RU20128U1 - DEVICE FOR INFLUENCE ON BOTTOM BOREHOLD ZONE OF WELL AND ITS CLEANING - Google Patents

Abstract

1. A device for impacting the bottom-hole zone of a wellbore and cleaning it, including a liner, a check valve, an implosion device, and tubing, which are sequentially installed and connected by pipes, characterized in that it is equipped with a hydraulic spool type decolimator installed between the return valve and implosion device, which is made with a check valve. 2. The device according to claim 1, characterized in that it is equipped with a jet pump mounted on the tubing so that its inlet openings are blocked by a through plug installed in the tubing, and the outlet nozzle is in communication with the space of the well, and the through plug is installed with the possibility of removal installing a blind plug in the tubing between the inlets of the jet pump and a check valve between the jet pump and the plunger. 3. The device according to claim 1 or 2, characterized in that it is equipped with a packer installed between the hydraulic decolmator and the implosion device. A device according to any one of claims 1 to 3, characterized in that the hydraulic decollator is made with a spool device comprising a cylinder with holes in the form of a stator and a rotating spool in the form of a rotor with tangential slots. 5. A device according to any one of claims 1 to 4, characterized in that the shank is made with slots in the side walls and a blanked end, forming a chamber in which the depth gauge is placed.

Description

E21 B 37/00

Device for impacting the bottomhole formation zone of a well and its cleaning

The utility model relates to the oil and gas industry, in particular, to methods for processing, cleaning the bottom-hole zone of a well, and can be used in the construction and operation of oil, injection, water, and exploratory wells.

A device is known for influencing the bottom-hole zone of a formation and for cleaning it, comprising a liner, a check valve, an implosion device in the form of a cylinder with a hollow plunger having openings in the side walls, and tubing connected in series to the hollow a plunger and communicated with its cavity (see RU 2160825 C1, 10.12.2000, E 21 V 37/00).

A disadvantage of the known device is the insufficient quality of fluid filtration at a considerable distance from the perforation interval, in addition, it does not provide complex work at one descent of the suspension of the tubing.

The technical result is an increase in productivity, an increase in permeability of the bottomhole zone, an improvement in the quality of fluid filtration at a considerable distance from the perforation interval, ensuring that complex work is carried out with one descent of the suspension of the tubing.

The technical result is achieved by the fact that the device for impacting the bottom-hole zone of the wellbore and cleaning it contains a liner, a check valve, an implosion device and tubing, connected in series and connected by pipes, it is equipped with a hydraulic spool type decolimator installed between the check valve and implosion device, which is made with a check valve. The device can be equipped with a jet pump mounted on the tubing in such a way that its inlet openings are blocked by a through plug installed in the tubing, and the outlet nozzle is in communication with the space of the well, and the through plug is installed with the possibility of removing and installing a blind plug between the inlet in the tubing the jet pump and the check valve between the jet pump and the plunger. The device may also be provided with a packer installed between the hydraulic decollator and the implosion device. Hydraulic

the decolmator can be made with a spool device, including a cylinder with holes in the form of a stator and a rotating spool in the form of a rotor with tangential crises. The shank is filled with slots in the side walls and a hollowed end that forms a chamber in which the depth gauge is located.

In FIG. 1 shows a device for influencing the bottom-hole zone of a well formation and its cleaning. Figure 2 is a device that performs a deeper machining using chemical reagents. In FIG. 3, a device making a call and determining an inflow.

