RU185885U1 - DEVICE FOR PROCESSING THE BOREHING ZONE OF THE STRING - Google Patents

Abstract

The technical result of the utility model is the creation of a device for pulsed processing of the borehole zone of the formation of high safety and reliability. The technical result of the utility model is achieved in that the device is made in the form of an assembly of charges and means of ignition, mounted on a cable or metal rod. The device descends into the well on a geophysical cable. The charge assembly consists of two groups - the first, ignited by a detonating cord with the volume and dynamics of gas evolution during combustion, providing a pressure impulse in the well at a gas generator depth greater than the rock pressure, and the second group of charges with lower dynamics and a large gas emission volume in comparison with charges of the first group, providing the creation of a secondary pressure front, the pulse of which exceeds the duration of the first pressure pulse. In order to increase the reliability and safety of processing the borehole zone of the reservoir, the generator charges have a protective coating of aluminum foil. The technical and economic effect of the utility model is to ensure high quality and safety of the work performed.

Description

The utility model relates to the oil industry, namely to the field of pulsed technologies for intensifying oil production and device designs for their implementation.

A well-known method of intensifying oil production is the processing of the borehole zone of the reservoir using pressure generators [1]. In this case, the first and most powerful impulse exceeds the hydrostatic pressure in the well by 150-300 atmospheres. Subsequent decaying alternating pulsation “swings” the reservoir, increasing its oil recovery. Generator designs are well known. They have been used since the 60s of the last century and are described in detail in reference books.

Recently, devices are widely used that provide the formation of a pressure pulse with a high loading rate of rocks with the formation of numerous extended and branched cracks in the near-well and remote zone of the formation that do not close after unloading [2]. In this case, the gas generator includes an assembly of charges, a means of igniting the charges (detonating cord), as well as a load-carrying cable for delivering the gas generator to the well and the attachment point of the gas generator to the load-carrying cable. The assembly includes the first group of charges with the volume and dynamics of gas evolution during combustion, which ensures the generation of a pressure pulse in the well greater than the rock pressure at a high rate of rise of the pressure pulse. The second group of charges with less dynamics and a large volume of gas evolution (compared to the charges of the first group) provides the creation of a secondary pressure front with a magnitude of at least 0.7 of the magnitude of the first pressure pulse for a time exceeding the duration of the first pressure pulse by 3-15 times.

The disadvantage of this device is the direct contact of the pieces from the gas-generating composition with the well fluid, which leads to a partial leaching of the material of the pieces during the descent of the generator into the well, and, as a result, a decrease in the power and reliability of operation.

On the other hand, there are pressure generators whose charge surface is insulated with a cotton cloth impregnated with epoxy resin [3]. Such protection protects the charges from contact with the borehole fluid, and also creates conditions for the combustion of a charge in an increasing gas intake mode [4]. The disadvantage of this scheme is the high strength of the cotton fabric, which also increases many times when the fabric is impregnated with epoxy resin. As a result, after the generator has been triggered, large fragments of protection remain in the well, creating difficulties for further work.

In order to eliminate the aforementioned drawback, a device for impulse processing of the near-wellbore zone of the formation is proposed, which provides for the use of aluminum self-adhesive foil (such as “adhesive tape” or “LAMS” aluminum mounting self-adhesive tape) as a charge against contact with borehole fluid.

The tensile strength of such a tape is about 30 MPa [5], which is much lower than the strength of even non-impregnated cotton cloth (350 MPa) [6], which ensures the destruction of the aluminum tape when exposed to powder gases. In addition, the thickness of the protective layer of aluminum tape is about 30 μm, while the thickness of the protective layer of cotton fabric impregnated with epoxy resin is not less than 2 ... 4 mm, therefore, the volume of fragments left in the well after the generator is activated will be, at using foil, ten times less.

The purpose of the utility model is to increase the reliability and safety of processing the borehole zone of the formation.

The device (Fig. 1) consists of two groups of tubular charges. The first group of charges 1 is made of mixed fuel and is located in the lower part of the assembly. The second group of charges 2 is made of ballistic or mixed fuel and is located in the upper part of the assembly. A detonating cord 3 is laid in the axial channels of the charges of the first group 3. The surfaces of the charges of both the first and second groups are isolated from the well fluid by a layer of self-adhesive aluminum foil 4. The lower end of the detonating cord is connected to an explosive cartridge 5 mounted in the tube 6. As a supporting element, on which the charges of both groups are “strung” and an explosive cartridge is installed, a scythe is used (a piece of metal cable or a geophysical cable) 7. To fix the assembly, use head 8 and tip 9 with screws and 10. The device is lowered into the well on a geophysical cable 11.

The device operates as follows. It is lowered into the well on a geophysical cable and installed in a predetermined interval. From the blasting machine, an electric impulse is fed through the cable to the explosive cartridge. When triggered, the latter detonates the cord. From the detonation products of the detonating cord, the first group ignites and burns in volume mode with the volume and dynamics of gas evolution during combustion, which ensures the generation of a pressure pulse in the borehole that exceeds the rock pressure at a high rate of rise of the pressure pulse. The combustion products of the charges of the first group ignite the charges of the second group, which are burned in a layer-by-layer mode, with less dynamics and a large volume of gas evolution compared to the charges of the first group, creating a secondary pressure front. At the same time, charges, due to the presence of protection from aluminum foil, are not leached by the well fluid, and the fragments of the foil remaining in the well after the generator is triggered practically do not pollute the latter.

Thus, the reliability and safety of processing the borehole zone of the formation are increased.

Text links:

1. Gunpowder pressure generators PGD.BK and ADS. Handbook of shooting and explosive equipment / Ed. L.Ya. Friedlander. M., Nedra, 1983, 197 p.

2. RF patent No. 2242600 dated February 24, 2004.

3. Zamakhaev B.C., Martynov V.G. Blasting in wells. Textbook for high schools. - M .: Nedra Publishing House LLC, 2010. - 247 p.

4. Pertrushin A.G. Perforating blasting in wells: a training manual / FSBEI HPE “Ural. state mountain un ". - Yekaterinburg: Publishing House of Ural State Technical University, 2015 .- 222 p.

5. Self-adhesive aluminum tape. Specifications TU 2245-074-04696843-2001

6. https://www.prosopromat.ru/

Claims (1)

A device for processing the borehole zone of the formation, including the assembly of charges and a means of igniting the charges, mounted on a cable, a geophysical cable for lowering the device into the well, while the assembly of charges contains the first group of charges with the volume and dynamics of gas evolution during combustion, providing a pressure pulse in the well of magnitude exceeding rock pressure, and the second group of charges with less dynamics and a large volume of gas evolution in comparison with the charges of the first group, providing the creation of a secondary pressure front, the pulse of which exceeds the duration of the first pressure pulse, characterized in that, in order to increase the reliability and safety of the generator, the outer side surface of the charges is covered with a protective layer of aluminum foil.

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