RU191428U1 - CHARGED PROGRAMMABLE ACOUSTIC MULTI-PRESSURE PRESSURE GENERATOR - Google Patents

Abstract

The utility model relates to the oil and gas industry, and specifically to powder pressure generators and can be used to intensify oil and gas production caused by mechanical, thermal and physico-chemical effects on oil and gas bearing strata of solid fuel combustion products.

The task of creating a utility model is to increase the efficiency of the effect of charges on the formation, as well as to increase the reliability of the device.

The solution to these problems was achieved due to the fact that the charge of a programmable acoustic multi-mode pressure generator, lowered into the well on a geophysical cable or tubing, includes a perforated pipe, igniter and combusting powder checkers, incandescent spirals electrically connected through the geophysical are installed in the ignition powder checkers cable with ground control station, powder bombs separated by intermediate rings and installed between supporting washers, secured cored with technological studs with nuts, wire is drawn directly from one igniter powder checker, wire from another ignition powder checker, with an intermediate wire designed to connect several charges in series, runs along the charge in a corrugated protective tube fixed by cable ties, and perforated the pipe is replaceable and is mounted on a charge on both sides by threaded rings, on the internal thread of which there are bushings with with outer ring protrusions holding the union nuts that fix the adapter with a nipple on one side and the adapter with a female thread on the other hand to connect the device to tubing or through an adapter with a geophysical cable. The charge includes at least two igniter and two burning powder bombs. Connecting wires end with connectors. Perforation holes are directed at an angle to the center of the perforated pipe. Perforations can be perpendicular to the side surface of the perforated pipe. As an incandescent spiral, a nichrome spiral with a diameter of 0.2-0.4 mm, installed inside the checker, is used. To supply electricity to the incandescent coil, a heat-resistant wire is used. Checkers are made of ballistic artillery gunpowder and compositions of ballistic solid rocket fuel. 7 c.p. f-ly, 4 ill.

Description

The utility model relates to the oil and gas industry, and specifically to powder pressure generators and can be used to intensify oil and gas production caused by mechanical, thermal and physico-chemical effects on oil and gas bearing strata of solid fuel combustion products.

Known powder generator according to the patent of the Russian Federation for utility model No. 133875. The powder generator, lowered into the well on a geophysical cable, consists of powder charges, along the axis of which holes are made. Powder charges are interconnected by a cable, incandescent spirals are installed in the upper and lower powder charges, electrically connected to the geophysical cable. The upper end surface of each powder charge is made with an internal spherical surface, and the lower with the external spherical surface, and for adjacent charges, the external spherical surface can rotate into the inner spherical surface of the powder charge located below. The cable connecting the individual powder charges passes through the holes made in the powder charges, and from the bottom of the powder generator the cable is motionlessly fixed in the lower sleeve entering the hole made in the powder charge and kept from its axial movement by a thrust collar, and on top the cable passes through the hole made in the upper sleeve with a clamping collar, above which a cable tension adjustment device is installed. On the outer spherical surface of the powder charges, rotation restricting belts are made. An inner cylindrical bore is made in the powder charge from the side of the inner spherical surface, at the edges of which, when the maximum turning angle is reached, the belts restricting the rotation of the powder charge abut from the inside. After the cylindrical bore, a conical transition was made to a smaller diameter hole made in each powder charge. The holes in the powder charges are made with chamfers. A hole is made in the upper sleeve for wires of electrical connection of incandescent spirals with a geophysical cable. In the powder charges, holes can be made to equalize the pressure outside and inside the powder generator when it is lowered into the well. The cable tension device is made in the form of a sleeve fixed on the cable with a locking screw. The disadvantage of the powder generator is the low reliability of the connection of the powder charges to each other.

Known powder pressure generator according to the patent of the Russian Federation for utility model No. 111189. The powder pressure generator, lowered into the well on a geophysical cable, consists of powder charges made in the form of cylinders connected between the top cover and the pallet by a cable, glow plugs are electrically connected to the geophysical cable in the upper and lower powder charges, and the powder charges are made with one or several non-through cavities filled with high-energy composite material. As a high-energy composite material, nano-sized aluminum powder is used. Non-through cavities after filling with high-energy composite material are closed with glue plugs. Non-through cavities are closed by a common lid preventing the spilling of high-energy composite material. The lid covering non-through cavities is glued. Each through cavity is covered by a separate lid. Each lid covering a non-through cavity is glued. The lid is made of the same material as the powder charge. The through cavity is circular. Non-through cavities are made round. Non-through cavities are made not round, for example, oval, triangular, rectangular or combined. The disadvantage of the powder pressure generator is the low reliability of the connection of the powder charges, as well as the lack of the ability to quickly change their number in the assembly.

