RU2460873C1 - Powder generator of pressure and method for its implementation - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: powder generator consists of powder charges connected via cable between cover and tray. Not less than one powder charge contains glowing spiral electrically connected to geophysical cable. According to the invention there is an upper packer installed on geophysical cable above the powder charges that is done in a form of elastic membrane with powder charge of upper packer, electrical spiral of upper packer and additional powder charge with upper packer detonator. Below the powder charges there is a lower packer done in a form of elastic membrane with powder charge of lower packer, electrical glowing spiral of lower packer and additional powder charge with lower packer detonator. Wire thickness and its material of upper and lower packer glowing are made the same, but different from glowing spiral of powder charge. According to invention the method consists in the use of above powder generator of pressure.

EFFECT: increase of formation influence efficiency, increase of pressure on this formation in treatment interval, prevention of product blow-out from the well.

3 cl, 6 dwg

Description

The invention relates to the oil and gas industry, and in particular 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 well-known "Powder facing pressure generator" for housing shaped-charge perforators and implosive devices, according to the application of the Russian Federation for invention No. 2009115084, made in the form of a set of fragments fixed to the device case one after the other in a single tubular facing charge. Its fragments can be assembled from bar elements of any profile of ballistic artillery gunpowders. Fragments of the powder facing pressure generator can be made in the form of homogeneous structures in the form of a pipe by gluing the ends of the powder elements with cold curing polymer or in the form of flexible plates by tying the powder elements with nitrocellulose or cotton tape. The disadvantage of this device is the low efficiency of the impact on the oil and gas strata of the combustion products of solid fuels.

It is known "Device for perforating wells and fracturing in the reservoir" according to the patent of the Russian Federation for invention No. 2170339. The invention relates to the oil and gas industry and, in particular, to cumulative perforators and powder pressure generators used in wells. Provides an increase in the efficiency of the perforator and an increase in the size of the channels in the columns and the creation of additional cracks in the zone adjacent to the well. The inventive device comprises a cumulative perforator with explosive charges connected to a cable cable for lowering into the well. It forms cumulative jets during detonation. There is a powder pressure generator with solid fuel elements. The solid fuel elements of the powder pressure generator are located between the explosive charges or near explosive charges in contact with them. Solid fuel elements can be located in the lower part of the device instead of the cargo or part of this cargo. In this case, the solid fuel elements do not intersect the axis of the cumulative jets and are made of nonmetallized ballistic or mixed solid rocket fuel in the form of cylinders with a central circular channel, in which the length and diameter of the central channel are related by the ratio (20 ... 40): 1. The content of the filler stabilizing combustion to the mass of the solid fuel element is not more than 1.5%. In other embodiments of the device, the length and diameter of the central channel are related by other ratios. In addition, in other embodiments, a different content of the filler stabilizer of combustion to the mass of the solid fuel element. In other embodiments, there is another arrangement of the components of the device and their implementation. The disadvantage of this device is the low efficiency of the impact on the formation, the possible release from the well of the produced product, a rapid decrease in pressure in the processing interval.

The well-known "Method of perforation and processing of the bottomhole zone of the well and a device for its implementation" according to the patent of the Russian Federation for invention No. 2162514. Usage: in the operation of oil wells. Provides perforation of a well for one descent and rise of the equipment, cleaning of the treated formation from clogging elements, and formed perforation channels in the formation from the baking crust and fracturing. SUMMARY OF THE INVENTION: a method and apparatus for its implementation include perforating a well with a cumulative perforator and implosive action immediately at the end of the perforation of the well to clean the formed perforation channels from the baking crust using an implosion chamber, the internal cavity of which is connected to the internal cavity of the perforator. After that, the thermogas generator is connected, connected to the perforator by a connecting unit, in which there is a grate with plugged holes. Hot gases of the thermogas generator enter the perforator body and, through the openings in its housing for cumulative charges, act directly on the perforation channels in the formation through preformed perforation channels. Charge characteristics, device design and operating conditions are selected such as to provide hydraulic fracturing pressure. To assess the nature of the impact and the nature of the device, it is equipped with temperature and pressure sensors, and to determine the location of the device in the well, a locator of couplings. The disadvantage of the invention is the low efficiency of the impact on the reservoir, the possible release of the produced product from the well, a rapid decrease in pressure in the processing interval.

It is known "Device for opening and gasdynamic treatment of the reservoir" according to the patent of the Russian Federation for invention No. 194151. 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 the invention is the low effectiveness of the impact on the reservoir, a rapid decrease in pressure in the processing interval.

The well-known "Solid fuel gas generator 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 solid propellant charges - 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, when processing steeply inclined, 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 igniter unit. 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 impulses during the combustion of these charges. The disadvantage of this device is the low efficiency of the impact on the oil and gas strata of the combustion products of solid fuels.

