RU188077U1 - Measuring device of an electric submersible pump installation - Google Patents

Abstract

The claimed technical solution relates to the oil industry, to the operation of wells for producing fluid (a multiphase medium — a mixture of oil, associated water and gas), for regulating production from a productive horizon (formation), as well as for exploring wells, including without extracting pumping equipment , and is intended for transmitting telemetric information, in particular, environmental parameters and parameters of a submersible electric motor. The essence of the claimed technical solution lies in the fact that the intermediate and main measurement units are connected to the housing of the pumping unit by means of a set of interchangeable threaded elements mounted on end adapters sealed at the ends of the measurement units. The measurement units are equipped with a sealed cable entry for the installation of a conductive core, placed in a prefabricated housing with a crimp collet at the inlet and a set of sealing deformable elements configured with radial and mechanical sealing of the cable core. 2 s.p. f-ly, 4 ill.

Description

The claimed technical solution relates to the oil industry, to the operation of wells for producing fluid (a multiphase medium — a mixture of oil, associated water and gas), for regulating production from a productive horizon (formation), as well as for exploring wells (including without extracting pumping equipment) ), and is intended to transmit telemetric information, in particular, environmental parameters and parameters of a submersible electric motor.

Currently, electric submersible pumping units are widely used for the extraction of formation fluids, in particular, submersible motor driven units, which also include hydraulic compensator, plunger pump, and telemetry modules. In an advantageous embodiment, the telemetry module is installed under the motor module, which limits the ability to measure the parameters necessary for the efficient operation of the pump unit. Also currently known technical solutions provide for the use of telemetry units complete with a pump unit without the possibility of unification and use in pump units with various sizes.

One example of such an implementation is a measuring module of an electric submersible pump installation, which is known from the patent for invention US8821137 from 09/02/2014, IPC E21B29 / 02; E21B43 / 02 BAKER HUGHES INC, where the measuring electronic unit is located inside the housing. An electrical connector in the upper part of the housing comes into contact with an additional electrical connector in the lower part of the motor. The connector in the lower part of the housing of the measuring module is identical with the connector in the lower part of the motor, and the connector in the upper part of the housing of the measuring module can be identical with the connector at the end of the product pipeline.

The disadvantages of the described technical solution include the limited ability to measure well parameters, in particular at the inlet of the pump unit, as well as the need for individual production of measuring modules for each size of the submersible motor.

From the patent for the invention RU 2338875 from 11/20/2008, IPC E21B47 / 00; F04B47 / 00, Schlumberger Technology, there is a known system and method for measuring parameters in a wellbore, according to which the measurements are carried out by using one or more sensor sub integrated into the connections between the stages of an electric submersible pump installation. Each sensor sub is connected in series with an electric submersible pump string and connected to the ends of adjacent stages of the pump string. Each sensor sub can be used to measure parameters internal and / or external to the electric submersible pump installation.

The disadvantages of the described technical solutions include the serial connection of the sensors, which can lead to failure of the entire system in case of damage or depressurization of one sensor. Also, such a measuring system is applicable to only one type of pumping units and does not allow the efficient modernization of pumping units in operation.

The technical result achieved is similar to the technical one known from the Installation Instructions for the CTKD 223 IM “ELECTON-TMSR-3 SUBMERSIBLE TELEMETRY SYSTEM”. The installation instructions describe a downhole measuring device of an electric submersible pump installation connected with a ground processing and data transmission unit, comprising at least one intermediate and main measurement unit spaced along the length of the pump installation and connected to each other via a cable line.

The disadvantages of the described technical solutions include insufficient tightness of the cable connection, which can lead to failure of the measuring units.

The indicated technical solution was adopted as the closest analogue.

The technical problem to be solved by the claimed utility model is the creation of a unified measuring device for an electric submersible pump unit providing control of well parameters along the entire length of the pump unit, with a hermetic cable connection of increased reliability.

The technical result achieved from the implementation of the proposed technical solution is to unify the design of the blocks of the measuring device of the electric submersible pump installation, expanding the scope with increased reliability of the hermetic cable connection, increasing the accuracy and speed of data transfer with measured well parameters, as well as increasing the tightness of the cable connection

The essence of the claimed technical solution lies in the fact that the intermediate and main measurement units are connected to the housing of the pumping unit by means of a set of interchangeable threaded elements mounted on end adapters sealed at the ends of the measurement units. The measurement units are equipped with a sealed cable entry, for the installation of a conductive core, placed in a prefabricated housing with a crimping collet at the inlet and a set of sealing deformable elements configured with radial and mechanical sealing of the cable core.

In the intermediate measurement unit, the end adapters are equipped with at least one sensor for measuring the parameters of the well and / or motor, and in the main measuring unit, one of the end adapters is equipped with a filling valve for the oil filling system of the pump unit.

Replaceable threaded elements are made in the form of removable flanges with mounting holes, located depending on the diameter of the pump housing, and the diameter of the mounting hole of the flange corresponds to the diameter of the corresponding end adapter.

At least one intermediate measurement unit is configured to collect and convert into electrical signals indicators of monitored parameters and transmit an electrical signal via a communication line to a main measuring unit installed in the lower part of the pumping unit and connected to a ground control unit, the main measuring unit being a power source for at least one intermediate unit.

The essence of the proposed technical solution is illustrated, but not limited to the following graphic materials:

FIG. 1 - electric submersible pump installation;

FIG. 2 - the main unit of measurement with a set of threaded interchangeable elements;

FIG. 3 - an intermediate measurement unit with a set of threaded interchangeable elements;

FIG. 4 - sealed cable connection in the context.

