RU2696954C1 - Device for transmitting information over an electromagnetic communication channel during operation of wells - Google Patents

Abstract

FIELD: electrical communication engineering.

SUBSTANCE: invention relates to transmission of bottom-hole information from well to surface via electromagnetic communication channel and can be used for monitoring process of well operation. Disclosed is a device for transmitting information over an electromagnetic communication channel during operation of a well from a lowered metal pipe string to form an annular channel between them and an inner metal string of the well pump rods, comprising a ground generator, connected by its contacts to the upper part of the pipe string and the rods, a dielectric insert dividing the string in the well into upper and lower parts, a switch for opening and closing contacts of the upper and lower parts of the metal column, a synchronization unit which determines the period and cycle time of transfer of information depending on the operation mode of the installation of the sucker-rod pump. Dielectric insert is placed in the string of the rods of the well pump, and the synchronization unit is connected to ends of the dielectric insert.

EFFECT: high reliability of transmitting information from the bottom-hole and wider field of use thereof.

1 cl, 1 dwg

Description

The invention relates to a control system and information transfer through a network of interconnected pipeline elements, in particular, to the field of downhole information transmission from a well to the surface via an electromagnetic communication channel and can be used to monitor the operation of a well.

A known method of creating an electromagnetic communication channel, which consists in the excitation of an electric current in a column of metal pipes separated by a dielectric insert, and registration on the surface of the induced potential difference between the drill pipe string and a remote point from the wellhead. In this case, the induced potential is modulated by an appropriately encoded signal (information), and the energy necessary to excite the current is generated at the bottom using a downhole generator that selects part of the power of the flushing fluid flow generated by the mud pump (A.A. Molchanov, G.S. Abramov. Cordless systems for researching oil and gas wells (theory and practice) / Edited by A. A. Molchanov - Moscow: VNIIOENG OJSC, 2003).

The disadvantages of the method are the instability of the signal value associated with changing conditions for the passage of currents in soils and the limited power of the downhole generator, as well as the inability to use without a downhole (downhole) energy source, which limits the scope of the system.

There is a method of transmitting downhole information through an electromagnetic communication channel by generating information in the form of electrical signals and transmitting them to the wellhead through a drill pipe string using an electrical splitter, while a DC voltage is applied to the drill pipe string above the electrical splitter (US Pat. RF) No. 2426878, published on 08.20.2011.). In the well containing the drill pipe string with an electric separator, a downhole transmitter is connected to the upper and lower electrodes of the separator. At the wellhead, a constant voltage source is placed, connected to the drill pipe string, and at the other end through a receiving device, to a receiving electrode. A constant voltage polarizes the surface of the metal of the drill pipe string, creating a double electric layer on the metal surface that reduces the surface conductivity of the metal, which prevents the transfer of a part of the transmission current to the drill pipe string, thereby increasing the power of the received signal.

A disadvantage of the known solution is the use of a downhole transmitter, the possibility of which is limited by the power of an autonomous power source, which, as mentioned above, limits the scope of the device.

A known method of transmitting downhole information by excitation of electric current in a metal column in a well using a ground generator connected with one contact to the ground part of the metal column, and the other contact to the receiving electrode on the surface of the well. In this case, the dielectric insert is switched, dividing the metal column in the well into the upper and lower parts. Moreover, another column of metal pipes lowered into this well is used as a receiving electrode. Thus, an electric circuit is formed from a metal column in the well and a receiving electrode, through which a constant-value constant current is transmitted from the ground generator. In this case, obtaining information from the bottom of the well is carried out depending on the modulation of the magnitude of the voltage caused by the switching of the dielectric insert. A stabilized direct current source is used as a ground generator, and a metal column of tubing can be used as a receiving electrode (RF Patent No. 2494250, Bull. 27, 09/27/2013)

A disadvantage of the known solution is that when the plunger moves down the rod string is bent, and the electric circuit "rod string-tubing" may be closed even before the dielectric separator. The latter significantly reduces the reliability of the communication channel.

A device for transmitting information through an electromagnetic communication channel during operation of a well with metal deflated into it to form an annular channel between them by an outer pipe and an inner column, comprising a ground generator connected by its contacts to the upper part of the pipe and column, a dielectric insert separating the column in the well on the upper and lower parts, a key for opening and closing the contacts of the upper and lower parts of the metal column, a synchronization unit that determines the period and the well be information transmission repetition (RF Patent №2256074, IPC E 21 B 47/12;.. 43/12, opub 10.07.2005, Bul №19), which was adopted as a prototype.

A disadvantage of the known device is the lack of reliability of information transfer by the communication channel due to the possibility of electric circuit formation when touching the rod string with tubing during the rod down.

The objective of the invention is to increase the reliability of the transmission of information from the face through an electromagnetic communication channel.

