RU179967U1 - DEVICE FOR PROTECTING IN-WELL EQUIPMENT EQUIPMENT FROM CORROSION - Google Patents

Abstract

The utility model relates to the oil industry, in particular to the extraction of oil from wells in difficult geological and technical conditions, and is intended to protect downhole equipment from corrosion. The device for protecting downhole equipment from corrosion contains an insulated magnesium tread equipped with upper and lower dielectric centralizers and fastening a stud, an electronic unit including a semiconductor diode, a pnp transistor and placed in a threaded nozzle filled with low adhesion filler, while the emitter of the transistor is connected to a threaded nozzle, the collector to an anode protector, the base is connected to an insulated magnesium protector, and the threaded nozzle is placed between the first and second coupling halves, and the anode protector is installed through the upper insulating insert in the second and third coupling halves, separated lower insulating insert, and is interfaced with the production casing through a spring slide mounted on a perforated nozzle attached to the third coupling half, while The equipment is equipped with a threaded nipple for connection to a submersible electric motor. The proposed design of the device increases the efficiency of corrosion protection of downhole equipment in the zones of alternating stray currents.

Description

The utility model relates to the oil industry, in particular to oil production from wells in complicated geological and technical conditions, and is intended to protect downhole equipment from corrosion.

In the late stages of oil field development, cases of premature failure of downhole equipment in producing wells due to corrosion are becoming more frequent. The most commonly destroyed submersible electric motor (PEM) bodies and tubing (tubing). Most of the facts of corrosion failures were noted in highly flooded wells (more than 80%), the submersible equipment of which is in contact with a highly corrosive oil-in-water emulsion.

Under certain conditions (the presence of stray currents, phase imbalance, leakage currents in the cable, the appearance of static charges, etc.), potentials of different polarity from 0.3 to 28 V. may appear on the body of the downhole equipment, which if there is sufficient speed formation fluid (electrolyte) flow can cause electrochemical (anode) destruction of cable armor, metal surfaces of equipment, including casing. When powered from transformer control stations, a significant electric potential of industrial frequency is induced on the surface of the SEM housings and other elements of downhole equipment. The installation of a high-performance electric centrifugal pump ESP is completed with a high-power PEM, which is characterized by high values of voltages and currents in the cable line, which leads to higher values of the electric potential induced on the surface of the PED. At the same time, the high performance of the ESP provides an increased flow rate of the fluid to be lifted in the gap between the SEM and the casing, which additionally accelerates the electrolytic destruction of the metal, drastically reducing the mean time between failures.

The prior art corrosion protection device in the installation of a submersible centrifugal pump (RF patent No. 2217579, IPC ЕВВ 43/00, F04D 13/10, published November 27, 2003), containing an electrode located in the lower part of the installation, isolated from case and electrically connected to a common point of the motor windings connected to the "star" through a diode assembly, and its "positive" terminal is connected to the electrode. The design allows to obtain a potential difference on the electrode relative to the tubing string due to overflows in the three-phase windings of the electric motor during pump operation and to provide cathodic protection of metal equipment from corrosion and prevention of accumulation of solid deposits on the protected equipment.

However, the known protection device carries out only the cathodic polarization of structures, while the action of significant cathodic components of the stray current on the structure is not limited by anything, which can lead to destruction of the insulation coating and corrosion damage to the casing parts of the installation due to overvoltage protection. The disadvantage of the protection device is also the complexity of the design of the transition device and the need to change the design of the SEM.

A device for protecting a submersible pump unit (PNU) against corrosion (RF patent No. 119020, IPC ЕВВ 41/02, published on 08/10/2012), consisting of a housing, a threaded nipple screwed onto a SEM, insulators, an electrode and a semiconductor diode, anode which is connected to the housing of the device, and the cathode to the electrode made of corrosion-resistant steel, concentrically located inside the housing using insulators, in the lower part of the electrode there is a stacker assembly consisting of a package of wire brush disks, the material of which is I corrosion-resistant, high-twisted steel discs corresponds to the outer diameter of the inner diameter of the casing, providing a guaranteed galvanic and metal contact with the casing.

The disadvantage of this protection device is the lack of protection against corrosion damage of the PNU body parts, since the brushes of the spring disks become clogged with paraffin deposits and cease to fulfill the filtering function.

