RU118353U1 - DEVICE FOR OPENING AND GAS-DYNAMIC TREATMENT OF THE FORM - Google Patents

Abstract

1. A device for opening and gas-dynamic treatment of a formation, lowered into a well on a geophysical cable, consisting of a powder charge with a central channel, inside which shaped charges are installed on the frame, connected by a detonating cord with an explosive cartridge, which is electrically connected with a wire with a geophysical cable, characterized by that the functions of the body are performed by a powder charge made with holes, opposite which shaped charges are installed on the frame, the frame is fixed from radial and axial movements in the central channel of the powder charge, and the diameter of the holes made in the powder charge is larger than the diameter of the shaped jet. ! 2. The device for opening and gas-dynamic treatment of the formation according to claim 1, characterized in that the holes in the propellant charge are made expanding away from the shaped charges. ! 3. The device for opening and gas-dynamic treatment of the formation according to claim 1, characterized in that to fix the frame from radial and axial movement, a protrusion is made on the frame, entering into a groove made inside the central channel of the powder charge. ! 4. The device for opening and gas-dynamic treatment of the formation according to claim 1, characterized in that the bottom of the central channel of the powder charge is closed by a fairing. ! 5. The device for opening and gas-dynamic treatment of the formation according to claim 4, characterized in that the fairing is made with a hole and is fastened with a nut to a hairpin fixed at the bottom of the frame. ! 6. The device for opening and gas-dynamic treatment of the formation according to claim 4, characterized in that the fairing performs the functions of an additional powder charge. ! 7. Mustache

Description

The utility model relates to techniques for perforating blasting in wells. It provides intensification of oil production and the integrated impact on the reservoir of cumulative charges and combustion products of the powder charge.

It is known according to the patent of the Russian Federation for invention No. 2307921 a device for opening, gas-dynamic, microwave and hydrochloric acid treatment of the formation. The invention relates to techniques for perforating blasting in wells. Provides intensification of oil production. The device includes a housing shaped-charge perforator with a head, with sealed side openings, cumulative charges, a tip and two sealed air chambers with charges placed in them. The charges are in the form of a cylinder with a central channel. The ratio of the length of the cylindrical part of the channel to its diameter is (6 ... 28): 1. The charges are made non-detonating from a heat-resistant gas-generating composition containing the following components, wt.%: Polydivinyl isoprene rubber with terminal epoxy groups - 7 ... 9; transformer oil - 5.60 ... 6.50; titanium disilicide - 0.60 ... 1.50; strontium carbonate - 0.10 ... 0.50; combustion modifier - 0.20 ... 0.30; aromatic amino acid - 0.03 ... 0.11; aromatic amine - 0.01 ... 0.06; curing catalyst - 0.01 ... 0.1; ammonium chloride the rest. 2 ill. The disadvantage of this device is the low impact on the reservoir.

It is known according to the patent of the Russian Federation for invention No. 2194151 a device for opening and gasdynamic treatment of the formation. The invention relates to techniques for perforating blasting in wells and can be used for secondary opening of the borehole zone of the formation. It provides the possibility of creating an additional energy carrier, capable of generating a powerful gas stream when the cumulative charges are triggered in the well, moving behind the cumulative stream. The inventive device includes a housing shaped-charge perforator with a head with sealed side holes, cumulative charges, a tip and two sealed air chambers with atmospheric pressure. They are located at the ends of the punch. Powder charges are placed in the air chambers. Between them and the cumulative charges placed protective checkers of non-detonating mixed fuel of the elastic type. The disadvantage of this device is its complex design, as well as the fact that the powder charges are located above and below the perforation zone, which leads to low impact on the reservoir.

It is known according to the patent of the Russian Federation for utility model No. 59708 a device for opening and gasdynamic treatment of a formation. The device comprises a casing punch module with cumulative charges and two gas generating modules with powder charges, characterized in that each gas generating module contains a charging chamber and a transition chamber, the diameter of the passage opening of which is equal to the inner diameter of the powder charge. Gas-generating modules contain a diaphragm in the form of a perforated disk located between the charging and transition chambers. The charging chambers are equipped with exhaust openings hermetically sealed on the outside by a disk with a sealing plug. The disadvantage of this device is its complex design, as well as the fact that the powder charges are located above and below the perforation zone, which leads to low impact on the reservoir.