Known powder pressure generator according to the patent of the Russian Federation for utility model No. 118350. The powder pressure generator descends into the well on a geophysical cable and consists of individual powder charges made in the form of cylinders connected between the top cover and the pallet by a cable. In the upper and lower powder charges, incandescent spirals are installed, electrically connected to the geophysical cable. The composition of the powder charges includes a high-energy composite material, and the amount of high-energy composite material in individual powder charges is different. Separate powder charges in the powder pressure generator can be arranged so that the amount of high-energy composite material in the upper and lower powder charge is the same and decreases towards its middle. Separate powder charges in the powder pressure generator can be arranged so that the amount of high-energy composite material in the upper charge is maximum and decreases toward the lower charge. As a high-energy composite material, nanosized aluminum powder is used. The amount of high-energy composite material in individual powder charges is not more than 40% of the total mass of the powder charge. The amount of high-energy composite material in individual powder charges located one after another can differ by 2 ... 15%. The disadvantage of the powder pressure generator is the low reliability of fastening powder charges.

A known method of processing a productive formation and a device for its implementation according to the technology PGDA-M according to the patent of the Russian Federation for invention No. 2592865. A method of treating a productive formation involves gas-dynamic fracturing of a formation by burning a powder charge from a solid propellant material with a filler-stabilizer of combustion with a central circular channel in the interval of a productive formation, with the simultaneous accumulation of pressure of powder gases in the cavity of the central charge channel, with subsequent transfer of charge burning energy to the formation , characterized in that the combustion of the powder charge is carried out in several modes, and the number and frequency of pulses depend on the combination for rows in the form of checkers, on the cylindrical surface of which are parallel to the axis of their central channel mutually perpendicular to the longitudinal grooves, with their number being a multiple of four. When alternating charges with four and eight grooves, a two-pulse combustion mode is used. When alternating charges with four, eight and twelve grooves, a three-pulse combustion mode is used. A device for gas-dynamic fracturing of a reservoir containing an unbased charge of solid propellant material connected to a cable cable, made in the form of a cylindrical block with an igniter and a central channel having a length to diameter ratio of (30-38): 1, characterized in that on the cylindrical surface of the checker, parallel to the axis of its central channel, longitudinal grooves are mutually perpendicular, and their number is a multiple of four, with alternating charges depending on the method according to claim 1 4 + 8 or 4 + 8 + 12, in two grooves which have a flexible element connected to the cable. The disadvantage of the powder generator is the low reliability of the connection of the powder charges, as well as the lack of the ability to quickly change their number in the assembly.

Known gas generator for solid fuel for processing oil and gas wells according to the patent of the Russian Federation for invention No. 2311529. The invention relates to the oil and gas industry and can be used to stimulate the borehole zone of the oil and gas reservoir with solid propellant charges by gas generators. Provides increased reliability and efficiency of the device, achieving a higher flow rate of oil, gas condensate and gas in wells of any orientation. The inventive device includes a tubular cylindrical charges, providing a vibrational combustion mode, an igniter charge and a load-bearing geophysical cable with fastening elements of the structure. According to the invention, in the treatment of steeply deviated, deviated wells and horizontal wells, the geophysical cable is located inside a flexible continuous pipe repeating the direction of the well, has conductive conductors for connection to the wires of the initiating unit of the igniter charge. At the same time, a flexible continuous pipe is connected to a protective casing - a shell around the charges in the form of a perforated or non-perforated metal tubing, or made of fiberglass, using parts that tighten the charges close to each other and with it. Tubular cylindrical charges have a channel length and different diameters of these channels to provide high-frequency and low-frequency pressure pulses during the combustion of these charges. The disadvantage of a solid fuel gas generator for treating oil and gas wells is the complexity of its design.

