RU2514287C1 - Cable infrasound hydraulic vibrator - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to oil production, particularly, to devices for excitation of wells. Cable hydraulic vibrator comprises case with coil to be connected to logging cable by two working elements. Note here that every working element is composed by piston from magnetic material. Compression spring is arranged between the pistons. Case is equipped with extra coil, chamber to accommodate said working elements and bores made at case ends and in the area of said spring. Note also that every working element is accommodated inside said coil.

EFFECT: higher efficiency and reliability.

2 cl, 2 dwg

Description

The invention relates to the field of oil production, and in particular to devices for exciting wells.

A known method of complex effects on the reservoir and device for its implementation (see patent for invention RU 2321736, IPC E21B 43/25). The device includes a cylinder with a suction valve and placed in it with the possibility of axial movement of the stepped plunger with a discharge valve. The device is additionally equipped with a casing mounted on the cylinder with the formation of a closed annular chamber and a packer mounted on the casing. An additional valve is installed in the lower part of the cylinder, which periodically communicates the sub-plunger chamber with the reservoir under the influence of the movement of the plunger. Windows are made in the side wall of the cylinder, periodically communicating a closed annular chamber with the annulus.

The disadvantage of this device is the presence of a hard mount in the well with the help of a packer, which prevents the ability to quickly perform processing of the productive formation interval. In addition, the device cannot be used for depression on the reservoir, and the device cannot be used for continuous operation in the well during oil production.

A known method of processing the bottom-hole zone of the well and a device for its implementation (see patent for invention RU 2180938, IPC E21B 43/25, E21B 28/00). The device for processing the bottom-hole zone of the well includes a housing with a cable head, an implosion chamber with a hydraulic pressure sensor, a controlled inlet valve with a thermoplastic trigger stopper and a spiral electric heater. An excitation generator, a block of acoustic emitters, a control unit for the amplitude of the excitation of acoustic emitters in synchronism with the depression-repression oscillation process in the well are additionally introduced into the well, while the block of acoustic emitters is made with a system of radial channels between them communicating with the well, the internal cavity of the body and the inlet an implosion chamber in which an annular trigger stop for an inlet valve is installed, made of thermoplastic material with integrated it spiral electric heater.

The disadvantage of this device is the possibility of only one-time use for one descent into the well, after which the device must be lifted from the well. It cannot be used in one run for interval processing of the reservoir. In addition, due to the ultrasonic frequency absorbed by the formation, acoustic emitters having a radius of exposure of up to 1 meter from the wellbore cannot be used to produce a deep impact on the formation with this device. The device cannot be used for continuous operation in the well during oil production.

A known method and device for influencing formations containing fluids (see patent for invention RU 2249685, IPC E21B 43/25). A device for generating a shock wave in a liquid in a wellbore comprises a spacer string extending in the wellbore, a cylinder assembly connected to the tubing string and comprising an elongated inner chamber having an upper channel and a lower channel, the upper channel having a cross-sectional area , which is less than the cross-sectional area of the lower channel, means for locating the cylinder assembly so that it is immersed in the fluid in the wellbore, and the inner chamber is filled with fluid, a screw assembly comprising a seal in contact with the upper channel to provide sealing between the compressed fluid in the chamber and the fluid in the tubing string in the borehole above the chamber from the fluid in the chamber, and a lower piston mounted in the lower channel to move into the inner chamber for compressing a portion of the fluid contained in the inner chamber and discharging the fluid into the wellbore while moving the piston along the lower channel into the inner chamber, pumping means connected to the piston assembly for rooms of the piston assembly inside the cylinder assembly.

The disadvantage of this device is the inability to use it with depression on the reservoir. The device cannot be used for continuous operation in the well during oil production.

