RU2279542C2 - Downhole information transmission device - Google Patents

Abstract

FIELD: means for transmitting measuring-signals from the well to the surface, for instance for logging while drilling.

SUBSTANCE: device comprises downhole telemetering system with downhole instrument installed in drilling string or in casing pipe, as well as land-based receiving-and-transforming assembly. Connected to downhole instrument are power source and transmission coil. Transmission coil is wound on outer surface of drilling string or casing pipe made of magnetic material and threadedly connected with downhole telemetering system body. Transmission coil is connected with downhole instrument output by the first coil end and with drilling string or casing pipe by the second end thereof. Receiving coil is installed in upper flow string part. Land-based receiving-and-transforming assembly includes receiving coil installed in upper part of drilling string, receiving device having input connected with the receiving coil and output linked to computer. Transmission coil may be enclosed with protective cover or case. Protective cover is formed of dielectric material.

EFFECT: provision of information transmission through shielding layers with high conductivity without information garbling.

3 cl, 1 dwg

Description

The invention relates to systems for transmitting downhole information during drilling and during oil or gas production.

A known telemetry system for transmitting downhole information through a hydraulic communication channel according to the application of the Russian Federation No. 96121043, comprising a ground part connected by a hydraulic communication channel to a downhole part, which includes a downhole motor, diverter, a hydraulic information pulse generating unit with an actuator and a drive connected to an electric generator having a drive, characterized in that the drive of the generator is made in the form of a curved roller, a gearbox with an electromagnetic clutch and a screw pair, with than one end of the roller is connected to the shaft of the downhole motor, and the other to the gearbox, which is mounted with the possibility of transmitting movement through screw pairs to the diverter and directly to the electric generator mounted on the same axis as the drive of the hydraulic information pulse generating unit, the actuating organ of which is adjustable passage of flushing fluid into the annulus.

Disadvantages of systems with a hydraulic communication channel: design complexity and high cost.

Known downhole telemetry system for transmitting downhole information through an electromagnetic communication channel according to US Pat. RF №21933657. The downhole telemetry system comprises a ground receiving and processing apparatus and a downhole tool with an electronic unit installed in a pipe string and a power source made in the form of an electric generator or a battery of electrical elements. The power source is removable and has a docking device and / or a device for removal on the upper end, and a tip with one or more electrical contacts on the lower end. In the upper part of the downhole tool, a docking device is made for installing at least one replaceable power source. The docking device of the downhole tool can be performed by ensuring the switching of the electronic unit of the downhole tool to a newly installed replaceable power source, as well as by providing a circumferential orientation and fixing of the above-installed replaceable power source. Interchangeable power supplies can be installed one above the other.

The disadvantage of the system is that it is not functional in shielding formations with high conductivity and as part of a drill pipe string.

A device for transmitting downhole information through a magnetic communication channel by ed. St. USSR №608051 (prototype), containing transmitting and receiving communication coils, a magnetic circuit mounted along the entire length of the drill pipe string and an amplifier connected to the receiving coil.

The disadvantage of the system is its low efficiency in the frequency range 1 ... 10 Hz, adopted for telemetry systems with a magnetic communication channel and structural complexity associated with the installation of a magnetic circuit along the entire length of the drill pipe string. Installation of the magnetic circuit is really impossible, because the magnetic core will consist of individual elements for which corresponds to the length of one pipe that is part of the drill pipe string, i.e. 12 ... 18 m. The individual elements of the magnetic circuit must be interconnected along the thread, and this will reduce the magnetic permeability of the magnetic circuit. The magnetic flux carrying the signal will weaken and it will not be possible to receive it from a depth of more than 500 ... 800 m. A large magnetic field frequency of 0.1 ... 1.0 MHz is acceptable for transmission through soft magnetic material; it is not transmitted through the drill pipe string which are made of high alloy steel. Thus, in case of insufficient cross-section of the magnetic core made of soft magnetic material or in its absence, the signal with the recommended frequencies cannot be transmitted even by several tens of meters.

In addition, in the amplifier, along with the amplification of the received signal, interference is amplified and, as a result, the signal cannot be extracted.

The objective of the invention is to ensure the transmission of information from the downhole telemetry system, including in shielding layers with high conductivity and when it is in the casing string.

The solution to this problem was achieved due to the fact that in the device for transmitting downhole information containing a downhole telemetry system installed in a drill string or casing pipe with a downhole tool and a power source and a transmitting coil connected to it, and ground receiving and converting equipment, including receiving coil, transmitting coil wound on the outer surface of the drill or casing of magnetic material connected by a thread to the body of the downhole telemetry system , and is connected at one end to the outlet of the downhole tool, the other to the drill string or casing, the pickup coil is installed at the top of the pipe string, the ground receiving and converting apparatus further comprises a pickup device, to which the pickup coil is connected, and to the output - a computer. The transmitting coil is covered with a protective coating or casing. The protective coating is made of insulating material.

The proposed technical solution has novelty, inventive step and industrial applicability. Novelty is confirmed by patent research. Industrial applicability is confirmed by the fact that for the implementation of the project, equipment previously used for systems with an electromagnetic communication channel and two coils (windings from copper wire) are additionally used. The inventive step is confirmed by the fact that such systems have not yet been created.