A device for protecting a submersible pump unit (PNU) from corrosion (RF patent No. 107274, IPC ЕВВ 43/00, published on 08/10/2011), containing a submersible pump unit that combines an electric motor with hydraulic protection, a pump and a cable line, run in well on lifting tubing, wellhead equipment, control station and transformer. In the lower part of the PND, a stacker-centralizer is installed using a threaded sleeve, which includes spring disk packs made of corrosion-resistant, high-alloy steel, guide and fixing bushings, circular spring springs, a rod, a semiconductor diode, a rod insulator and nuts for power closure of the structure stacker.

The disadvantage of this device is the complexity of the design and the risk of corrosion destruction of the hull parts of the PNU.

The technical result of the utility model is to increase the efficiency of corrosion protection of downhole equipment in the zones of alternating stray currents.

The technical result is achieved by a device for protecting downhole equipment against corrosion, containing an isolated magnesium tread, equipped with upper and lower dielectric centralizers and a fastening pin, an electronic unit including a semiconductor diode, a pnp transistor and placed in a threaded pipe filled with a low adhesion filler, while the emitter of the transistor is connected to a threaded pipe, the collector to the anode protector, the base is connected to an isolated magnesium protector ru, and a threaded pipe is placed between the first and second coupling halves, and the anode protector is installed through the upper insulating insert in the second and third coupling halves separated by a lower insulating insert, and is connected to the production casing through a spring gutter mounted on a perforated pipe attached to the third coupling half, the device is equipped with a threaded nipple for connection to a submersible motor.

The essence of the utility model is illustrated by the drawing, which shows a device for protecting downhole equipment from corrosion.

The device contains an insulated magnesium tread 1, equipped with upper 2 and lower 3 dielectric centralizers and a fastening pin 4. The electronic unit 5 includes a semiconductor diode 6, a transistor of the pnp type 7 and is placed in a threaded pipe 8 filled with a low adhesion filler, while the emitter the transistor is connected to a threaded pipe 8, the collector to an anode protector 9, the base is connected to an insulated magnesium protector 1. A threaded pipe 8 is placed between the first 10 and second 11 half-couplings, and m of fastening studs 4 upper 2, lower 3 dielectric centralizers and the first coupling half 10 are attached to the insulated magnesium protector 1. The anode protector 9 is installed through the upper insulating insert 12 in the second 11 and third 13 coupling halves separated by the lower insulating insert 14, and is paired with the production casing 15 through a spring plunger 16 mounted on a perforated pipe 17 attached to the third coupling half 13. The spring platen 16 provides reliable mechanical and galvanic contact with the operational column 15. The device is equipped with a threaded nipple 18 for connection to a submersible motor (not indicated in the drawing).

In the presence of alternating stray current on the protected downhole equipment, there may be two cases:

1) when the element of the downhole equipment is polarized by the anode component of the stray current, while the potential of the downhole equipment is more positive than the potential of the anode protector 9 connected through a diode 6 to the casing of the electronic unit 5 cathodically polarizes the downhole equipment to a potential equal to the potential of the anode protector 9 taking into account the voltage drop across diode 6;

2) when the element of the downhole equipment is polarized by the cathode component of the stray current, while the potential of the downhole equipment is negative than the potential of the anode protector 9.

In this case, the diode 6 is closed, the isolated magnesium protector 1 is automatically turned off. Due to the potential difference arising between the downhole equipment and the anode protector 9, a signal is applied to the transistor 7, the latter opens, and the downhole equipment due to the anode protector 9 is anodically polarized to a potential equal to the potential of the anode protector 9 (minus the voltage drop across the transistor 7). Therefore, the shift of the potential of the downhole equipment to a positive or negative region below the potential levels of the equipment in the isolated magnesium tread 1 and the anode tread 9 leads to their automatic inclusion.

The use of this device increases the effectiveness of corrosion protection of downhole equipment in areas of alternating stray currents by automatically maintaining the potential of downhole equipment in a certain interval (in the field of protective potentials).

Claims (1)

A device for protecting downhole equipment against corrosion, containing an isolated magnesium protector, equipped with upper and lower dielectric centralizers and a fastening pin, an electronic unit including a semiconductor diode, a pnp transistor and placed in a threaded pipe filled with a low adhesion filler, while the emitter of the transistor is connected to a threaded pipe, collector - to the anode protector, the base is connected to an insulated magnesium protector, and the threaded pipe is n between the first and second half couplings, and the anode protector is installed through the upper insulating insert in the second and third half couplings separated by the lower insulating insert, and is connected to the production casing through a spring shaker mounted on a perforated nozzle attached to the third coupling half, while the device is equipped with a threaded nipple for connection to a submersible motor.

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