RU2231091C1 - Device for electromagnetic logging in the course of drilling process - Google Patents

Abstract

FIELD: measurement of electrical characteristics of rocks around oil and gas wells.

SUBSTANCE: proposed device is built in drill pipe string and is provided with generator and receiving coils and electronic units. Device consists of two coaxial pipes made from radio-parent composite material. Outer detachable load-bearing pipe is connected with inner pipe by means of two sealing joints; one joint is sliding. Generator and receiving coils and electronic units are located in hermetic circular cavity between pipes and are secured on inner pipe.

EFFECT: enhanced sensitivity and maintainability; increased service life.

1 dwg

Description

The invention relates to the field of geophysical research in wells, and in particular to electromagnetic logging tools during drilling, and can be used to measure the electrical characteristics of rocks located around wells drilled for oil and gas.

During the construction of wells, there is currently a practice of obtaining information regarding the rocks through which the well is drilled by using logging tools during drilling, known abroad as LWD systems.

Typically, electromagnetic logging tools during drilling include a body that is part of a drill string, transmitter (generator) and receiver coils mounted on the body. Electromagnetic waves propagate from the transmitting coil to the rocks surrounding the well, and are received after passing the receiving coils. The received signals are used to calculate the electrical resistance of the rocks surrounding the well.

The use of electromagnetic logging tools during drilling is complicated by harsh operating conditions associated with the process of drilling the well (high temperature, pressure, abrasive effects of the walls of the well, mechanical stress).

To ensure mechanical strength, the logging tool is required to be integrated into the drill pipe made of steel or other durable material. The electronic part of the device must be stable when exposed to shock, vibration, high temperatures and be reliably protected from high pressure in the drilling fluid environment. Typically, the electronic components are housed in a sealed, cylindrical, steel casing, located along the axis of the drill pipe, and the generator and receiver coils are mounted on the surface of the drill pipe and are protected by special overlays made of plastic (see, for example, US 5402068, G 01 V 3/30 , publ. 1995).

Such designs have high mechanical strength, but also have a significant drawback - a metal pipe is placed inside the generator and receiver coils. The supporting metal pipe is a short-circuited coil located in the immediate vicinity of the generator and receiver coils, which significantly reduces the amplitude of the received electromagnetic signal used in the measurements and, as a result, reduces the sensitivity and accuracy of the measurements.

A known device for electromagnetic logging while drilling according to patent US 6084052, E 21 In 47/01, publ. 1999, in which the transmitting (generator) and receiving coils are located in the lower part of the drill string on the outside of the metal drill pipe in special chambers and are completely closed by a monolithic outer casing made of a high-strength composite based on polyaryletherketone. The casing is radiolucent, surrounds the pipe and protects the coils from drilling fluid, coils can be pressed into the wall of the composite casing. At the same time, a high degree of protection of the coils is achieved, but the disadvantage caused by the presence of a steel pipe remains (reducing the amplitude of the received electromagnetic signal used in the measurements, and reducing the sensitivity and accuracy of measurements). In addition, this design has low maintainability, since the coils are pressed into the casing of thermoplastic.

Closest to the claimed technical essence is the technical solution according to the patent US 5944124, G 01 V 3/18, publ. 1999 and US Pat. No. 5,988,300, G 01 V 3/18, publ. 1999, where the part of the steel drill string designed to accommodate logging tools during drilling is replaced by a pipe section made of high strength composite material. The composite material is a fiberglass based on epoxy resin and fiberglass, is transparent to the passage of electromagnetic waves and is quite durable. Connecting elements made of steel or non-magnetic materials make it possible to integrate the composite pipe into the drill string. Inside the pipe is an electromagnetic logging tool.

The disadvantage of this design is that the logging tool installed inside the pipe prevents the flow of drilling fluid and creates significant hydraulic resistance. Therefore, a relatively small diameter electromagnetic logging tool with generator and receiver coils several times smaller in size can be installed inside a composite composite power pipe than in devices in which the coils are placed on the surface of the metal pipe as in the analogous patents discussed above. The small sizes of the coils significantly reduce the sensitivity of the device, since the magnetic field emitted by the generator coil and the signal amplitude in the receiving coils, ceteris paribus, are proportional to their areas.

The aim of this invention is to increase the sensitivity of the electromagnetic logging tool during drilling, as well as increasing the resource and maintainability.

The goal is relevant, since increasing the sensitivity of the device leads to a more accurate measurement of the parameters of the rocks surrounding the well. Improving maintainability is important because the existing tough drilling conditions often lead to the destruction of elements of an expensive device, the replacement of which allows to increase the life of the device as a whole and save significant money.

