EA030269B1 - Hydro-pilse formation treatment device - Google Patents

Abstract

The invention is related to oil and gas producing industry, to the field of well drilling and operation, in particular, to devices for perforation of a formation and hydro-pulse treatment of a bottom-hole formation zone in oil-and-gas wells. A hydro-pulse formation treatment device comprises a multiple-action implosion chamber 2 connected to the tubing string and designed as a cylinder. The implosion chamber 2 has a dilation 4 in its upper part and a dilation 5 in its lower part. The implosion chamber 2 accommodates a plunger 6 connected, through a rod 7, to a piston 8 of a hydraulic cylinder 3. The rod 7 carries a stop valve 12 installed in a mounting seat 13 disposed between the hydraulic cylinder 3 and the dilation 4 in the upper part of the implosion chamber 2. A perforator 1 is connected to the lower part of the implosion chamber 2; between them, a stop valve 14 is mounted, and overflow channels 15 in the perforator body and jet channels 16 in punchers 17 are provided. The technical result is providing depression on the bottom-hole formation zone as many times as necessary.

Description

The invention relates to the oil and gas industry, the field of drilling and operation of wells, namely, devices for the secondary opening and hydroimpulse treatment of the bottomhole formation zone in oil and gas wells. The device for hydropulse treatment of the formation contains a reusable implosion chamber 2 connected to the tubing string and made in the form of a cylinder. The implosion chamber 2 has an extension 4 in its upper part and an extension 5 in its lower part. In the implosion chamber 2 is placed a plunger 6 connected through the rod 7 to the piston 8 of the hydraulic cylinder 3. On the rod 7 there is a stop valve 12 installed in the seating seat 13, made between the hydraulic cylinder 3 and the extension 4 in the upper part of the implosion chamber 2. To the lower part of the implosion chamber 2 is connected to a perforator 1, between which a shut-off valve 14 is installed and flow-through channels 15 are made in the body of the perforator and hydro-monitor channels 16 in piercers 17. The technical result is to create a depression in the bottomhole formation zone many times.

030269 Β1

030269 Β1

030269

The invention relates to the oil and gas industry, the field of drilling and operation of wells, namely, devices for the secondary opening and hydroimpulse treatment of the bottomhole formation zone in oil and gas wells.

Widely known are devices for cumulative perforation and processing of the bottomhole formation zone on a geophysical cable by the method of implosion (KI 2211313, 08.27.2003; KI 3131512, 10.06.1999; KI 2072421, 27.01.1997). The disadvantage of all these devices is that the opening and subsequent processing of the bottomhole formation zone (PPP) of a separate interval in the well is carried out only once, because after each processing cycle requires the replacement of the elements of the device. The devices are technically limited in use in combination with other perforators, with the exception of cumulative (explosive) perforators, a significant drawback of which is the high risk of their use in oil and gas wells.

Also known is a device for creating perforation channels in a well, mounted on a tubing string, comprising a housing, a wedge with a groove, a hydraulic cylinder and at least one working member with a jetting channel placed in the groove of the bearing and a wedge with the possibility of radial return -accessible movement, while the wedge is installed above the piston of the hydraulic cylinder, on which the support of the working body is fixed, and the sub-piston cavity is communicated through tubes with the jetting channel of the working body and above Linova cavity for supplying the working fluid (patent CI № 2521427, publ. 06.27.2014).

The closest technical solution chosen by the applicant as a prototype is a device for hydro-mechanical perforation of wells and hydro-impulse treatment of productive formations, which uses the impulse of hydraulic shock generated by the implosion chamber. The device contains a hydromechanical piercing punch installed in the well and interacting with the tubing string column, in the casing of which at least one piercer is installed, which is capable of moving in the radial direction under the pressure of the working fluid, the piercer is provided with a jetting channel with a shut-off valve, in the upper part of the perforator casing there is a hydraulic actuator, made in the form of an implosion chamber (cylinder), inside which it has the ability to move the plunger, the device has a flow-through channel, the upper part of the implosion chamber is made with an extension (ЕА № 201301096 (А1), publ. 04/30/2015).

