RU2588072C1 - Plant for simultaneous-separate extraction of two well reservoirs - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: group of inventions can be used for simultaneous separate operation of two well beds. Assembly contains a string, cable, shank, packer installed outside liner between beds, and pump to pump bed products. Plant includes a device for bed switching which in case of using electric centrifugal pump is connected with the housing enclosing only electric motor together with a cable and ending at the input module, and in case of using a sucker-rod pump - with pump inlet. Device for bed switching consists of a head, a nipple and a base connected by upper and lower bodies. Head comprises inlet channels connected to an upper bed. Inlet channels, through two mutually inverse ball valves, are connected through the upper body and the head with output. Base is connected with stem equipped with pressure sensors, internal cavity of which is connected with inner cavity of the lower housing through the ball valve, and with inner cavity of the upper body through the valve in the nipple. Valve in the nipple is driven by piston, cavity over the piston is connected with the internal cavity of the lower case, and below the piston - through the electromagnetic valve and diaphragm with upper bed. Valve in the nipple is rigidly coupled with pusher which opens one of the ball valves of the upper bed at valve closing in the nipple and vice versa. Electromagnetic valve and pressure sensors are connected with the ground cable control unit.

EFFECT: installation higher reliability.

2 cl, 3 dwg

Description

The invention relates to the field of oil production and can be used for simultaneous and separate operation of two layers of the well.

A well-known pump installation for the operation of formations in a well, comprising a column of elevator pipes, a cable, a liner, packers installed outside the liner between the formations and disconnecting the well into sections, and an electric submersible pump for pumping formation products, with an input module and an electric motor and a casing. The casing surrounds only the electric motor together with the cable; it ends at the input module of the electric submersible pump, on which the tight cable outlet assembly from the casing is made. The electric submersible pump is designed with a capacity exceeding the total production rate of the strata. The shank is made with several channels, each of which is connected with one of the sections of the well. At the same time, the installation is equipped with a regulator in the form of a ground control unit, manometers for measuring bottomhole pressure in the area communicated with the corresponding channel, and electrovalves in each channel, functionally connected, like manometers, with the control unit (according to patent RU 2339795, class Е21В 43 / 14, publ. 11/27/08).

A disadvantage of the known design is the presence of solenoid valves in each channel, which reduces reliability and complicates the design.

The closest technical solution is the installation (device) for simultaneous and separate exploration and operation of a multilayer well electric submersible pump, including a one-packer arrangement containing a pipe string with a control valve and an electric submersible pump equipped with a casing connected to a control valve, the latter being connected to the packer from the bottom and consists of from the housing, with at least two non-axial hydraulically interconnected and one axial passage channels, inside of which a shut-off element such as a piston, plunger, shutter or rotary disk, which can be controlled from the surface of the well through a cable or tube, or pipe string, or medium, or automatically from the fluid parameters, moreover, in one position, all the flow channels are hydraulically, partially or completely, communicated both with the reception of the electric submersible pump through the casing, and with the well strata for simultaneous production of fluid from them, and vice versa, in a different position - to cut off the fluid flow from at least one stratum, by rytiya input or output of the corresponding off-axis passageway (patent RU 2380522, Cl. Е21В 43/12, Е21В 47/12, publ. 01/27/10).

The disadvantage of this design is the use in the control valve as a shut-off element of the piston, plunger, shutter or rotary disc. The mechanical impurities contained in the produced formation fluid can lead to jamming of the shut-off element. Also, the shut-off element does not have sufficient tightness during operation due to the small resource of the sealing elements in movable joints operating in the reservoir fluid.

The problem to which the invention is directed, is to increase the installation resource.

The technical result, which is achieved by solving the above problem, is to increase the reliability of the installation for simultaneous and separate production from two layers of the well and the life of the installation.