This goal is achieved in that the electromagnetic logging tool during drilling, built into the drill pipe string and containing generator and receiver coils and electronic components mounted on the housing, is made in the form of a structure consisting of two coaxial composite pipes, the outer power pipe is removable and connected to the inner pipe by two sealing connecting elements, one of which is made movable, generator and receiving coils and electronic components are placed in a azuyuscheysya sealed annular cavity between the tubes and fixed on the inner tube.

In the proposed electromagnetic logging tool, the sensitivity is increased due to the manufacture of structural elements from a radiotransparent composite material and the possibility of placing coils of increased diameter in a sealed annular cavity on the inner composite pipe. The implementation of the removable external power pipe allows the replacement of the external pipe as it wears, which extends the life of the device as a whole. In addition, the detachable design of the device housing provides maintainability in relation to electronic components, coils and communication lines.

The invention is illustrated by the drawing, which shows the design of the electromagnetic logging tool during drilling.

The design of the device includes an internal composite pipe 1, on which generator coils 2, receiving coils 3 and electronic components 4 are fixed, an external composite pipe 7, metal end elements 6 and 9, sealing connecting elements 5 and 8.

As a material for the manufacture of pipes, a composite material of heat-resistant epoxy reinforced with high-strength glass fiber can be used.

The electromagnetic logging tool during drilling works as follows.

Using the metal end elements 6 and 9, the device is connected to the drill pipe string. Since the device is an integral part of the drill string, it perceives all mechanical loads, in particular the torque of the hydraulic downhole motor, the load on the bit, etc. The main power element of the housing connecting the end elements 6 and 9 is the outer composite pipe 7, through which all the forces associated with the drilling process are transmitted. In this case, the inner composite pipe 1 serves as a channel for passing the drilling fluid to the downhole motor or bit, without creating hydraulic resistance. Due to the movable connection 5, the inner pipe 1 experiences only the loads caused by the pressure of the liquid in the pipe and does not perceive the mechanical loads accompanying the drilling process. Sealing joints 5, 8 ensure tightness of the inner annular space between the pipes. Generator coils 2, receiving coils 3 and electronic components 4 located in a sealed annular space between the pipes 1 and 7 are mounted on the inner pipe 1, are protected from the abrasive effects of the borehole walls and are not exposed to aggressive drilling mud. Electromagnetic waves propagate from the generator coils to the rocks surrounding the borehole and are received after passing through the receiver coils. It is known that the electromagnetic field emitted by the generator coil is proportional to the area of the coil of the coil and with increasing diameter of the coil, its moment increases in proportion to the square of the diameter of the coil. The amplitude of the signal in the receiving coils also increases in proportion to the square of the diameter of their coil. Since the proposed design of the device allows you to place coils of large diameter in the annular gap, this makes it possible to increase the magnitude of the electromagnetic signal in both the generator and receiver coils, which leads to an increase in the sensitivity of the device compared to the prototype. In this case, the composite radiotransparent tubes 1 and 7 do not interfere with the passage of electromagnetic waves and, unlike a metal case, do not weaken the generated and received signals. The signals received by the receiving coils 3 are processed by electronic nodes 4 and are used to calculate the electrical resistance of the rocks surrounding the well.

The operation of the electromagnetic logging tool during drilling as part of the drill string is complicated by harsh operating conditions associated with the well drilling process (high temperature, pressure, abrasive effects of the borehole walls, mechanical loads). This leads to accelerated wear of the outer layer of the composite body. Through the use of a detachable design, it is possible to quickly replace a worn outer pipe 7 directly at the drilling site.

In the proposed electromagnetic logging tool, the sensitivity is increased due to the manufacture of structural elements from a radiotransparent composite material and the possibility of placing coils of increased diameter in a sealed annular cavity on the inner composite pipe. The implementation of the removable external power pipe allows the replacement of the external pipe as it wears, which extends the life of the device as a whole. In addition, the detachable design of the device housing provides maintainability in relation to electronic components, coils and communication lines.

Claims (1)

The electromagnetic logging tool during drilling, built into the drill string and containing generator and receiver coils and electronic components, characterized in that it is made in the form of a structure consisting of two coaxially arranged composite radiolucent pipes, the outer power pipe is removable and connected to the inner pipe two sealing connecting elements, one of which is movable, generator and receiving coils and electronic components are placed in the resulting tight the facial cavity between the tubes and mounted on the inner tube.