The closest analogue to the claimed solution is a device for magnetic hydro-pulse treatment of wells (see patent for invention RU 2303690, IPC E21B 43/25). The device comprises a housing configured to connect to a geophysical cable, comprising a coil in the lower part, a guide pipe in the central part and a locking element in the upper part, a working element, which is a pair of annular plates movable relative to the guide tube, one of which is made of highly conductive material and the other of a material with high mechanical strength. The working cavity is formed by the body and the processed pipe. When a pulsed discharge current with an amplitude of up to 50 kA flows through the turns of the coil, both plates move synchronously in the working cavity of the housing and generate a water hammer. As a result, shock wave fronts and overpressure are formed in the treatment zone, which ensures the destruction of asphalt-resin-paraffin deposits, oil emulsions and other inclusions accumulated in the perforations and bottomhole zone and cleaning the zone, thereby increasing well productivity.

The disadvantages of the prototype is that when applying an electrical pulse, both plates synchronously oscillate in a limited gap, hitting the body, which leads to their rapid mechanical wear and jamming. Due to the small movement of the active plates, this device is a type of oscillatory, acoustic device and cannot create a water hammer.

The objective of the invention is to develop a cable infrasonic hydraulic vibrator with high power, capable of repeatedly generating water hammer, having a subsonic pulse frequency, due to which the shock wave propagates deep into the formation, able to work during depression on the formation, suitable for continuous operation in the well during oil production.

The technical result of the invention is to increase the reliability and performance of the device, as well as expanding the functionality due to new technological and operational properties.

The specified technical result is achieved in that a cable hydraulic vibrator comprising a housing with a coil made with the possibility of connecting to a geophysical cable, the working element, according to the solution, is equipped with a second working element, each working element being made in the form of a piston made of magnetic material, a spring is located between the pistons compression, the housing is equipped with an additional coil, a cavity for accommodating the working elements and holes located at the ends of the housing and in the area of the spring, with each working The element is located inside the coil. The coil can be made of at least two sections sequentially located along the axis of the housing.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of a cable infrasonic hydraulic vibrator; in FIG. 2 - sectional infrasonic cable hydraulic vibrator. The positions in the drawings indicate:

1 - housing;

2 - coil;

3 - geophysical cable;

4 - the piston;

5 - spring;

6 - cavity;

7 - hole.

Cable infrasonic hydraulic vibrator contains a hollow body 1 with a pair of pistons 4 made of magnetic material with high coercive force located in the cavity 6. Between the pistons is located a compression spring 5. The housing is provided with openings 7 (flushing windows) located at the ends of the housing and in the area of the spring and connecting the cavity of the housing with the external environment. The housing is equipped with a pair of coils 2 mounted on the housing so that each piston is located inside the coil. The housing is configured to be connected to a geophysical cable 3. The hydro-vibrator coils are connected with a geophysical cable to a pulsed current source powered from the on-board network of the 220V geophysical lift. The coil can be made of at least two sections sequentially located along the axis of the housing, it is preferable to perform each coil of three consecutive sections. The sections of the two coils are arranged so that when a current pulse is passed through them, magnetic fields are generated that are directed towards each other.

The inventive hydraulic vibrator is lowered into the well on a geophysical cable and installed opposite the calculated processing points within the perforation interval. In the lowered position of the hole, the holes at the ends of the body form the upper and lower washing windows, and the holes in the spring area form the middle washing windows, and the pistons are located one above the other. The internal cavity of the vibrator body communicates with the well through the upper, lower and middle flushing windows. The action of the vibrator is based on the intake of the borehole fluid through one flushing window and its high-speed pulse discharge through other windows. From the source of the pulsed current, a control signal in the form of a short pulse of 3.5 kV power is supplied to the hydraulic vibrator. The current flowing through the coil of the coil generates a magnetic field pushing the piston out of the inner space of the coil, and the coils push the pistons towards each other. The lower piston moves up and the upper down, the pistons approach at a high speed (for example, 1.5 km / s), compressing the spring located between them. The fluid from the cavity between the pistons exits at high speed from the middle washing windows, which creates a water hammer (repression stage at the midpoint), at the same time fluid is drawn through the upper and lower washing windows in the cavity from the outside of the pistons (depression stage at the upper and lower points ) After the pistons come together as close as possible and the current pulse ends under the action of a compressed spring, the pistons move in the opposite direction to each other, that is, the upper piston moves up and the lower one moves down. The fluid compressed by the pistons exits their body cavities through the upper and lower washing windows and enters the body cavity through the middle washing windows (depression stage at the middle point and repression at the lower and upper points). When the pistons reach their extreme positions, that is, the upper piston reaches the upper point and the lower piston reaches the lower point, the control signal is given again, the cycle repeats, the pistons move towards each other.