The device contains a shank 1 installed in series and connected by pipes, a check valve 2, an implosion device in the form of a cylinder 3 with a zero plunger 4 having holes 5 in the side walls, and tubing 6. The device is equipped with a hydraulic decolator 7 of the spool type, installed between the check valve 2 and the implosion device, and the hollow plunger 4 is made with a check valve 8, designed to communicate the cavity of the plunger 4 with the sub-plunger cavity when supplying fluid to the tubing 6. Devices o equipped with a jet pump 9 mounted on the tubing 6 so that its inlet 10 is blocked by a through plug 11 installed in the tubing, and the output nozzle 12 is in communication with the space of the well. The through plug 11 is installed with the possibility of its removal and installation in the tubing 6 of the blank plug 22. The device has a packer 13 installed between the decolator 7 and the implosion device. The hydraulic decollator 7 is made with a spool device including a cylinder 14 with holes in the form of a stator and a rotating spool 15 in the form of a rotor with tangential slots. The shank 1 is made with slots 16 in the side walls and a blanked end 17 having a chamber 18 in which a depth gauge 19 is placed.

The device operates as follows.

The complex device is lowered into the well in such a way (Fig. 1) that the liner 1 does not reach the bottom and the hydraulic decolmator 7 is at the level of the lower perforation interval. The shank 1 consists of tubing pipes, the lower part is sealed with an end face 17, inside there is a special chamber 18, where a deep electronic pressure gauge 19 is installed, fixing the entire technological process of stimulating and cleaning the formation. The liner filter 1 is a tubing pipe 1.5 m long with slots 16. A checkpoint ball valve 2 is located above, through which the bottom hole can be washed before the packer 13 is planted by backwashing the annulus through the liner 1,

spool 15 in tubing and prevent fluid backflow. When pumping the working fluid into the tubing for wave action through a hydraulic decolator 7, the check valve 2 closes, the pressure obtained is effectively used to act on the formation. A mechanical packer 13 is installed above the decolmator 7, designed to isolate the test interval from the rest of the wellbore. An implosion device is mounted above the packer 13, which consists of a cylinder 3, a hollow plunger 4 with radial holes 5 and a special bypass check valve 8. In the implosion device, the radial holes 5 of the movable plunger 4 are closed.

A stationary jet pump 9 is installed above the implosion device, which allows, through the installation of a special insert with an opening, to pump the working fluid through it, through the implosion device to the decolmator 7. Above the jet pump 9, there are tubing 6 with tight joints. They serve as a depression chamber during mechanical cleaning with an implosion device.

The device allows you to treat the bottom hole zone of the well by pumping the working fluid with a flushing unit through a tubing 6, a jet pump 9, an implosion device and through its special valve 8 to a hydraulic decolmator 7. The hydraulic decolmator 7 creates oscillations by periodically shutting off the flow of working fluid flowing through the spool 15. When pumping the working fluid into the tubing, rotating the spool periodically shut off the flow of working fluid, as a result of which hydraulic shocks are formed. They are accompanied by a sharp increase in the pressure of the fluid flowing out of the hole. In addition, the periodic flow of fluid through the slots of the spool 15 creates cyclic oscillations. Thereby, the perforation interval of the formation is cleared. Processing is carried out interval from bottom to top with the release of circulation through the annulus.

After an interval of exposure to the formation, if there is injectivity, the chemical composition (surfactants, acids, alkalis, solvents of paraffins and resins, and other reagents) is injected into the formation for effective cleaning of the PPP well.

For effective cleaning of the perforation interval after exposure to a hydraulic decolmator 1 and chemical injection, it is necessary to perform mechanical cleaning with the creation of a depression on the formation to remove reaction products of chemicals, solids and clay compositions. Without the use of an integrated layout, such work was required

raise and lower the implosion installation, the time of work increased (from 30 to 40 hours). Suspended solids and reaction products during this time precipitated and plastered back. The proposed arrangement (figure 1) allows after exposure to the formation promptly without tripping within 2-3 hours to perform mechanical cleaning of the formation from the bottom.

The technological process of mechanical cleaning of the reservoir and the bottom (figure 2) is as follows. It is necessary to swab 20 to empty the tubing 6 to the jet pump 9. The liquid level in the tubing 6 swab 20 is reduced to a certain depth, taking into account the necessary depressions on the formation. To clean the formation with an implosion device, the lineup is smoothly unloaded to the bottom, while the holes of the plunger 4 of the implosion device open, and as a result of the pressure drop, the well fluid containing mechanical impurities through the liner 1, check valve 2, enters the empty chamber from the tubing, entraining the reaction products of chemical treatment of the formation, mud, slots.