A device is known according to US patent No. 5775426 for perforation of a well and formation of cracks in the borehole zone of the formation, combining the perforation of the well and the effect of the combustion products of solid rocket fuel on the formation. The device consists of a site for perforating a well with cumulative charges and a site for generating gas in the form of a sleeve of solid rocket fuel surrounding the perforator. When cumulative charges of the perforator are triggered, the sleeve of solid fuel ignites, which leads to the formation of a high pressure pulse and the creation of cracks 1-2 m in the zone of the reservoir with the simultaneous cleaning of perforation channels. The disadvantage of this device is the inefficient use of energy of the combustion products of the charge of the gas generating module for cracking and for cleaning perforation channels, because there is no delay in the operation of rocket fuel surrounding the perforator, and the main energy is spent on raising the fluid in the well.

It is known according to the patent of the Russian Federation for utility model No. 51397 (prototype) a device for secondary opening with simultaneous gasdynamic treatment of the formation. The utility model relates to the oil industry and can be used to increase the efficiency of the secondary drilling. The device includes means for initiating its operation, a node for generating gases and a node for perforating a well with cumulative charges in the form of a garland located along the length of the device. The garland contains cumulative charges of the first type for opening the near-wellbore zone by channels, each of which has a depth of not less than the radius of the zone of well bore. It also contains cumulative charges of the second type, intended for opening the borehole zone by channels, each of which has a cross-sectional area that is 1.1-6 times greater than the cross-sectional area of the channel from the charge of the first type. In the device, all or part of the charges of one and / or another type are arranged in such a way that each of the cumulative charges of one type is located adjacent to one or two charges of another type. Each of the cumulative charges is displaced around the central axis of the device relative to each adjacent cumulative charge by the same or different in magnitude and the same or different in the direction of bias central angle. The disadvantage of the utility model is the low efficiency of the impact on the oil and gas bearing strata of powder gases, since the powder charge is triggered when the perforation of the well has not yet been completed.

The tasks of creating a utility model are to increase the effectiveness of the impact on the oil and gas strata of powder gases due to the sequential actuation of cumulative and powder charges, as well as to increase the burning rate of powder charges and increase the pressure in the zone of the reservoir.

The solution to these problems was achieved due to the fact that the device for opening and gasdynamic treatment of the formation, lowered into the well on a geophysical cable, consists of a powder charge with a central channel inside which cumulative charges are installed on the frame, connected by a detonating cord to an explosive cartridge, which is electrically connected by a wire with a geophysical cable, the housing functions are performed by a powder charge made with holes opposite which cumulative charges are installed on the frame. The frame is fixed from radial and axial movement in the Central channel of the powder charge, and the diameter of the holes made in the powder charge is larger than the diameter of the cumulative jet. The holes in the powder charge are made expanding away from the cumulative charges. On the day of fixing the frame from radial and axial movement on the frame, a protrusion is made that enters the groove made inside the central channel of the powder charge. Below, the central channel of the powder charge is closed by a fairing. The fairing is made with a hole and is fastened with a nut to a stud fixed to the bottom of the frame. The fairing acts as an additional powder charge. The cumulative charges and explosive cartridge are sealed. Moisture-resistant detonating cords are used to activate the cumulative charges. The powder charge between the holes is made with grooves filled with high-energy composite material. As a high-energy composite material, nano-sized aluminum powder is used.

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 non-deficient materials and well-known technologies are used in the manufacture of a device for opening and gas-dynamic treatment of a formation.

The essence of the utility model is illustrated in figure 1 ... 3, where:

on fit.1 shows a device for opening and gas-dynamic treatment of the reservoir,

figure 2 section aa

figure 3 a section aa, the holes in the powder charge are made expanding away from the cumulative charges.

A device for opening and gasdynamic treatment of the formation, is lowered into the well on a geophysical cable 1, and consists of a powder charge 2 with a central channel 3 inside of which cumulative charges 5 are mounted on the frame 4, connected by a detonating cord 6 with an explosive cartridge 7, which is electrically connected by a wire 8 with a geophysical cable 1, the functions of the casing are performed by a powder charge 2 made with holes 9 opposite which cumulative charges are installed on the frame 5. Frame 4 is fixed from radial and axial in the central channel 3 of the powder charge 2, and the diameter of the holes 9 made in the powder charge 2 is larger than the diameter of the cumulative jet. The holes 9 in the powder charge are made expanding away from the cumulative charges 5. To fix the frame 4 from radial and axial movement on the frame 4, a protrusion 10 is made that enters into the groove 11 and is made inside the central channel 3 of the powder charge 2. From the bottom, the central channel 3 of the powder charge 2 is closed fairing 12. Fairing 12 is made with a hole and is attached with a nut 13 to the stud 14 fixed to the bottom of the frame 4. Fairing 12 performs the function of an additional powder charge. The cumulative charges 5 and the explosive cartridge 7 are sealed. To activate the cumulative charges 5, moisture-resistant detonating cords 6 are used. The powder charge 2 between the openings 9 is made with grooves 15 filled with high-energy composite material. As a high-energy composite material, nano-sized aluminum powder is used.

