is made for communicating the reception of the upper pump with the over-pack space of the well (Odnovr meline separate operation multilayer oil fields "/ RA Maksutov, BE Dobroskok, Y. Zaitsev -.. M .:" Nedra ", 1974).

The disadvantage of the installation is that it does not allow a separate rise and measurement of the production rate of each of the layers separately. Another serious drawback of the installation is the complexity of installation at the well, the bulkiness of the equipment (the total length of the installation can reach 30-35 m), the difficulty of launching two cables simultaneously into the well. Also, this installation does not allow the use of various combinations of electric motors and pumps, since their standard sizes are incorporated in the manufacture.

A close analogue in the aggregate of essential features is the installation for simultaneous and separate research and operation of a multilayer well by an electric submersible pump (See the description of the RF Patent No. 2380522, January 27, 2010, Bull. No. 3), which describes the possibility of controlling the "opening" states from the surface of the well and "closure" and the degree of opening of the control device, as well as measurements at the mouth of the fluid flow rate for the wellbore. The installation includes equipping with a multi-packer or single-packer arrangement and lowering into it a pipe string with at least one control valve, consisting of a housing inside which an electromechanical shut-off element is placed, and an electric submersible pump without or with a casing.

The main disadvantage of the analogue is the impossibility of practical application of the invention, because at the moment there is no workable design of the control valve actuator that meets the above criteria (control from the surface of the well of the states of "opening" and "closing" and the degree of opening of the control valve, as well as measurements at the mouth of the fluid flow rate for the wellbore).

Such a workable design (prototype) is proposed in a positive decision on the invention, “Device for an ORE of wells” (No. 20133112976, March 22, 2013, Bull. No. 27 of 2014), in which the control valve is driven by an electro-hydraulic system including a high-pressure plunger pump pressure, on the one hand kinematically connected with the shafts of the drive (gear motor and ball screw), and on the other hand, hydraulically connected with a single-acting hydraulic cylinder, the piston of which acts on the valve movement through the rod, while the device includes a compensating cylindrical diaphragm, the inner cavity of which is filled with a working fluid (oil) and communicates with the inlet of the plunger pump, and from the outside - a channel in the wall of the housing with the annulus.

The disadvantage of the device can be considered a decrease in its reliability at high bottomhole pressures in the well (from 32 MPa and above) and the need to create the corresponding high pressures in the hydraulic actuator to control the "closing (opening)" states from the surface of the well. This can lead to the appearance of undesirable high axial loads on the drive shafts (gear motor, ballscrew), which can cause the destruction of the latter.

Thus, the problem to which the present invention is directed, is to increase the reliability of the device for the WEM of two layers during operation by an electric submersible pump.

The technical result consists in reducing the axial load on the shafts of the electric drive of the device for the WEM of two layers at high bottomhole pressures in the process of controlling the surface of the "closing (opening)" in the well.

The economic effect of using the invention for pumping wells can be achieved by: increasing the reliability of the device, reducing capital costs for drilling additional wells; increase production; reducing the cost of technological measures, increasing the well overhaul period and the life of underground equipment, reducing the time to conduct research and measure well parameters.

A device for simultaneous and separate operation of two layers in a well, ensuring the achievement of the above technical result, includes a control valve with a hydraulic drive system containing a plunger pump placed in the body cavity kinematically connected to the electric drive shaft, and a single-acting hydraulic cylinder containing a housing with covers and a spring-loaded a piston, the rod of which is pivotally connected to the body of the shut-off element, made in the form of a shutter, while the pump includes a compensating a meter filled with a working fluid, in which a compensating cylindrical diaphragm is located, oriented along the axis of the housing, the compensating diaphragm forms a diaphragm cavity connected by a channel in the housing wall with the annulus, and a diaphragm cavity that is hydraulically connected to the inlet of the plunger pump, the inlet of the hydraulic cylinder being hydraulically connected in the outlet of the plunger pump, and the spring-loaded piston of the single-acting hydraulic cylinder and the cutting element connected to it by a rod in the ent closing (opening) of the control valve form a differential piston whose larger piston stage is spring-loaded, and at - chopping element.