It is known "Device for thermogasochemical processing of a productive formation" according to the patent of the Russian Federation for the invention No. 2151282 (prototype device). The device contains an unpacked charge of solid propellant material, which is connected to a cable cable and made in the form of a continuous cylindrical block with an igniter and a central circular channel. The ratio of the length of the channel to its diameter is (40-120): 1. Rows of transverse through channels with a diameter of 0.25-1.1 times the diameter of the central circular channel are perpendicular to the central circular channel in the charge body along its length. In each row, the transverse through channels are intersected at right angles to each other, and the distance along the length of the charge between each two adjacent rows of transverse through channels is equal to the ratio (20-40): 1 of the length of the central circular channel to its diameter. The device further comprises segments of solid propellant material protruding from the checker located on opposite cylindrical surfaces of the checker parallel to the axis of its central channel. The segments made longitudinal grooves. The distance between the grooves is equal to the outer diameter of the cylindrical part of the checker. The ratio of the circumference of the checker to the base of each of the protruding segments is (6-9): 1. The disadvantage of this device is the low efficiency of the impact on the formation, the possible release from the well of the produced product, a rapid decrease in pressure in the processing interval.

The well-known "Integrated method of stimulation of wells" (prototype method) according to the patent of the Russian Federation for the invention No. 2282027. The method is used in the oil industry. Provides increased efficiency of stimulation of the well by enhancing the complex thermogaschemical, baric and vibro-microwave effects on the bottom-hole zone of the oil reservoir by using a powder charge without residual burning fuel fragments. The inventive method includes thermogasochemical baric and vibration microwave effects on the reservoir using a gas generator. It has a cylindrical unpacked charge with a central round channel of solid fuel material and is connected to a geophysical cable. The impact is carried out by burning this charge in the interval of the reservoir with the simultaneous accumulation of pressure of the powder gases in the cavity of its Central channel with subsequent transfer of combustion energy to the reservoir. According to the invention, in order to get rid of residual charge fragments at the end of its combustion, a charge is used with segments protruding on opposite sides of the cylindrical surface parallel to the axis of its central channel with longitudinal grooves made in them. The distance between the grooves is equal to the outer diameter of the cylindrical part of the checker. The ratio of the circumference of the checker to the base of each of the protruding segments is (6 ÷ 9) ÷ 1. The disadvantage of this method is the low efficiency of the impact on the formation, the possible release from the well of the produced product, a rapid decrease in pressure in the processing interval.

The objectives of the invention are: to increase the effectiveness of the impact on the oil and gas strata of the combustion products of solid fuels, increase the pressure on the reservoir in the processing interval, preventing the release of the produced product from the well.

The solution to these problems was achieved due to the fact that the powder pressure generator, lowered into the well on a geophysical cable, consists of powder charges connected between the cover and the pallet by a cable, at least one powder charge contains an incandescent coil electrically connected to the geophysical cable, and above powder packs on the geophysical cable mounted top packer, made in the form of an elastic shell with a powder charge of the top packer and an electric spiral of the top packer. The thickness of the wire of the spirals in the powder charge and in the powder charge of the upper packer is made different. The spirals in the powder charge and in the powder charge of the upper packer can be made of different materials. Between the powder charges and the upper packer, an autonomous digital manometer-thermometer is installed. Below the powder charges can be installed lower packer, made in the form of an elastic shell with a powder charge of the lower packer and the electric spiral of the lower packer. The spiral in the powder charge of the lower packer can be the same as in the powder charge of the upper packer. The top packer contains an additional powder charge with a detonator. The lower packer contains an additional powder charge with a detonator.

A method of applying a powder pressure generator involves burning powder charges in the interval of a productive formation, and before impacting the formation, the passage section of the well is blocked from above with an upper packer. Before impacting the formation, the borehole cross section is simultaneously blocked by packers above and below the powder charge. After exposure to the formation, the upper packer is destroyed, causing the detonator to activate an additional powder charge. After exposure to the formation, the lower packer is destroyed, causing the detonator to activate an additional powder charge.

Patent studies have shown that the proposed technical solution has novelty, industrial applicability and inventive step, i.e. satisfies all the criteria of the invention. The inventive step is confirmed by the fact that a new set of essential features provides a new technical result.

The invention is illustrated in figure 1 ... 6, where:

figure 1, a powder pressure generator descends into the well,

figure 2 the flow cross section of the pipe string is blocked from above by the upper packer,

figure 3 the impact on the formation by burning powder charges,

in Fig.4 the flow cross section of the pipe string is blocked from above and from below by packers,

figure 5 the impact on the formation by burning powder charges,

Fig.6 destruction of the upper and lower packer additional powder charges and the rise of the geophysical cable.

The powder pressure generator 1 descends into the well on a geophysical cable 2 and consists of powder charges 3 connected between the cover 4 and the pan 5 with a cable 6, at least one powder charge 3 contains an incandescent spiral 7, electrically connected to the geophysical cable 2, and above powder charges 3 on the geophysical cable 2 is installed the upper packer 8, made in the form of an elastic sheath 9 with the powder charge of the upper packer 10 and the electric spiral of the upper packer 11. The thickness of the spiral wire in the powder charge 3 and in the powder The charge of the upper packer 10 is different. The spirals in the powder charge 3 and in the powder charge of the upper packer 10 can be made of different material. Between the powder charges 3 and the upper packer 8, an autonomous digital pressure gauge-thermometer 12 is installed. Below the powder charges 3, a lower packer 13 can be installed, made in the form of an elastic shell 14 with the powder charge of the lower packer 15 and the electric spiral of the lower packer 16. The spiral in the powder charge the lower packer 16 may be the same as in the powder charge of the upper packer 10. The upper packer 8 contains an additional powder charge 17 with a detonator 18. The lower packer 13 contains an additional powder charge 19 with a detonator 20 m.