The invention is illustrated in the drawing.

The device for transmitting downhole information includes a downhole telemetry system 2 installed in the string of drill or casing pipes 1, which in turn contains a non-magnetic body 3, a downhole tool 4 with sensors and converting equipment, a power source 5 (generator or battery or thermoelectric energy source) . The power source 5 is connected to the downhole tool with two electrical circuits: low power to power the electronic components of the downhole tool and high power to power the emitter (transmitting coil). An electric wire 9 passes through the power supply 5 in transit. A drill or casing 6 of magnetic material is connected to the upper part of the telemetry system 2 by means of a standard conical thread. On the drill (casing) pipe 6 is wound transmitting coil 7, which performs the function of the emitter. The transmitting coil 7 is closed by an insulating layer and / or a protective casing 8 to prevent damage. The output from the downhole tool 4 is connected by a wire 9 to one output of the transmitting coil 7, and the other output of the transmitting coil 7 by a wire 10 is connected to a magnetic drill or casing 6. A receiving coil 11 is installed at the top of the drill string (or casing), the outputs of which 12 and 13 are connected to a receiving device 14, the receiving device 14 is connected to a computer 15 to which a monitor 16 is connected. At the top there is a pump 17 for supplying drilling mud.

During operation, the sensors of the downhole tool 4 measure inclinometric angles that determine the spatial position of the bottom of the drill pipe string and the direction of horizontal drilling. In addition, any other sensors may be installed in the downhole tool to measure the environmental parameters in the face and / or the characteristics of the turbodrill and generator. The analog signals from the sensors are converted to digital binary code, modulated depending on the readings of the sensors, and sent through wire 9 to the transmitting coil 7. The output of the transmitting coil 7 is grounded to the pipe string 1. Thus, magnetic flux pulses are generated inside the transmitting coil 7 that correspond to the readings sensors of the downhole tool 4. The pulsed magnetic flux along the drill pipe string is transmitted upward, while the signal is significantly weakened. The magnetic flux pulses pass in the upper part of the drill pipe string 1 inside the receiving coil 11 and induce an EMF (voltage) on the winding of this coil. From the outputs of the receiving coil 12 and 13, the voltage is supplied to the receiving device 13, in which the signal is amplified and extraneous noise is filtered out from it. From the receiver, the signal (voltage pulses transmitted from the downhole tool 4) is fed to the input of one of the ports of computer 15. As computer 15, a standard Pentium computer of any configuration is used. The operating system is any. The software necessary for the operation of the device is pre-recorded in the RAM of the downhole tool, in the receiving device and in the computer.

The software was developed by ZAO NPP Samara Horizons and officially registered with FIPS.

Developed 8 computer programs:

1. The control program for the downhole tool ZTS SP-01, No. 2000611052.

2. The program "Downhole telemetry system ZTS 172 M", No. 2000611215.

3. Downhole telemetry system ZTS 172, No. 20006111262.

4. The control program for the downhole tool ZTS SP 02, No. 2001610248.

5. Data processing program for entering into the PC software USO 1.00, No. 2001610146.

6. Program for processing data for input into a PC (software USO2.00) No. 2001610247.

7. Data processing program for input into a PC (software USO 2.10), No. 2001610245.

8. The program of the downhole telemetric system "Strela", No. 2001610376. It is proposed to use frequencies of 1 ... 100 Hz to transmit information through a magnetic communication channel. This range covers the frequency range used for the electromagnetic communication channel: 1 ... 10 Hz, which allows the use of existing equipment (receiving device and software). Mastering higher frequencies of 10 ... 100 Hz will increase the amount of information transmitted by an order of magnitude and use the same equipment without modification or with minor changes.

The use of frequencies stated in the prototype 0.1 ... 1.0 MHz is unrealistic due to significant losses of magnetic flux in the drill pipe string, which are made of high alloy magnetic steel, which is selected according to the strength characteristics, and not soft magnetic material, the strength properties of which very bad.

The application of the invention allowed:

1. For the first time to create a telemetry system operating on a magnetic communication channel.

2. To transmit downhole information without distortion through shielding layers with high conductivity.

3. To ensure the transmission of downhole information when installing a telesystem in a casing string, which is very important when drilling sidetracks from cased wells.

Claims (3)

1. A device for transmitting downhole information containing a downhole telemetry system installed in a drill string or casing with a downhole tool and a power source and a transmitting coil connected thereto, and a ground receiving and converting apparatus, including a receiving coil, characterized in that the transmitting the coil is wound on the outer surface of the drill or casing of magnetic material, threaded to the body of the downhole telemetry system, and connected at one end to a downhole tool house, another with a drill string or casing, a pickup coil is installed at the top of the pipe string, the ground pick-up apparatus further comprises a pickup device, a pickup coil is connected to the input, and a computer is connected to the output. 2. The device according to claim 1, characterized in that the transmitting coil is closed with a protective coating or casing. 3. The device according to claim 2, characterized in that the protective coating is made of electrical insulating material.