RU2651732C1 - Oil and gas wells production tubing electromagnetic flaw detection method - Google Patents

Abstract

FIELD: defectoscopy.

SUBSTANCE: invention relates to the production tubing of oil and gas wells electromagnetic flaw detection method. Oil and gas wells production tubing electromagnetic flaw detection method includes the electromagnetic field excitation in steel production tubing, electromagnetic field signals measurement and processing, signals conversion into digital form, their transfer to the surface and computer processing. Electromagnetic field excitation is carried out by an electromagnet in two stages. At the first stage, supplying the 500–600 mA power supply current to the electromagnet, at which the metal complete magnetic saturation occurs over the entire thickness, performing the electromagnetic field measurement and recording. At the second stage, reducing the electromagnet power supply current to 100 mA, decreasing the metal thickness magnetic saturation, and performing the electromagnetic field measurement and recording. Then, performing the two recorded measurements comparison. At that, measurements of the electromagnetic field with a low power supply current give information about internal and through defects. Presence and nature of external defects is determined by subtracting of the electromagnetic field with a lower magnetic saturation recorded measurements from the electromagnetic field with complete magnetic saturation recorded measurements.

EFFECT: simplification of the defects detection and separation technology located on the production tubing inner and outer walls, ensuring high accuracy of defects detection and separation.

1 cl, 1 dwg

Description

The invention relates to the field of geophysical research of wells and can be used to determine the technical condition of production casing strings and tubing.

A known method of electromagnetic defectoscopy (EMF) in multi-column wells, including measuring the EMF induced in the coil by eddy currents excited in the studied metal barriers by the process of decay of the electromagnetic field caused by the magnetizing current pulses of the coil, each of the receiving and generating coils separately serves a series of pulses of a fixed the duration from the range of 0.1-1000 ms, magnetizing sequentially all metal barriers, starting from the nearest, and the pulse duration increases A metal barrier of each subsequent received data is stored and processed by comparison with model data of processing results of the defect is judged in metallic barriers (RF Patent № RU 2507393, IPC E 21 B 47/08, publ. 02.20.2014 g).

The closest set of essential features is the method of electromagnetic defectoscopy-thicknessimetry of multicore wells, including the excitation of the electromagnetic field in steel production casing by current pulses in the generator coils of the probes, the measurement and primary processing of the signals of the secondary unsteady electromagnetic field (VNEP) in the measuring coils of the probes after switching off the current pulses in generator coils, converting signals to digital form, transmitting to the surface and their com computer processing, the first and second groups of probes are isolated, and for the second group of probes, the duration of the current pulses excited in the generator coils and the time of measuring the VNEP signal in the measuring coils, respectively, are selected at least three times shorter than the duration of the current pulses in the generator coils and the time of measuring the VNEP signal in the measuring coils of the probes of the first group, while the measurements of the signals of the VNEP in the measuring coils of the probes of the first group are produced during the absence of current in the generator coils probes of both groups, and the excitation of current pulses in the generator coils and measurement of the VNEP signal in the measuring coils of the probes of the second group is performed during the passage of current pulses in the generator coils of the probes of the first group. The excitation of current pulses in the generator coils of the probes of the second group is carried out after the excitation of current pulses in the generator coils of the probes of the first group, after a period of not less than 1/3 of the duration of the current pulse in the generator coils of the probes of the first group (RF patent No. RU 2468197, IPC ЕВВ 47/00 , published on November 27, 2012).

The disadvantage of this method is the complexity of its implementation, and also in the case of incomplete blackout in the generator coils of one of the groups of measuring probes, a measurement error occurs.

The objective of the proposed method of electromagnetic flaw detection is to simplify the technology for the detection and separation of defects located on the inner and outer walls of the production casing, as well as to ensure high accuracy in the detection and separation of these defects.

The technical result coincides with the task and is achieved due to the fact that in the method of electromagnetic defectoscopy of production casing oil and gas wells, including the excitation of the electromagnetic field in steel production casing, measurement and processing of electromagnetic field signals, converting signals to digital form, transmitting them to the surface and computer processing, the excitation of the electromagnetic field is carried out by an electromagnet in two stages: at the first stage, a pi current is applied to the electromagnet 500-600 mA, at which the full magnetic saturation of the metal over the entire thickness occurs, and the electromagnetic field is measured and recorded, at the second stage, the electromagnet supply current is reduced to 100 mA, decreasing the magnetic saturation of the metal thickness, and the electromagnetic field is measured and recorded , then two registered measurements are compared, while measurements of the electromagnetic field with a low supply current provide information on internal and through defects, and the presence and nature of external defects is determined removed by subtracting from the measurement for the electromagnetic field with the full magnetic saturation measurement for the electromagnetic field with a smaller magnetic saturation.

Measurement and registration of the electromagnetic field is carried out by means of a magnetic introscope.