The disadvantages of the prototype include the fact that the design of the device does not allow to form high-quality fluid-conducting channels in the bottomhole formation zone (PPP) due to the fact that depression is created on the formation to extract the colmatant from it once. In addition, when the device is fixed in the borehole from its axial movement when creating a vacuum in its implosion chamber, a separate node is used - the anchor, for which reliable installation requires preparatory work to clean the internal surface of the casing from asphalt, resin and paraffin deposits, which provides for an additional lifting operation of special equipment (scraper, brushes, etc.).

The technical problem of the invention is to improve the filtration properties of the bottomhole formation zone (PZP) and simplify the design of the device.

Achievable technical result - the provision of depression on the PPP more than once when creating a vacuum in the implosion chamber that does not require fixation of the device with an anchor.

The technical problem is achieved by the fact that the device for hydropulse treatment of the reservoir contains a piercing punch with at least one piercer equipped with at least one channel, a hydraulic cylinder which is designed to be installed in a well and interact with a column of pump-compressor pipes, while the top of the perforator is installed an implosion chamber having the shape of a cylinder with an expansion in the upper part, inside which a plunger is placed with the possibility of its movement, characterized in that it additionally The implosion chamber has an expansion in the lower part, and the upper part of the implosion chamber is rigidly connected to the hydraulic cylinder, the rodless cavity of which communicates with the well cavity, and the rod cavity communicates with the cavity of the tubing tubing, shut-off valves are located at the top and bottom of the implosion chamber, and the implosion chamber plunger is located connected through a rod with a piston of a hydraulic cylinder.

A comparison of the proposed technical solution with the prototype shows that it has the following features:

in addition, the implosion chamber has an extension in the lower part; in the upper part, the implosion chamber is rigidly connected to the hydraulic cylinder; rodless cavity of the hydraulic cylinder communicates with the cavity of the well; rod end of the hydraulic cylinder communicates with the cavity of the tubing;

shut-off valves are located at the top and bottom of the implosion chamber; the plunger of the implosion chamber is connected via a rod to the piston of the hydraulic cylinder. Therefore, we can assume that the claimed technical solution meets the criterion of "novelty."

The inventive device can be performed on standard equipment using i-030269

known technological processes, so it meets the criterion of "industrial applicability".

The performance of the device in operation is increased by using a hydraulic cylinder rigidly connected through the piston rod and the plunger of the implosion chamber with the possibility of their axial movement up and down along the axis of the hydraulic cylinder and the implosion chamber. The implementation of shut-off valves on both sides of the implosion chamber allows for the creation of a vacuum above and below the plunger, which leads to depression and repression in the PPP. The simplicity of the claimed design of the device does not require the use of an anchor to eliminate the axial movement of the device in the well, since To create a vacuum in the implosion chamber, fluid pressure is used that acts on the reciprocating movement of the piston of the hydraulic cylinder.

When conducting patent information research, the claimed set of features was not identified. This allows us to conclude that the claimed technical solution meets the criterion of "inventive step". The perforator may have a design with a different number of piercers, the main condition of which is the presence of channels in its body and in the body of the piercer, which allow the inner cavity of the implosion chamber with a quenched well space to be communicated.

The drawings schematically depict a perforator with two punches.

FIG. 1 shows a general view of the device at the beginning of work.

FIG. 2 shows a general view of the device when creating repression on the layer.

FIG. 3 shows a general view of the device when creating a depression on the reservoir.

