RU108795U1 - POWDER PRESSURE GENERATOR - Google Patents

Abstract

 1. A powder pressure generator, lowered into the well on a geophysical cable, consisting of powder charges collected between the lid and the pallet, incandescent spirals are installed in the upper and lower powder charges, electrically connected to the geophysical cable, and all powder charges are connected by a cable, different the fact that the cable connecting the individual powder charges is located in a groove made along the side surface of the powder charge. ! 2. The powder pressure generator according to claim 1, characterized in that on one side of the powder charge at the end there is a protrusion, and on the other hand a cavity, and the powder charges partially enter into each other. ! 3. The powder pressure generator according to claim 1, characterized in that the depth of the groove on the side surface of the powder charge is greater than or equal to the diameter of the cable connecting the individual powder charges. ! 4. The powder pressure generator according to claim 1, characterized in that the width of the groove on the side surface of the powder charge is larger than the diameter of the cable connecting the individual powder charges. ! 5. The powder pressure generator according to claim 1, characterized in that the groove is made with a radius. ! 6. The powder pressure generator according to claim 1, characterized in that the groove is rectangular. ! 7. The powder pressure generator according to claim 2, characterized in that the protrusions and depressions at the ends of the powder charge for their radial fixation relative to each other are made curly.

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.

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 the powder generator is the lack of centering of individual powder charges.

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 heating 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 round 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 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 lack of alignment of individual powder charges, the high complexity of the assembly before lowering into the well.

The well-known "Method of perforation and processing of the bottom-hole zone of the well and a device for its implementation" according to the patent of the Russian Federation for invention No. 2162514 Use: in the operation of oil wells. Provides perforation of a well for one descent and lifting 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 effect immediately at the time of completion 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 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 this device is the lack of alignment of individual powder charges, the high complexity of the assembly before lowering into the well.

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 are placed protective blocks of non-detonating mixed fuel of the elastic type. The disadvantage of this device is the lack of alignment of individual powder charges, the high complexity of the assembly before lowering into the well.

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 with 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 treating 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 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 this device is the high complexity of the assembly before lowering into the well.

The well-known "Integrated method of stimulation of wells" 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, to remove 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 the invention is the presence of protruding segments that increase the outer diameter of the device.

Known powder pressure generator according to the book Semenov Yu.V., Voitenko B.C. et al. “Testing oil and gas exploration wells in a column” Moscow, Nedra, 1983, p. 231. (prototype) A powder pressure generator consists of powder charges collected between the lid and the pan; glow plugs are electrically connected to the geophysical cable in the upper and lower powder charges , the powder charges are interconnected by a cable that runs between the protrusions made on the side surface of the powder charges. The disadvantage of this device is the presence of protrusions that increase the outer diameter of the device, as well as the lack of alignment of individual powder charges and the increased complexity of the assembly of the device.

The tasks of creating a utility model are: improving the passage of the powder pressure generator to the interval of the intended treatment, reducing the external diameter of the device, preventing the displacement of the powder charges, accelerating the assembly of the powder pressure generator before it is lowered into 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 collected between the cover and the pallet, incandescent spirals are installed in the upper and lower powder charges, electrically connected to the geophysical cable and all powder charges are connected between themselves by a cable, and the cable connecting the individual powder charges is located in a groove made along the side surface of the powder charge. On one side of the powder charge, a protrusion is made at the end, and on the other side of the cavity, the powder charges partially enter into each other. The depth of the groove on the side surface of the powder charge is greater than or equal to the diameter of the cable connecting the individual charges. The width of the groove on the side surface of the powder charge is larger than the diameter of the cable connecting the individual charges. The groove is made with a radius. The groove is made rectangular. The protrusions and depressions at the ends of the powder charge for their radial fixation relative to each other are made curly.

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 powder pressure generator.

The essence of the utility model is illustrated in figure 1 ... 9, where:

figure 1 shows the powder pressure generator.

figure 2 shows a section aa

figure 3 shows a section bB

Figures 4 and 5 show a section bB with a curly shape of the compound of the powder charges

6 and 7 show the ends of the powder charge with a cavity and a protrusion

on Fig and 9 shows the ends of the powder charge made with a depression and a protrusion of a curved shape, for example in the form of a polygon.

A powder pressure generator descends into the well on a geophysical cable 1 and consists of powder charges 2 collected between the cover 3 and the pallet 4, glow plugs 5 are installed in the upper and lower powder charges, electrically connected by wires 6 to the geophysical cable 1, and all powder charges 2 interconnected by a cable 7, and a cable connecting individual powder charges 2 is located in a groove 8 made along the side surface of the powder charge 2. On one side of the powder charge 2, a protrusion 9 is made at the end, and on the other, torons depression 10 and powder charges 2 partially enter into each other. The depth of the groove 8 on the side surface of the powder charge 2 is greater than or equal to the diameter of the cable 7 connecting the individual powder charges 2. The width of the groove on the side surface of the powder charge 2 is larger than the diameter of the cable 7 connecting the individual powder charges 2. The groove 7 can be made with a radius. The groove 7 may be made rectangular. The protrusions 9 and depressions 10 at the ends of the powder charge 2 for their radial fixation relative to each other can be made curly.

The powder pressure generator operates as follows. On the geophysical cable 1, it descends into the processing interval. After which voltage is applied to the incandescent spiral 5 through a geophysical cable. Spirals 5 are heated and ignite the powder charges 2. The burning of powder charges 2 in the well is accompanied by mechanical, thermal, and physico-chemical effects on the formation, which allows to increase the flow of oil and gas in production wells. Due to the absence of protruding parts on the surface of the powder pressure generator, it can be used in wells with a more intensive set of zenith angle, as well as in wells with a smaller bore diameter. The protrusions 9 and depressions 10 at the ends of the powder charge 2 make it possible to accelerate the assembly of the powder charges 2, and also to fix them from radial movement, which allows the orientation of the grooves 8 on individual powder charges and reduce the load on the cable 7

Application of the utility model allowed:

1. To carry out thermogasochemical treatment and fracturing of oil and gas bearing strata in wells with a smaller inner diameter

2. Accelerate the assembly of the powder pressure generator before it is lowered into the well.

3. To prevent radial displacement of powder charges.

4. Improve the centering of individual powder charges with each other.

5. To improve the passage of the powder pressure generator along the wellbore in the interval of the proposed treatment.

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

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

Claims (7)

1. A powder pressure generator, lowered into the well on a geophysical cable, consisting of powder charges collected between the lid and the pallet, incandescent spirals are installed in the upper and lower powder charges, electrically connected to the geophysical cable, and all powder charges are connected by a cable, different the fact that the cable connecting the individual powder charges is located in a groove made along the side surface of the powder charge. 2. The powder pressure generator according to claim 1, characterized in that on one side of the powder charge at the end there is a protrusion, and on the other hand, a cavity, and the powder charges partially enter into each other. 3. The powder pressure generator according to claim 1, characterized in that the depth of the groove on the side surface of the powder charge is greater than or equal to the diameter of the cable connecting the individual powder charges. 4. The powder pressure generator according to claim 1, characterized in that the width of the groove on the side surface of the powder charge is larger than the diameter of the cable connecting the individual powder charges. 5. The powder pressure generator according to claim 1, characterized in that the groove is made with a radius. 6. The powder pressure generator according to claim 1, characterized in that the groove is rectangular. 7. The powder pressure generator according to claim 2, characterized in that the protrusions and depressions at the ends of the powder charge for their radial fixation relative to each other are made curly.