The distinguishing features are that the electromagnetic field is excited by the electromagnet in two stages: at the first stage, the electromagnet is supplied with a supply current of 500-600 mA, at which the metal is completely magnetically saturated over its entire thickness, and the electromagnetic field is measured and registered, the second stage, the power supply current of the electromagnet is reduced to 100 mA, decreasing the magnitude of the magnetic saturation of the metal thickness, and the electromagnetic field is measured and recorded, then the two registered measurements, while measurements of the electromagnetic field with a low supply current give information about internal and through defects, and the presence and nature of external defects is determined by subtracting from the registered measurements of the electromagnetic field with full magnetic saturation the registered measurements of the electromagnetic field with lower magnetic saturation, measurement and registration the electromagnetic field produced by a magnetic introscope, simplify the technology for the detection and separation of defects located on the inside bottom and outer walls of the production casing, as well as to ensure high accuracy in the detection and separation of these defects.

An analysis of the known technical solutions, carried out according to scientific, technical and patent documentation, showed that the set of essential features of the claimed technical solution is not known from the prior art, therefore, it meets the conditions of patentability of the invention: novelty and inventive step.

The drawing shows an example of a sweep of the data of a magnetic interoscope with different metal saturation.

The method of electromagnetic defectoscopy of production casing of oil and gas wells is used to detect and separate defects located on the inner and outer walls of the production casing, the shape of the edges of which has sharp outlines (cracks, breaks, lack of penetration, etc.) lying in depths of up to 10 mm , as well as the isolation of through defects in the production casing.

The method includes exciting an electromagnetic field in steel production casing by means of a borehole module comprising a magnetizing device made in the form of a dumbbell-shaped magnetic circuit with a magnetizing coil. The magnetizing device magnetizes a portion of the production casing located between the poles of the dumbbell-shaped magnetic circuit to a state close to "technical saturation" in the direction along the generatrix line of the production casing. The downhole module also contains a main scanning magnetometer system made in the form of a string of N magnetosensitive sensors placed on flexible “skis” between the poles of a dumbbell-shaped magnetic circuit, an on-board controller installed in the immediate vicinity of the magnetizing device and the main scanning magnetometer system, each of N information inputs which is associated with the output of one of the N magnetically sensitive sensors. The output of the power source is connected to the inputs of the magnetizing device, each of N magnetically sensitive sensors and the on-board controller, the output of which is connected to the first input of the ground controller, connected by the second input to the sync output, and the output to a personal computer. Each of the N magnetosensitive sensors is connected to the onboard controller via a sealed connector, filled with a special hermetic compound that provides protection against corrosion, overpressure, high temperature of the oil-water environment of the production casing and vibration, and is mounted on the inside of a flexible "ski" equipped with a stiffener. One or both ends of the flexible "ski" can move in a direction along the inner surface of the production string. The magnetization coil is also filled with a special hermetic compound and placed in a protective casing. Excitation of an electromagnetic field is carried out by an electromagnet in two stages.

At the first stage of excitation of the electromagnetic field, a supply current of 500-600 mA is applied to the electromagnet, resulting in a complete magnetic saturation of the metal over the entire thickness of the column walls. Then measure and register the electromagnetic field.

At the second stage, the supply current of the electromagnet is reduced to 100 mA, decreasing the magnetic saturation of the metal thickness, and the electromagnetic field is measured and recorded, which only reflect defects located on the inner wall of the column.

Measurement and registration of the electromagnetic field in the first and second stages is carried out using a standard MI-50 magnetic introscope device (51) using standard sensors. Then the electromagnetic field signals are processed, converted to digital form, transmitted to the surface and computer processed.

After that, two registered measurements are compared, while measurements of the electromagnetic field with a low supply current give information about internal and through defects, and the presence and nature of external defects is determined by subtracting from the registered measurements of the electromagnetic field with full magnetic saturation of the recorded measurements of the electromagnetic field with a lower magnetic saturation.

Thus, by conducting two measurements at different supply currents of the electromagnet, it is possible to carry out the separation of defects located on the inner and outer surfaces and to identify through defects in the production casing.

The method of electromagnetic defectoscopy of production casing of oil and gas wells can be carried out using standard equipment and technologies.

Claims (2)

1. The method of electromagnetic inspection of production casing of oil and gas wells, including the excitation of the electromagnetic field in steel production casing, measuring and processing the signals of the electromagnetic field, converting the signals to digital form, transmitting them to the surface and computer processing, characterized in that the excitation of the electromagnetic field is carried out electromagnet in two stages: at the first stage, a supply current of 500-600 mA is applied to the electromagnet, at which complete magnetic saturation occurs talla over the entire thickness, and measure and register the electromagnetic field, in the second stage, the supply current of the electromagnet is reduced to 100 mA, reducing the magnitude of the magnetic saturation of the thickness of the metal, and measure and register the electromagnetic field, then compare the two registered measurements, while measuring the electromagnetic fields with a low supply current provide information on internal and through defects, and the presence and nature of external defects is determined by subtracting electromagnetic measurements from the recorded measurements th field with full magnetic saturation of recorded measurements of the electromagnetic field with lower magnetic saturation. 2. The method according to p. 1, characterized in that the measurement and registration of the electromagnetic field is carried out by means of a magnetic introscope.

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