RU2581852C1 - Device for monitoring parameters in operation of intelligent well - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to pressure and temperature monitoring device for smart gas and gas condensate wells. Device includes submersible equipment and surface equipment connected to downhole equipment. Submersible equipment comprises optical temperature and pressure sensor arranged in holder and equipped with submersible fibre-optic cable, and surface equipment comprises processing system, control and data storage of constant temperature and pressure monitoring, equipped with ground fibre-optic cable connected by means of tight coupling with submersible fibre-optic cable, and including operator post and optoelectronic unit for processing information of temperature and pressure constant monitoring and having possibility of interaction by means of wireless communication with operator station providing control and storage of temperature and pressure monitoring parameters, wherein optoelectronic unit is installed in protective housing equipped with heating and air conditioning systems and independent power supplies.

EFFECT: technical result is high reliability and operational qualities of device.

1 cl, 3 dwg

Description

The invention relates to the oil and gas industry, and in particular to a pressure and temperature monitoring device for intelligent gas and gas condensate wells operating in the Far North, namely on the Yamal Peninsula.

It is known to use an intelligent insertion sensor when testing wells in two dimensions with the placement of sensors in the reservoir and in the wellbore to measure reservoir pressure at the location of each sensor and transmit the received data for processing (RU 2450123 C2, E21B 49/00, E21B 47/06, E21B 47/12, 05/10/2012).

A device for simultaneous and separate operation of multilayer wells, including measuring transducers and equipped with an intelligent control system located on the wellhead and associated with the measuring transducers (RU 89604 U1, E21B 43/14, 12/10/2009).

A self-contained submersible downhole pressure and temperature meter is known, made with a control and data processing system for pressure and temperature sensors, with the ability to write read data to memory using an electronic circuit (ej.kubagro.ru/2005/06/04/p04.asp).

Sensa, Schlumberger, a well-known monitoring system using fiber optic systems, provides continuous data acquisition without intrusion into the well and the ability to reliably and accurately receive and transmit well data in real time, while permanently installed fiber-optic equipment allows temperature measurement in the well bore and transmit relevant data to the surface (slb.ru/page.php?code=54).

A self-contained device for geophysical exploration in an oil, gas or water well is known, comprising recording and recording equipment installed in the housing, an information archive, power batteries and a receiver and transmitter for electromagnetic communication with a transmitter-receiver on the surface (RU 24702 U1, E21B 47 / 00, 08/20/2002).

Known multifunctional automatic complex station of an intellectual well, including submersible equipment and ground equipment connected to submersible equipment, while the complex station provides integrated control of various processes of the underground equipment of the well with the possibility of archiving data on the operation of each of the processes, remote control and transmission of work data each of the processes wirelessly and / or wired channel, as well as MTBF Nogo equipment (RU 128894 U1, E21B 36/04, E21B 37/06, E21B 47/00, 10.06.2013).

Weatherford’s fiber-optic pressure and temperature sensor is known for continuous monitoring of pressure and temperature in the reservoir and is installed in wells both above and below the packer (weatherford.ru/assets/files/pdf).

Known devices have individual performance and use.

A device for controlling fluid pressure in a well is known, including submersible equipment and ground equipment connected to submersible equipment (RU 35654 U1, E21B 47/00, January 27, 2004).

This technical solution is made as the closest analogue of the present invention.

In the closest analogue, the ground equipment contains a control device installed at the wellhead and connected to the cable, and for supplying fluid from the well to the control device, a channel is made in which a cable with an internal airtight tube is installed, and a downhole fluid pressure transducer is used as submersible equipment the fluid pressure in the tube, made in the form of a piston with a rod.

In the closest analogue, the pressure inside the borehole is recorded by the control device at the wellhead, and the transducer monitors the dynamics of the borehole pressure, which increases the pressure in the tube above the borehole pressure and transfers not the borehole pressure to the wellhead, but the difference between the generated pressure in the tube at the corresponding depth of the transducer in the borehole and hydrostatic pressure of the liquid in the tube at the same depth.