The specified technical problem for option 1 is solved in that the installation for simultaneous and separate production from two layers of the well contains a tubing string, a cable, a liner, a packer installed on the outside of the liner between the beds, and an electric centrifugal pump for pumping formation products with an input module, an electric motor and a casing surrounding only the electric motor together with the cable ending on the input module, from below the casing is connected to the output of the formation switching device, consisting of a head, a nipple the base, connected by upper and lower bodies, the head being connected to the casing and containing input channels connected to the upper layer, the input channels are connected through two upper reciprocal ball valves through the upper body and head to the internal cavity of the casing, the base is connected to the shank, with pressure sensors installed on it, the internal cavity of which is connected through the ball valve to the internal cavity of the lower housing and through the valve in the nipple to the internal cavity of the upper housing CA, the valve in the nipple is driven by a piston, the supra-piston cavity is connected to the internal cavity of the lower body, and the piston through the solenoid valve and the diaphragm with the upper layer, the valve in the nipple is rigidly connected to the pusher, which opens one of the ball valves of the upper layer when the valve is closed in the nipple and vice versa, the solenoid valve and pressure sensors are connected to the ground cable control unit.

The specified technical problem for option 2 is solved in that the installation for simultaneous and separate production from two layers of the well contains a tubing string, a liner, a packer installed outside the liner between the layers, and a sucker rod pump for pumping the formation products, the input of which is connected to the output a device for switching formations, consisting of a head, a nipple and a base connected by upper and lower bodies, the head being connected to a pump and containing input channels connected to the upper layer, input to channels through two consecutive mutually reverse ball valves are connected through the upper housing and the head to the pump inlet, the base is connected to the shank, with pressure sensors installed on it, the internal cavity of which is connected through the ball valve to the internal cavity of the lower housing and through the valve in the nipple to the internal cavity of the upper body, the valve in the nipple is driven by a piston, the supra-piston cavity of which is connected with the internal cavity of the lower body, and the piston through the electromagnetic the valve and the diaphragm with the upper layer, the valve in the nipple is rigidly connected to the pusher, which opens one of the ball valves of the upper layer when the valve is closed in the nipple and vice versa, the electromagnetic valve and pressure sensors are connected to the ground control unit of the cable.

The use of ball valves in a device for switching formation strata for simultaneous and separate production from two strata of a well increases the reliability of the installation and ensures tightness when shutting off each of the strata.

The invention is illustrated by figures, which depict:

FIG. 1 - installation for simultaneous and separate production from two layers by an electric centrifugal pump;

FIG. 2 - installation for simultaneous and separate production from two layers with a rod pump;

FIG. 3 - device switching layers, a longitudinal section.

Installation for simultaneous and separate production from two layers of the well (Fig. 1) contains a tubing string 1, a liner 2, a packer 3, an electric submersible pump 4, a submersible motor 5, a casing 6, a unit with pressure sensors 7, a device for switching layers 8 and a control station 9. A submersible motor 5 is connected to the control station 9 by a cable 10, and a unit with pressure sensors 7 and a formation switching device 8 are connected by a cable 11.

Installation for simultaneous and separate production from two layers of the well (Fig. 2) contains a string of tubing 1, a liner 2, a packer 3, a sucker rod pump 12, a unit with pressure sensors 7, a device for switching layers 8 and a control station 9. The unit with pressure sensors 7 and a device for switching layers 8 are connected with the control station 9 by cable 11.

The formation switching device (Fig. 3) contains a head 13, a nipple 14 and a base 15 connected to each other by an upper body 16 and a lower body 17. An inlet channel 18 is located in the head and is connected to the internal cavity, which are connected mutually with non-return valves 19 and 20, to the cavity the upper housing 16, and the passage channel 21. The base 15 contains a ball valve 22 and the passage channel 23. A valve 24 is installed in the nipple 14 separating the internal cavities of the upper and lower bodies 16, 17. The valve 24 is connected to the piston 25. The electromagnetic valve 26 is located dix in the housing 27 and overlaps the cavity under the piston 25 with the interior of the housing 27 and the diaphragm 28. The diaphragm 28 is located in the housing 29, the inner cavity of which is connected via channel 30 to the upper reservoir. The valve 24 is rigidly connected to the pusher 31.