Depression on the formation in the implosion device, if necessary, is smoothly controlled by the output of the plunger 4, on which there are radial holes 5, the number of which gradually increases.

After mechanical cleaning of the formation and the bottom, backwashing with a flushing unit (from the annulus into the tubing) is performed in order to clean the pipe space from dirt and decolmation products. A distinctive feature of the device is that after exposure to the formation, mechanical cleaning, washing, the inflow is removed by the jet pump 9 (Fig. 3), previously from which the through plug 11 is removed by a mobile winch, the ball 21 is discarded and the blind is installed with the same winch plug 22, the packer 13 is planted with annulus sealing. The development of the jet pump 9 is carried out by creating alternating depressions with circulation through the tubing into the annulus until a stable flow of formation fluid is obtained. The change in pressure in the process of development and removal of the inflow is accompanied by recording using a deep electronic pressure gauge 19. The use of a complex device for impacting and cleaning the BHP of the well in order to increase its productivity allows to increase the flow rate of oil and water in reservoirs with different reservoir properties, significantly increase the injectivity of injection wells .

In other options. One of the options for using an integrated device is the layout: a filter shank, a check valve, a hydraulic decollator, a packer, an implosion device with a special valve. In this case, the swabbing method is used to call the inflow. With this scheme, it is possible to perform all operations on the impact on the reservoir, including reverse, direct flushing of the bottom of the well.

The device (Fig. 1) makes it possible to vibrate, intervalwise over the entire thickness of the formation, as a result of the impact on the formation of shock hydrodynamic waves generated by the decolmator, crushing particles are separated and separated from the skeleton of the rock, and under the influence of cyclic depressions created by the jet pump, the removal takes place suspend these particles from the bottom of the formation.

The device (figure 2) allows for deeper machining and cleaning using chemical reagents by creating alternating depressions on the bottom-hole zone of the well. Additionally, it allows flushing the bottom of the well with working fluid and transferring it to oil in order to reduce bottomhole pressure and determine well inflow.

The device (Fig.Z) allows for the export and determination of the inflow by creating sign-variable depressions using a jet pump.

For one suspension descent, a set of work is performed to treat and clean the reservoir with a decolmator and additional clean up the reservoir and face with an implosion device with the creation of repeated alternating depressions (depression-repression), mastering and calling up the inflow with a jet pump, recording pressure changes with an electronic pressure gauge. There is a gain in time and the quality of processing the bottom-hole zone of the formation increases. Excludes up to 5 hoisting operations.

The complex layout allows you to change the sequence of operations depending on the condition of the bottom-hole zone.

5L.

Claims (5)

1. A device for impacting the bottom-hole zone of a wellbore and cleaning it, including a liner, a check valve, an implosion device, and tubing, which are sequentially installed and connected by pipes, characterized in that it is equipped with a hydraulic spool type decolimator installed between the return valve and implosion device, which is made with a check valve.  2. The device according to claim 1, characterized in that it is equipped with a jet pump mounted on the tubing so that its inlet openings are blocked by a through plug installed in the tubing, and the outlet nozzle is in communication with the space of the well, and the through plug is installed with the possibility of it removing and installing a blind plug in the tubing between the inlet holes of the jet pump and the check valve between the jet pump and the plunger.  3. The device according to claim 1 or 2, characterized in that it is equipped with a packer installed between the hydraulic decollator and the implosion device.  4. The device according to any one of claims 1 to 3, characterized in that the hydraulic decollator is made with a spool device comprising a cylinder with holes in the form of a stator and a rotating spool in the form of a rotor with tangential slots. 5. The device according to any one of claims 1 to 4, characterized in that the shank is made with slots in the side walls and a blanked end, forming a chamber in which the depth gauge is placed.