Known powder generator according to the patent of the Russian Federation for utility model No. 108796 (prototype). The powder generator descends into the well on a geophysical cable and consists of powder charges made in the form of cylinders connected between the cover and the pallet by a cable; glow plugs are installed in the upper and lower powder charges, electrically connected to the geophysical cable. An additional cable is installed between the geophysical cable and incandescent spirals, one side of which is connected to incandescent spirals, and the other is connected through the connector to the geophysical cable, and the cable is also fixed to the connector on the side of the powder charges. On the side of the geophysical cable, the connector is made in the form of a tip, and on the side of the powder charges in the form of the head of a downhole tool. The connector is made with a mechanical fastening preventing spontaneous separation, for example, in the form of a union nut. In front of the filament spirals, connectors for the filament spirals are installed. The connected connectors of incandescent spirals are made with mechanical fastening preventing spontaneous disconnection. An additional cable is attached to the cable. An additional cable can be attached to the cable with cable ties. The disadvantage of the powder generator is low reliability.

The task of creating a utility model is to increase the efficiency of the effect of charges on the reservoir, as well as to increase the reliability of the device.

The solution to these problems was achieved due to the fact that the charge of a programmable acoustic multi-mode pressure generator lowered into the well on a geophysical cable or tubing includes a perforated pipe, igniter and combusting powder checkers, incandescent spirals electrically connected through the geophysical cable are installed in the ignition powder checkers with a ground control station, the powder bombs are separated by intermediate rings and installed between the supporting washers, secured with the technological studs with nuts for the time of transportation, the wire is drawn directly from one igniter powder checker, the wire with an intermediate powder checker wire with an intermediate wire, designed to connect several charges in series, runs along the charge in a corrugated protective tube fixed by cable ties, and perforated the pipe is replaceable and is mounted on a charge on both sides by threaded rings, on the internal thread of which there are bushings with een outdoor annular projections, the retaining collar nuts securing the one hand with the sub nipple, and on the other hand coupling threads with the sub for connection apparatus with tubing or through a logging cable adapter. The charge includes at least two igniter and two burning powder bombs. Connecting wires end with connectors. Perforation holes are directed at an angle to the center of the perforated pipe. Perforations can be perpendicular to the side surface of the perforated pipe. As an incandescent spiral, a nichrome spiral with a diameter of 0.2-0.4 mm, installed inside the checker, is used. To supply electricity to the incandescent coil, a heat-resistant wire is used. Checkers are made of ballistic artillery gunpowder and compositions of ballistic solid rocket fuel.

The proposed technical solution has novelty and industrial applicability, i.e. all the criteria of a utility model. The novelty of the technical solution is confirmed by patent research. Industrial applicability is due to the fact that in the manufacture of the charge of a programmable multi-mode acoustic pressure generator, non-deficient materials and known technologies are used.

The essence of the utility model is illustrated in figure 1 ... 4, where:

in FIG. 1 shows the charge of a programmable multi-mode acoustic pressure generator assembly,

in FIG. 2 shows the charge of a programmable multi-mode acoustic pressure generator in the transport position,

in FIG. 3 shows a perforated charge tube of a programmable acoustic multimode pressure generator,

in FIG. 4 is a cross-sectional view of a perforated charge tube of a programmable multi-mode acoustic pressure generator.

The charge of a programmable acoustic multi-mode pressure generator, lowered into the well on a geophysical cable or tubing, consists of a perforated pipe 1, igniter 2 and 3 burning powder bombs, incandescent spirals 4 are installed in the ignition powder bombs 2, electrically connected via a geophysical cable to the ground control station, the powder bombs are separated by intermediate rings 5 and installed between the supporting washers 6, fixed for the duration of transportation of technology with studs 7 with nuts 8, from one igniter powder checker 2, the output of wire 9 is made directly, from another igniter powder checker 2, wire 10 with an intermediate wire 11 for connecting several charges in series passes along the charge in a protective corrugated tube 12 fixed by cable couplers 13, and the perforated pipe 1 is removable and fastened on a charge on both sides by threaded rings 14, on the internal thread 15 of which are installed sleeves 16 with outer annular protrusions s 17, the retaining sleeve nuts 18 fixing the one hand sub 19 with the nipple, on the other hand sub 20 with the threads of the coupling for connecting the apparatus with tubing or through a logging cable adapter. The charge includes at least two igniter 2 and two burning 3 powder bombs. The connecting wires 9, 10, 11, end with connectors 21. The perforations 22 can be directed at an angle to the center of the perforated pipe 1. The perforations 22 can be perpendicular to the side surface of the perforated pipe 1. As a filament 4, a nichrome spiral with a diameter of 0.2 is used -0.4 mm installed inside the checker. To supply electricity to the incandescent spiral 4, a heat-resistant wire is used. Checkers are made of ballistic artillery gunpowder and compositions of ballistic solid rocket fuel.