Installation for simultaneous-separate production from two layers of the well works as follows.

The installation (Fig. 1, 2) is lowered onto the tubing string 1 and secured with a packer 3 above the lower wellbore. The flow rate of the pump included in the installation is equal to the total flow rate of two layers.

The pump starts pumping formation fluid from one formation (suppose lower). When the pressure difference between the layers, measured by the unit with pressure sensors 7, reaches a predetermined value (the pressure of the lower layer decreases), the control station 9 supplies an electrical signal to the electromagnetic valve 26 (Fig. 3). The electromagnetic valve 26 opens and communicates the cavity under the piston 25 through the internal cavities of the housing 27, the diaphragm 28 and the housing 29 and the channel 30 with the lower layer. As a result, the diaphragm 28 is compressed, the piston 25 moves up and closes the valve 24, and the pusher 31 opens the valve 20. There is production from the upper reservoir.

When the pressure difference between the layers reaches a predetermined value (the pressure of the upper layer decreases), the control station 9 provides an electrical signal to the solenoid valve 26. The solenoid valve 26 opens and communicates the cavity under the piston 25 through the internal cavities of the housing 27, the diaphragm 28 and the housing 29 and the channel 30 with the lower layer. As a result, the diaphragm 28 expands, the piston 25 moves down and opens the valve 24, and the pusher 31 lowers and closes the valve 20. Production from the lower reservoir occurs. The cycle repeats.

Thus, the solutions used in the invention increase the reliability of the installation and its life.

Claims (2)

1. Installation for simultaneous-separate production from two layers of the well contains a column of tubing, cable, liner, a packer installed on the outside of the liner between the layers, and an electric centrifugal pump for pumping production of formations with an input module, an electric motor and a casing surrounding only the electric motor together with a cable ending on the input module, characterized in that the bottom of the casing is connected to the output of the formation switching device, consisting of a head, nipple and base connected by upper and lower them with housings, the head is connected to the casing and contains input channels connected to the upper layer, the input channels are connected through two upper mutually reverse ball valves through the upper body and the head with the internal cavity of the casing, the base is connected to the shank, with pressure sensors installed on it, the internal cavity of which through a ball valve is connected with the internal cavity of the lower case and through the valve in the nipple with the internal cavity of the upper case, the valve in the nipple is driven by with a piston whose supra-piston cavity is connected to the inner cavity of the lower body and the piston through the solenoid valve and the diaphragm with the upper layer, the valve in the nipple is rigidly connected to the pusher, which opens one of the ball valves of the upper layer when the valve is closed in the nipple and vice versa, the electromagnetic valve and pressure sensors are connected to the ground control unit cable. 2. Installation for simultaneous-separate production from two layers of the well contains a column of tubing, a liner, a packer installed outside the liner between the layers, and a sucker rod pump for pumping out the formation, characterized in that the pump inlet is connected to the output of the formation switching device, consisting of a head, a nipple and a base connected by upper and lower bodies, the head is connected to a pump and contains input channels connected to the upper layer, input channels through two sequentially arranged borrowed ball check valves are connected through the upper housing and the head to the pump inlet, the base is connected to the shank, with pressure sensors installed on it, the internal cavity of which is connected through the ball valve to the internal cavity of the lower housing and through the valve in the nipple to the internal cavity of the upper housing, in the nipple, it is driven by a piston, the supra-piston cavity of which is connected with the internal cavity of the lower body, and the piston cavity through the solenoid valve and the diaphragm with the upper layer, the valve in the nipple is rigidly connected to the pusher, which opens one of the ball valves of the upper layer when closing the valve in the nipple and vice versa, the electromagnetic valve and pressure sensors are connected to the ground control unit of the cable.

Images