The method of applying the powder pressure generator 1 involves burning powder charges 3 in the interval of the productive formation, and before the impact on the formation, the top section of the well is blocked from above by the upper packer 8. Before exposure to the formation, the section of the well is simultaneously blocked by packers 8 and 13 above and below the powder charge 3. After exposure to the formation, the upper packer 8 is destroyed, causing the detonator 18 to operate an additional powder charge 17. After exposure to the formation, the lower packer 13 is destroyed, causing the detonator m 20 operate additional propellant charge 19.

The powder pressure generator 1 operates as follows. On geophysical cable 2, it descends into the processing interval. Voltage is applied to the electric spiral of the upper packer 11, the powder charge of the upper packer 10 is ignited. The elastic shell 9 of the upper packer 8 is filled with the combustion products of the powder charge, increases in size and blocks the borehole cross section from above. At the same time, the borehole cross section of the well may be blocked by the packer 13 below the processing interval, for this purpose voltage is applied to the lower coil packer 16, the powder charge of the lower packer 15 is ignited. The elastic shell 14 of the lower packer 13 is filled with combustion products of the powder charge 15 and blocks the borehole cross section from below. Overlapping the borehole processing interval from above allows creating greater local pressure and more effectively acting on the formation, while from below it prevents clogging of the channels in the rock with sludge that can rise from the bottom of the borehole during the operation of the powder pressure generator. The spirals in the powder charge 3 and in the powder charge of the packers 8, 13 differ in wire thickness or material and are designed so that the incandescent coil 7 heats up later than the electric spiral of the upper packer 11 and lower packer 16, which allows the powder charges 3 to ignite after the passage section is closed wells with packer 8 or packers 8, 13. After heating spiral 7, powder charges ignite 3. Pressure on the oil and gas bearing formation increases, as a result of which it ruptures and throughputs improve rock adjacent to the well. The pressure and temperature in the well are recorded on a stand-alone digital pressure gauge-thermometer 12, for example AMC-6. After exposure to the formation, the upper packer 8 and the lower packer 13 are destroyed, causing detonators 18 and 20 to operate additional powder charges 17 and 19. The geophysical cable 2 with the destroyed packers 8 and 13 rises to the surface.

A method of using a powder pressure generator 1 includes blocking the borehole cross section of the well, before acting on the formation, from above with the upper packer 8, or blocking the borehole section above and below the upper packer 8 and the lower packer 13. Burning powder charges in the interval of the productive formation 3. Destruction of the upper packer 8, or the destruction of the upper packer 8 and the lower packer 13. The upper and lower packers 8 and 13 are destroyed, causing detonators 18 and 20 additional powder charges 17 and 19.

The application of the invention allowed the following.

1. To increase the effectiveness of the impact on the oil and gas bearing strata of solid fuel combustion products.

2. Increase the pressure on the reservoir in the processing interval.

3. To prevent the release of produced product from the well.

4. To prevent clogging of channels in the rock with sludge located at the bottom of the well.

5. To increase or restore the flow properties of the rock adjacent to the well.

6. Provide thermogasochemical treatment and fracturing of oil and gas bearing strata.

Claims (3)

1. The powder pressure generator for descent into the well on a geophysical cable, consisting of powder charges connected between the cover and the pallet by a cable, at least one powder charge contains an incandescent coil electrically connected to the geophysical cable, characterized in that it is higher than the powder charges on the geophysical cable the cable has an upper packer made in the form of an elastic shell with a powder charge of the upper packer, an electric spiral of the upper packer and an additional powder charge with a detonator of the upper aker, below the powder charges, a lower packer is installed, made in the form of an elastic shell with a powder charge of the lower packer, an electric incandescent spiral of the lower packer and an additional charge with the detonator of the lower packer, while the thickness of the wire and its filament material of the upper and lower packers are the same, but different from the incandescent powder charge. 2. The powder pressure generator according to claim 1, characterized in that a stand-alone digital manometer-thermometer is installed between the powder charges and the upper packer. 3. A method of using a powder pressure generator, including burning a powder charge in the interval of a productive formation, characterized in that the upper packer is made in the form of an elastic shell with a powder charge of the upper packer, an electric filament coil of the upper packer and an additional powder charge of the upper packer, set below the powder charges the lower packer, which is made in the form of an elastic shell with a powder charge of the lower packer, an electric glow plug of the lower packer, the same as the back the incandescence of the upper packer, but different from the spiral of incandescence of the powder charge, and an additional powder charge with the detonator of the lower packer, and after exposure to the formation, detonators of additional powder charges of the upper and lower packers are activated and destroy the latter.

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