To find out the true value of the borehole pressure in the closest analogue, it is necessary to reduce the obtained pressure in the tube by the coefficient of pressure increase of the transducer and multiply by the ratio of the densities of the borehole fluid and the fluid in the tube.

There is no possibility of continuous monitoring in the closest analogue.

In addition, processing and storage of measurement parameters in the nearest analogue is not carried out.

The present invention is based on the solution of the problem, which improves the reliability and performance of the device.

The technical result of the present invention consists in constant monitoring of pressure and temperature due to the implementation of the device with an optical sensor for measuring temperature and pressure and with ground-based equipment containing a system for processing, monitoring and storage of information; in ensuring the reliability of the device through the use of optical technologies that ensure electrical safety, and due to the implementation of the optoelectronic unit in a protective housing; to improve performance due to the constructive implementation of submersible and ground equipment with the location of functional monitoring devices in them.

According to the invention, this problem is solved due to the fact that the device for monitoring parameters during operation of an intelligent well includes submersible equipment and ground equipment.

Ground equipment is connected to submersible equipment.

Submersible equipment contains an optical sensor for measuring temperature and pressure, located in the holder and equipped with a submersible fiber optic cable.

Ground-based equipment contains a system for processing, controlling and storing information of constant monitoring of temperature and pressure, equipped with a ground-based fiber-optic cable.

The terrestrial fiber optic cable is connected through a sealed coupler to a submersible fiber optic cable.

The system of processing, control and storage of information for constant monitoring of temperature and pressure includes an operator station and an optoelectronic unit.

The optoelectronic unit provides information processing for constant monitoring of temperature and pressure.

The optoelectronic unit has the ability to interact through wireless communication with the operator's post.

The operator station provides control and storage of temperature and pressure monitoring parameters.

The optoelectronic unit is installed in a protective case equipped with heating and air conditioning systems and autonomous power sources.

The applicant has not identified sources containing information about technical solutions identical to the present invention, which allows us to conclude that it meets the criterion of "novelty."

Due to the implementation of the distinguishing features of the invention (in conjunction with the features indicated in the restrictive part of the formula), important new properties of the object are achieved.

The use of optical technologies in submersible and ground equipment ensures electrical safety.

The implementation of the device with submersible equipment containing an optical sensor for measuring temperature and pressure, and with ground-based equipment with a system for processing, monitoring and storage of parameter information at the installation site of the optical sensor for measuring temperature and pressure allows constant monitoring of parameters.

The implementation of submersible and ground-based equipment, the location of monitoring devices in them: transmission, processing, control and storage of data, ensures improved performance.

The presence of a sealed sleeve for connecting a submersible fiber optic cable to a terrestrial fiber optic cable improves performance.

The implementation of the optoelectronic unit with a protective housing, equipped with heating and air conditioning systems and autonomous power sources, increases the reliability of the device and its operation.

The applicant is not aware of any publications that would contain information on the influence of the distinguishing features of the invention on the achieved technical result. In this regard, according to the applicant, it can be concluded that the claimed technical solution meets the criterion of "inventive step".

The invention is illustrated by drawings, which depict:

in FIG. 1 is a functional diagram of a device;

in FIG. 2 - submersible equipment, schematically;

in FIG. 3 - intelligent well, schematically.

The drawings show:

submersible equipment - 1,

optical sensor for measuring temperature and pressure (equipment 1) - 2,

holder (sensor 2) - 3,

submersible fiber optic cable (sensor 2) - 4;

ground equipment - 5,

a system for processing, controlling and storing information of constant monitoring of temperature and pressure (equipment 5) - 6,

optoelectronic unit (systems 6) - 7,

protective case (block 7) - 8,

ground fiber optic cable (systems 6) - 9,

operator post (system 6) - 10;

tight coupling (cable connections 4 and 9) - 11.

The device monitors the parameters during the operation of an intelligent well.

The device includes submersible equipment 1 and ground equipment 5.