This problem is solved by the fact that in the device for transmitting information via an electromagnetic communication channel during well operation, comprising a ground-based direct current generator connected by one contact to the ground part of the metal string, and by another contact to the receiving electrode on the surface of the well, a dielectric insert separating the metal the column in the borehole on the upper and lower parts of the borehole block, consisting of a key for opening and closing the contacts of the upper and lower parts of the metal column, in wherein said contacts are closed to the synchronization unit for sending information with the plunger moving up, determined by the invariance of the constant voltage across the dielectric insert. The upper part of the metal rod string and tubing (tubing) are isolated from each other.

The figure 1 presents a diagram of the proposed device.

The device (Fig. 1) contains a stabilized current source 1, connected by one contact 2 to the ground part of the column of metal hollow rods (metal column) 3, and by the other contact to the receiving electrode 4 of the metal tubing 5 (another metal column), in which it is concentrically mounted a column of metal hollow rods 3. Between the indicated contacts, a voltage change recording unit is installed, for example, a differential voltmeter 6. The metal column 3 in the well is divided by a dielectric insert 7 into the upper part five and a lower portion, the voltage at which the monitored synchronization unit 12 and to transmit information closes / opens the key 8. In the bottom zone to the metal column 3 is attached subsurface pump 9 for pumping fluid. At the wellhead, the metal string 3 and tubing 5 are separated by a gland 10 of dielectric material. Pos. 11 - dielectric centralizer scraper. The dashed line shows the generated electrical circuit.

The ground generator 1 generates a constant stabilized current in magnitude, which, passing through a metal column 3, separated by a dielectric insert 7, charges the accumulators of the borehole block and creates a potential difference on the dielectric insert.

The synchronization unit monitors and determines the period and duty cycle of the transmission “windows”, monitors the battery energy of the downhole unit batteries, informs the executive unit about the readiness for transmission, and issues a command to transmit information according to a specified schedule.

When the key 8 is closed, the effective conductivity increases and the voltage of the stabilized current source (ground generator) 1 drops, which is recorded by a differential voltmeter 6 connected to pins 2 and 4 of the specified current source. In this case, the change in the potential difference is modulated accordingly encoded signal (information). Since a gland 10 of dielectric material is installed at the wellhead, and a centralizer scraper 11 (maybe several pieces) of dielectric is placed in the well at the top of the metal column, the metal rod string 3 and the metal tubing string 5 are electrically separated.

During the operation of the well, a column of metal rods is lowered into the metal tubing, on which a deep pump is installed to pump the fluid. During operation, it is necessary to obtain information about the technical condition of the pump and the rheological properties of the pumped fluid. To do this, on the surface using a stabilized current source connected by one contact (clamp) to the ground part of the metal column, which can be a column of metal rods, and another contact (clamp) to the receiving electrode at the mouth, which is used as another metal pipe, for example, tubing, a constant stabilized current I _{stable is supplied to the well.} which, passing through a metal column (a column of metal rods), creates a potential difference Δϕ at the ends of the dielectric insert:

where I _del.inserts - the current flowing through the dielectric insert:

where I is _stable. - stabilized current of the ground generator, R _charge. and R _{plast. fluid.} accordingly, the resistance of the charge circuit of the accumulators of the borehole block and the column of formation fluid in the annular space between the NTK column and the rod string:

where ρ _fluid. - resistivity of the produced fluid,

D _int. and d _ext. - respectively, the diameters of the inner tubing and the outer column of the rods,

H is the length of the rod string from the mouth to the separator.

After that, the synchronization unit determines the duration and duty cycle of the DC voltage pulses on the dielectric insert, monitors the charge energy of the borehole unit batteries, informs the executive unit about the readiness for transmission, determines the optimal transmission frequency and issues a command for switching with the key of the lower and upper parts of the metal column the moment the “transmission window” appears (plunger moves up), changing the effective value of the conductivity between the receiving electrode (another metallic column) and the constant current source metal column with dielectric insert. When the key is closed, the indicated effective conductivity increases, and the voltage at the terminals of the stabilized current source drops, which is recorded by the registration unit. By changing the measured voltage, the parameters of the bottomhole zone are judged. The sequence of key closures is determined by the encryption module of the downhole measurement unit, and the duration is determined by the characteristics of the transmission channel (line length, linear capacity and inductance), as well as the duration of the "transmission window", and is selected experimentally due to feedback from the ground-based registration unit.

Thus, a useful signal is the change in voltage at the terminals of the current source, which maintains a constant in magnitude (stabilized) current, the value of which is determined by the transmission conditions - the electrical conductivity of the formation.

Claims (1)

A device for transmitting information through an electromagnetic communication channel when operating a well with a metal pipe string lowered into it to form an annular channel between them and an internal metal column of sucker-rod pump rods, comprising a ground generator connected by its contacts to the upper part of the pipe string and rods, a dielectric insert, a dividing column in the well on the upper and lower parts, a key for opening and closing the contacts of the upper and lower parts of the metal column, synchronization unit and, determining the period and duty cycle of the transmission of information depending on the operating mode of the sucker rod pump installation, characterized in that the dielectric insert is placed in the rod string of the well pump, and the synchronization unit is connected to the ends of the dielectric insert.

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