This movement is of two types: a) at the stage of depression, the liquid impulses, jerkily moves from the formation to the wellbore and cleans the pore space of the bottom-hole zone of the formation (PZP), b) at the stage of repression, the liquid is jerked into the formation and produces microfracturing of the filtration channels. Repeating these processes many times, using the inventive hydraulic vibrator, it is possible to significantly increase the hydraulic conductivity of the bottomhole formation zone, contributing to an increase in well production.

Cable infrasonic hydraulic vibrator allows you to simultaneously process 1.0 m of the opened interval of the reservoir. It has an operating frequency of 1 pulse in 5-20 seconds and creates powerful hydraulic pressure pulses. Processing begins at the bottom of the perforation interval. Depending on the reservoir properties of the formation, processing is continued from 30 minutes to 5 hours, then the vibrator is raised by 1.0 m and the next interval of the formation is processed. The hydraulic vibrator creates powerful infrasound frequency impact shocks at which the impact pulses in the form of a dynamic wave propagate into the formation to a depth of more than 600 meters from the impact well (confirmed during downhole testing). Exposure at a subsonic frequency reduces the viscosity of oil in reservoir conditions, reduces the effect of surface tension forces at the interface of oil-rock media, increases its fluidity and the speed of the current to the well.

Various modifications of the claimed device are possible: for launching on a geophysical cable and intensifying production only during the overhaul of wells or for fixing in the well in the interval of the oil reservoir and continuous operation; the diameter of the vibrator - 52, 73, 89, 102 or 114 mm; along the length of the vibrator - 1, 3, 5 m. The hydraulic vibrator in the variant for stimulating production allows you to: clean the bottom-hole zone of the formation (PZP) from the mud filtrate, sediments of asphaltenes, resins, paraffins (ASPO), persistent oil-water emulsion, salts; expand the radius of the drainage of the well; connect idle streaks; create a fractured structure in the bottomhole formation zone of wells with low permeability rocks; to increase the injectivity of injection and spillway wells; take the well out of inaction, create a hydrodynamic connection between the well and the formation. The hydraulic vibrator in the version for continuous operation allows you to: increase the production of viscous oil, since due to vibration exposure, the viscosity decreases and the fluidity of the oil increases; increase oil production from reservoirs with low reservoir properties; to increase oil production from wells, characterized by a tendency to form persistent oil-water emulsions; increase oil production in old fields with reduced reservoir pressure.

The hydraulic vibrator was tested in 3 wells with low filtration and capacitive properties, with no flow rate and was idle for several years due to a drop in Rpl by 2-3 times from the initial one. Moreover, the permeability ranged from 0.75 · 10 ^-3 to 9.9 · 10 ^-3 μm ² , porosity - 11.1%, the paraffin content from 6.1 to 7.6%. Horizon - D2vb, reservoir thickness - up to 10 m, occurrence depths - 3300-3600 m. Processing time - up to 24 hours. The following results were obtained: an increase in injectivity up to 5.4-6.6 times, for example, from 0.5 m ³ / hour at Rnag = 15MPa to 2.7 m ³ / hour at Rnag = 15MPa and up to 3.3 m ³ / hour at Rnag = 22MPa (Rpl initial = 330-360 atm). When swabbing received oil inflows. When dismantling the equipment after work, oil emissions were obtained.

Claims (2)

1. Cable hydraulic vibrator containing a housing with a coil made with the possibility of connecting to a geophysical cable, a working element, characterized in that it is equipped with a second working element, each working element is made in the form of a piston made of magnetic material, a compression spring is located between the pistons, the housing equipped with an additional coil, a cavity for accommodating the working elements and holes located at the ends of the housing and in the area of the spring, with each working element located inside the coil. 2. Cable hydraulic vibrator according to claim 1, characterized in that the coil is made of at least two sections sequentially located along the axis of the housing.

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