Submersible equipment 1 contains an optical sensor 2 for measuring temperature and pressure.

The optical sensor 2 is placed in the holder 3.

As an optical sensor, an optical sensor “R / T-B” manufactured by LLC Petrofiber was used.

The optical sensor 2 is equipped with a submersible fiber optic cable 4.

Ground equipment 5 contains a system 6 for processing, monitoring and storage of information for constant monitoring of temperature and pressure.

System 6 processing, control and storage of information for constant monitoring of temperature and pressure is equipped with a terrestrial fiber optic cable 9.

Terrestrial fiber optic cable 9 is connected through a sealed sleeve 11 with a submersible fiber optic cable 4.

System 6 processing, control and storage of information for constant monitoring of temperature and pressure includes an operator post 10 and an optoelectronic unit 7.

The optoelectronic unit 7 provides information processing for constant monitoring of temperature and pressure.

The optoelectronic unit 7 has the ability to interact via wireless communication with the operator station 10, providing control and storage of temperature and pressure parameters.

The optoelectronic unit 7 is installed in a protective housing 8, equipped with heating and air conditioning systems and autonomous power sources.

As the optoelectronic unit, the R / T-1 optoelectronic unit manufactured by LLC Petrofiber was used.

The operation of the parameter monitoring device is shown by the example of the operation of the intellectual well shown in FIG. 3.

When operating the well, the optoelectronic unit 7 located at the wellhead sends a signal to the optical sensor 2 installed in the holder 3 mounted on the tubing string. Under the influence of temperature and pressure, the sensitive element of the optical sensor 2 modifies and reflects the signal.

Submersible fiber optic cable 4 transmits a signal inside the tubing string.

Submersible fiber optic cable 4 is located inside a sealed stainless tube (not shown). The tube is protected from the outside by a braid that accepts all axial forces, and also protects against mechanical damage and wear during tripping.

Submersible fiber optic cable 4 is fixed on the tubing string with a metal banding tape using a special tool to ensure reduced installation time.

The tight clutch 11 connecting the submersible 4 and the ground 9 fiber optic cables prevents flowing in the event of damage to the submersible fiber optic cable 4.

Terrestrial fiber-optic cable 9 is laid in the cable channel to the installation site of the optoelectronic unit 7, in which the optical signal is converted. The received data via wireless communication is transmitted to the post of the operator 10, where they are visualized for viewing and accumulated for storage.

The optoelectronic unit 7 is installed in the protective housing 8. The protective housing 8 is equipped with heating and air conditioning systems and autonomous power supplies that allow temporarily operating ground equipment 5 in case of power outages.

Operator post 10 may service several wells equipped with monitoring devices.

The design of the device allows for constant monitoring of pressure and temperature of a working well.

The proposed device for monitoring parameters during the operation of an intellectual well was carried out using well-known optical technologies widely used in instrumentation, as applied to gas and gas condensate wells, and carried out design and technological studies of LLC Scientific-Production Firm Zavod Measuring Plant LLC and experimental tests for the wells of the Bovanenkovo gas field on the Yamal Peninsula, according to the applicant, determine the device’s compliance with the criterion “pr industrial applicability. "

Using the proposed device for monitoring parameters can improve reliability and its performance.

Claims (1)

A device for monitoring parameters during the operation of an intelligent well, including submersible equipment and ground equipment connected to submersible equipment, characterized in that the submersible equipment contains an optical temperature and pressure measurement sensor located in the holder and provided with a submersible fiber optic cable, and the ground equipment contains a processing system, control and storage of information for constant monitoring of temperature and pressure, equipped with terrestrial fiber optic cable can be connected via an airtight clutch with a submersible fiber optic cable, and includes an operator station and an optoelectronic unit that provides information processing for constant monitoring of temperature and pressure and has the ability to interact via wireless communication with an operator station that provides control and storage of temperature and pressure monitoring parameters, while the optoelectronic unit installed in a protective enclosure equipped with heating and air conditioning and autonomous power supplies.

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