The inventive device contains a perforator 1 connected to the tubing string. Inside the tubing there is an implosion chamber 2 and a hydraulic cylinder 3 connected to it. The reusable implosion chamber 2, made in the form of a cylinder, has an extension 4 in its upper part and an extension 5 in its lower part. In the implosion chamber 2, a plunger 6 is placed, connected through the rod 7 to the piston 8 of the hydraulic cylinder 3. The rodless cavity of the hydraulic cylinder 3 is connected to the internal cavity of the casing 9 by channel 10. The rod cavity of the hydraulic cylinder 3 is connected to the tubing cavity by channel 11. There is a stop valve 7 on the rod 7 valve 12, which interacts with the seating seat 13, made between the hydraulic cylinder 3 and the expansion 4 in the upper part of the implosion chamber 2. The expansion 5 of the implosion chamber 2 is connected to the perforator 1, between which the stop valve 14 is installed and performed enes downcomers 15 communicating with channels 16 hydromonitor punches 17.

The operation of the device is as follows.

The device on the tubing string is lowered into the well to a predetermined perforation interval and process the PPP, then the internal cavity of the tubing and implosion chamber 2 is filled with working fluid (acid solutions, hydrocarbon solvents, proppant, etc.). Then, in a known manner, perforation of the casing 9 is performed. Then, the pressure of the working fluid in the tubing cavity is raised, which, entering the rod cavity of the hydraulic cylinder 3 through the channel 11, acts on the piston 8, moving it upwards, which carries the plunger 6 through the rod 7. In this case, a vacuum is created in the rodless cavity of the plunger 6, since the inflow of the well fluid is blocked by the shut-off valve 14. As soon as the plunger 6 enters the expansion 4 of the implosion chamber 2, it rests against the opening of the valve 12, and under the action of the pressure drop above and below the plunger 6, the working fluid rushes down. The specified fluid flow has a high speed and a significant shock impulse (the kinetic energy of the falling liquid column transforms into the energy of a water hammer and reaches values in the hundreds of atmospheres). As a result, the stop valve 14 opens and the fluid through the channels 15 and 16 at high speed, rushes into the annular space, creating repression on the PPP. Then the pressure of the fluid in the cavity of the tubing drop, and in the inner cavity of the casing 9 raise. At the same time, the borehole fluid, acting through the channel 10 into the rodless cavity of the hydraulic cylinder 3, moves the piston 8 down, pushing through the rod 7 the plunger 6, creating a vacuum in the rod cavity of the implosion chamber 2, since shut-off valve 12, while in the landing seat 13, blocks the flow of fluid from the tubing. As soon as the plunger 6 enters the expansion 5 of the implosion chamber 2, it, pressing, opens the shut-off valve 14, creating a depression on the PPP, in which the reservoir fluid together with the plugging valve rushes through the channels 16 and 15 into the implosion chamber 2. this interval, creating repression and depression, repeat the required number of times (carrying out the so-called effect of vatuz). After processing this interval, the device is moved to the next interval and the above process is repeated. At the end of the perforation and processing of all intervals, the claimed device is removed from the well.

The inventive device design allows you to improve the filtration properties of the reservoir due to the creation of a depression on its bottomhole zone any necessary number of times. In addition, the claimed design eliminates the use of an anchor to ensure the fixation of the device from its axial movement along the axis of the well.

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Claims (1)

CLAIM A device for hydroimpulse treatment of a formation, comprising a piercing punch made with the possibility of being installed in a well and interacting with a tubing string with at least one punch equipped with at least one channel, a hydraulic cylinder, with an implosion chamber in the shape of a cylinder at the top of the perforator with an extension in the upper part, inside of which the plunger is placed with the possibility of its movement, characterized in that in addition the implosion chamber has an expansion in The upper part of the implosion chamber is rigidly connected to the hydraulic cylinder, the rodless cavity of which communicates with the cavity of the well, and the rod cavity communicates with the cavity of the pump-compressor tubing, shut-off valves are placed at the top and bottom of the implosion chamber, and the plunger of the implosion chamber is connected to the hydraulic cylinder piston through the rod. - 3 030269