The claimed technical solution is part of an electric submersible pump installation (Fig. 1), which contains ground 1 and submersible 2 parts. The ground part is presented in the form of a ground control unit 3, made in the form of a three-phase high-frequency inverter-regulator and an output transformer connected to the submersible motor 4 by a cable line 5. The ground control unit also contains a processing and data exchange unit 6 with the measuring device of the electric submersible pump installation.

The submersible part 2 is formed of an electric motor 4, a hydraulic compensator 7, a pump assembly 8, and also a measuring device including, installed at the output of the pump assembly, an intermediate measuring unit 9 (Fig. 1, 3) connected to the main measuring unit 10 (Fig. 1, 2) installed at the bottom of the pump unit. Communication and transmission of an electrical signal from at least one intermediate measuring unit 9 to the main measuring unit 10 is carried out via communication line 11, while the said intermediate unit is supplied with power via the same communication line.

The measurement units 9, 10 are connected to the housing of the pumping unit through a set of interchangeable threaded elements (Fig. 2, 3) mounted on the end adapters 12, hermetically installed at the ends of the measurement units. Measurement units can be installed between the modules of the pump unit, as well as at its extreme points.

Replaceable threaded elements (Fig. 2,3) are made in the form of removable flanges 13 (Fig. 2) and threaded intermediate sleeves 14 (Fig. 2,3). The mounting holes 15 of the flanges 13 are located depending on the diameter of the pump housing, and the diameter of the mounting hole 16 of the flange corresponds to the diameter of the corresponding end adapter 12. The threaded intermediate sleeves 14 are also configured to provide a transition between two different diameters of the connected elements, in particular the measurement unit and the pumping unit module.

The specified implementation allows you to unify the design of the measuring device and ensures its use as a part of submersible pump units with different dimensions of the housing. Also, the described embodiment allows the replacement of the measuring units without violating their tightness during installation / disassembly, which significantly increases the reliability of operation and the accuracy of the measurements.

In the intermediate measuring unit 9, the end adapter 12 is equipped with at least one sensor for measuring the parameters of the well and / or the motor (not shown in the images), and in the main measuring unit 10, one of the end adapters is equipped with a filling valve 17 of the pumping system oil filling system.

As indicated earlier, the connection of the measurement units with each other is provided through a cable line, which is a load-bearing geophysical armored cable 18.

The end adapters of the measuring units 9.10 are equipped with a sealed cable entry 19, for the installation of the conductive core 20 (figure 4). The tightness of the connection is ensured by installing the cable core in the prefabricated housing 21 with a compression collet 22 at the inlet and a set of sealing deformable elements, including end 23 and radial 24 sealing elements, which ensure complete tightness of the cable core 20.

The intermediate unit of measurements 9 installed at the output of the pumping unit is configured to convert into well-controlled parameters of the well, such as temperature and pressure of the wellbore fluid, into electrical signals.

The main unit of measurements 10, installed in the lower part of the pump unit, is configured to collect and convert into electric signals controlled parameters, such as oil temperature and vibration acceleration of the submersible motor in the X; Y; Z planes, as well as the temperature and pressure of the reservoir fluid. The main measurement unit 10 also provides reception and transmission of signals from at least one intermediate measuring unit 9. The signals are fed through the stator winding of the electric motor, the cable line and the secondary winding of the output transformer to the input of the ground unit for receiving and processing data, the same circuit is provided power supply of the indicated main measuring unit 1. Also, the main measuring unit can be equipped with an additional module with active chemicals (not shown in the images).

The implementation of the proposed technical solution contributes to the achievement of the specified technical result, providing a unification of the design of the blocks of the measuring device of the electric submersible pump installation, improving reliability, accuracy and speed of data transfer. It is also possible to control the parameters of the well fluid at the outlet of the pump unit. At the same time, the design of the cable entry ensures tightness of the connection of the contact surfaces in an aggressive environment of an oil well with a temperature range from 0 to + 150 ° C and pressure up to 400 atm.

Claims (3)

1. A downhole measuring device of an electric submersible pump installation associated with a ground processing and data transmission unit, comprising at least one intermediate and main measurement unit spaced apart along the length of the pump unit and connected to each other by a cable line, characterized in that the units measurements are connected to the housing of the pumping unit by means of a set of interchangeable threaded elements mounted on end adapters, hermetically installed at the ends of the measurement units, which are equipped sealed cable entry for the installation of a conductive core, placed in a prefabricated housing with a compression collet at the inlet and a set of sealing deformable elements configured with radial and mechanical sealing of the cable core, at least one intermediate measurement unit is configured to collect and converting indicators of controlled parameters into electric signals and transmitting an electric signal via a communication line to the main measuring unit installed in izhney part of the pump unit and associated ground control unit, wherein the main measuring unit is a power source for at least one intermediate unit. 2. A downhole measuring device of an electric submersible pump installation according to claim 1, characterized in that in the intermediate measuring unit, the end adapters are equipped with at least one sensor for measuring parameters of the well and / or electric motor, and in the main measuring unit, one of the end adapters is equipped with a filling valve of the oil filling system of the pump unit. 3. A downhole measuring device of an electric submersible pump installation according to claim 1, characterized in that the interchangeable threaded elements are made in the form of removable flanges and intermediate sleeves with bore holes located depending on the diameter of the pump installation case, while the diameter of the mounting hole corresponds to the diameter of the corresponding end adapter.

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