The charge of a programmable acoustic multi-mode pressure generator works as follows. The nuts 8 are turned off and the transport studs 7 are removed. The charge is installed in the perforated pipe 1 with the holes necessary for effective impact on the formation configuration. In the perforated tube 1, the charge is fixed by threaded rings 14, on the internal thread 15 of which are installed sleeves 16 with outer ring protrusions 17 holding the union nuts 18, fixing the adapter 19 with the nipple on one side and the adapter 20 with the coupling threads on the other hand to connect the device with tubing or through an adapter with a geophysical cable. Depending on the required power and length of the reservoir, the required number of charges is connected in series, connected through an intermediate wire 11. The incandescent spirals 4 are electrically connected by wires 9 and 10 to the contacts of the geophysical cable. After assembling the charges and lowering them into the well, the ground control station, in accordance with the established program, provides voltage to the glow plugs 4 at a certain time and in the required sequence. The voltage supplied to the incandescent spiral 4 ignites first the igniter 2, and then the burning 3 powder bombs. Charges cause mechanical, thermal and physico-chemical effects on oil and gas bearing strata of solid fuel combustion products. To increase the effectiveness of the impact on the formation, charges can be installed in the perforated pipe 1. In this case, the impact on the formation is carried out through perforations 22, which can be perpendicular to the side surface of the perforated pipe 1 or at an angle β. Changing the number and configuration of the holes provides instant charge combustion with a directed impact on the reservoir.

Application of the utility model allowed:

1. Accelerate charge assembly.

2. Improve safety and ease of transportation.

3. To prevent damage to powder charges and connecting wires.

4. Supply charges separately from the perforated tube.

5. To increase the effectiveness of the effects of charges on the reservoir.

6. To reduce the processing time of the productive layers of the well.

7. Improve the reliability of the device.

8. Install a pipe with perforation necessary for optimal impact on the formation.

Claims (8)

1. The charge of a programmable acoustic multi-mode pressure generator, lowered into the well on a geophysical cable or tubing, includes a perforated pipe, igniter and combusting powder bombs, incandescent spirals electrically connected through a geophysical cable to a ground control station, are installed in ignition powder bombs, different the fact that the powder checkers are separated by intermediate rings and installed between the supporting washers fixed for a while the protractor with technological studs with nuts, from one igniter powder checker the wire output is made directly, from another igniter powder checker, the wire with an intermediate wire designed to connect several charges in series runs along the charge in a corrugated protective tube fixed by cable ties, and the perforated pipe is replaceable and is mounted on a charge from two sides by threaded rings, on the internal thread of which there are bushings with outer ring protrusions holding union nuts, fixing on one side an adapter with a nipple, and on the other hand an adapter with female threads for connecting the device to tubing or through an adapter with a geophysical cable. 2. The charge of a programmable multi-mode acoustic pressure generator according to claim 1, characterized in that the charge includes at least two igniter and two burning powder bombs. 3. The charge of a programmable multi-mode acoustic pressure generator according to claim 1, characterized in that the connecting wires end with connectors. 4. The charge of a programmable multi-mode acoustic pressure generator according to claim 1, characterized in that the perforations are directed at an angle to the center of the perforated pipe. 5. The charge of a programmable multi-mode acoustic pressure generator according to claim 1, characterized in that the perforations are perpendicular to the side surface of the perforated pipe. 6. The charge of a programmable multi-mode acoustic pressure generator according to claim 1, characterized in that a nichrome spiral with a diameter of 0.2-0.4 mm installed inside the checker is used as an incandescent spiral. 7. The charge of a programmable multi-mode acoustic pressure generator according to claim 1, characterized in that a heat-resistant wire is used to supply electricity to the incandescent spiral. 8. The charge of a programmable multi-mode acoustic pressure generator according to claim 1, characterized in that the checkers are made of ballistic artillery gunpowder and compositions of ballistic solid rocket fuel.

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