The possibility of carrying out the invention, characterized by the above set of features, is confirmed by the description of the design and operation of the device for simultaneous-separate operation of two layers, made in accordance with the present invention, accompanied by a drawing (Fig. 1), which shows a schematic diagram of the device.

A device for simultaneous and separate operation of two layers in a well consists of a plunger pump 1, kinematically connected with an electric drive 2 and hydraulically - with a single-acting hydraulic cylinder 3, located in the housing 4.

Inside the hydraulic cylinder, a piston 5 moves with a rod 6, forming a supra-piston cavity 7. The piston 5 is spring-loaded with a spring 8, which is placed outside the hydraulic cylinder 3, resting on the one side of the flange of the rod 9, and on the other, in the end face of the body 10 of the control valve assembly 11. Spring-loaded the piston 5 through the rod 6 moves the cutting element (shutter) 12 until the latter is seated on the saddle 13.

The plunger pump 1 includes a compensating chamber 14 filled with a working fluid, in which a compensating cylindrical diaphragm is located, oriented along the axis of the housing, the compensating diaphragm forms a diaphragm cavity 14a, connected by a channel in the housing wall with the annulus, and a diaphragm cavity 14b, which is hydraulically connected with the inlet of the plunger pump 1.

At the same time, the spring-loaded piston 5, the stem 6 and the cutting element (shutter) 12 connected to each other at the moment of closing (opening) form a differential piston 15, in which the spring piston 5 is the larger stage and the cutting element 12 is the smaller. The pressure in the hydraulic cylinder 3 will depend on the value of the differentiation coefficient d (the ratio of the area of the smaller step to the area of the larger).

The device is included in the installation of the WEM (Fig. 1), which includes equipping the well with a multi-packer or single-packer arrangement and lowering the pipe string into it with a control valve and an electric submersible pump.

The device operates as follows.

The torque from the electric drive 2 is converted into reciprocating movement of the plunger of the plunger pump 1. During injection, the working fluid from the plunger pump 1 under pressure enters the supra-piston cavity 7 of the hydraulic cylinder 3, moving the spring-loaded piston 5 and the cutting element 12 connected to it by the rod 6.

The cutoff of the fluid flow from the reservoir occurs when the cut-off element 12 is mounted on the saddle 13 at a pressure of Rhz in the supra-piston cavity 7 of the hydraulic cylinder 3, calculated by the formula:

Rhz = Rzab × d + Rpr,

where Rzab - bottomhole pressure in the well;

RPR - pressure on the piston from the force of the spring,

d - differentiation coefficient:

d = S ₁ / S ₂ , where

S ₁ - the area of the sealed surface of the cutting element at the time of closing (opening) (see Fig. 1, view A);

S ₂ - the cross-sectional area of the spring-loaded piston.

As can be seen from the formula, the pressure in the hydraulic cylinder will be the smaller, the smaller the coefficient d.

The degree of overlap of the fluid flow by the control valve will depend on the filling level of the over-piston cavity 7 of the hydraulic cylinder 3 with the working fluid.

Claims (1)

A device for simultaneous and separate operation of two layers in a well, including a control valve with a hydraulic drive system containing a plunger pump located in the body cavity kinematically connected to the electric drive shaft, and a single-acting hydraulic cylinder containing a housing with covers and a spring-loaded piston, the rod of which is pivotally connected to the body of the shut-off element, made in the form of a shutter, while the plunger pump includes a compensating chamber filled with a working fluid in which the wife is a compensating cylindrical diaphragm oriented along the axis of the housing, the compensating diaphragm forms a diaphragm cavity connected by a channel in the housing wall with the annulus, and a sub-diaphragm cavity which is hydraulically connected to the inlet of the plunger pump, wherein the inlet of the hydraulic cylinder is hydraulically connected to the outlet of the plunger pump, characterized in that the spring-loaded piston of the single-acting hydraulic cylinder and the shut-off element at the moment of closing (opening) of the control valve form a differential piston, in which the larger step is the spring-loaded piston, and the smaller is the cutting element.

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