A device for opening and gas-dynamic treatment of the reservoir works as follows. On the geophysical cable 1, it descends into the processing interval. After that, an electrical impulse is supplied through a geophysical cable 1 connected by a wire 8 to an explosive cartridge 7. The blasting cartridge 7 is triggered, cumulative charges 5 are activated through the detonating cord 6, which pierce the walls of the casing and create perforation channels in the reservoir. After the cumulative charges 5 are triggered, the temperature rises and the powder charge 2 ignites. At the same time, the high-energy composite material that fills the grooves 15 is ignited. Nano-sized aluminum powder is used as a high-energy composite material. Powder of nanosized aluminum increases the detonation velocity from 4380 m / s to 5070 m / s. At the same time, the burning rate and pressure acting on the formation increase. The initiation of the powder charges 2 is carried out by cumulative jets with a delay, which depends on the diameter of the holes 9 made in the powder charge and the intensity of their expansion. The larger the diameter of the holes 9 and the angle of their expansion, the longer the delay time of the powder charge 2. The combustion products of the powder charge 2 increase the pressure in the perforation channels and create a network of cracks in them, which leads to an intensification of the inflow of the produced product into the well. The device provides a more effective impact on the reservoir due to sequential perforation and the effects of the combustion products of the powder charge on the reservoir.

Application of the utility model allowed:

1. To ensure consistent perforation of the well and thermogasochemical treatment of oil and gas bearing strata

2. To increase the effectiveness of the impact on the oil and gas strata of the combustion products of solid fuels.

3. Increase the burning rate of powder charges and increase the pressure in the well.

4. To increase or restore the flow properties of the adjacent rock

5. To simplify the assembly of the device in the well

6. Reduce maintenance time

7. Improve device reliability

Claims (10)

1. Device for opening and gas-dynamic treatment of the formation, lowered into the well on a geophysical cable, consisting of a powder charge with a central channel, inside of which cumulative charges are installed on the frame, connected by a detonating cord with an explosive cartridge, which is electrically connected to the geophysical cable, characterized in that that the functions of the casing are performed by a powder charge made with holes, opposite which cumulative charges are installed on the cage, the cage is fixed from radial and axial charges about displacements in the central channel of the powder charge, and the diameter of the holes made in the powder charge is larger than the diameter of the cumulative jet. 2. The device for opening and gas-dynamic treatment of the formation according to claim 1, characterized in that the holes in the powder charge are made expanding away from the cumulative charges. 3. The device for opening and gas-dynamic processing of the formation according to claim 1, characterized in that for fixing the frame from radial and axial movement on the frame, a protrusion is made that enters the groove made inside the central channel of the powder charge. 4. The device for opening and gas-dynamic treatment of the formation according to claim 1, characterized in that the bottom of the Central channel of the powder charge is closed by a fairing. 5. The device for opening and gasdynamic processing of the formation according to claim 4, characterized in that the fairing is made with a hole and is attached with a nut to a stud fixed to the bottom of the frame. 6. The device for opening and gas-dynamic treatment of the formation according to claim 4, characterized in that the fairing performs the functions of an additional powder charge. 7. The device for opening and gas-dynamic treatment of the formation according to claim 1, characterized in that the cumulative charges and explosive cartridge are sealed. 8. The device for opening and gas-dynamic treatment of the formation according to claim 1, characterized in that moisture-resistant detonating cords are used to activate the cumulative charges. 9. The device for opening and gas-dynamic treatment of the formation according to claim 1, characterized in that the powder charge between the holes is made with grooves filled with high-energy composite material. 10. The device for opening and gasdynamic treatment of the formation according to claim 9, characterized in that nanosized aluminum powder is used as a high-energy composite material.