SU1680969A1 - Device for stripping, developing and exploring rock bed - Google Patents

Abstract

The invention relates to the oil and gas industry. The goal is to expand the functionality of the device due to the possibility of conducting multiple treatments of the formation. The device comprises a body 2 connected to a tubing (tubing) string 1 with an axial channel 3, a sleeve 4 with an injection hole 5, a lock b and a spring 7. The jet pump 8 contains a working chamber 9 connected to each other with a working hole 10, confused a chamber 11 with an opening 12 and a diffuser 13. The device also contains a packer 14 and a nozzle (P) 15 with a check valve (K) 16 The annular channel 17 has P 15 In channel 17, K 16 is installed. In the lower part of P 15, receiving channels 18 are made. A hydraulic sand punch puncher 19 is installed under the П 15. Puncher 19 has an axial hole 20 and landing C che

Description

FIELD OF THE INVENTION The invention relates to the oil and gas industry, in particular, to devices for opening, development and examination of a formation.

The purpose of the invention is to expand the functionality of the device due to the possibility of conducting multiple treatments of the formation.

FIG. 1 shows the device in the process of opening the reservoir by hydro-sandblasting perforation; in fig. 2 - at the time of well completion.

The device is lowered on the pump-compressor pipes 1 and includes a housing 2 with an axial channel 3, a sleeve 4 with an injection hole 5, a clamp 6 and a spring 7 installed in the central axial channel. The jet pump 8 contains interconnected working chamber 9, having a working opening 10, confusing chamber 11, having an injection opening 12 and a diffuser 13. The device also includes a packer 14 and a branch pipe 15 with a check valve 16. A check valve 16 is installed in the annular channel 17 of the nozzle 15. In the lower part of the nozzle 15, receiving channels 18 are made. Under the nozzle 15, there is a hydro-sandblasting perforator 19, which has an axial bore 20 and a seating saddle 21. In addition, the device includes a depth gauge 22, which is lowered into the scraper wire 23 complete with valve 24 and the locking element 25.

The device is lowered into the well on pipes 1 in configuration with a packer 14 and a hydro-jet perforator 19. If necessary, below the packer 14 can be installed in the required quantity. The locking element 25 is fastened with scraper wire 23 to the lower tip of the depth tool 22 and is mounted on the wellhead in a special device (not shown) allowing the equipment to be lowered and lifted into the well in the presence of pressure in the pipe space.

The injection line of the surface pumping unit is tied up with the tube and annular space of the well with the possibility of switching by means of

gate valves.

Depth device 22 with a locking element 25 using a ground winch down on the wire 23 in the tubing before landing element 25 on the landing seat 21 of the perforator 19.

By pumping the abrasive fluid by a surface pump, it is supplied to a hydro-sandblasting perforator 19, where it is realized in the form of jets with sufficient kinetic energy capable of destroying the casing, a cement stone. Thus, the productive formation is opened by means of a sandblasting perforation.

Downhole pressure during hydro-sandblasting perforation is fixed by a deep device 22. After lifting the deep device 22 and decoding the chart blank, the depth of the perforation channels is determined according to a certain pressure drop on the nozzle of the perforator 19. The opening is performed according to a standard method. After each position, the pipes are lifted or expanded in the well only after the device 22 is lifted with the locking element 25 to the surface. After opening the jetting machine, the perforator is installed in the middle part of the reservoir. Then

the operation is performed to separate the reservoir and annulus using a packer. In the annulus, the necessary pressure is created to check the tightness of the packer. The tightness of a packer is judged by the absence of pressure and the exit of fluid into the tube space. The valve 16 is closed, and the holes 10, and 12 jet pump are blocked by a movable sleeve 4.

Next, go to the development of the well. To do this, a valve 24 is installed on the upper part of the depth gauge 22. The depth gauge 22 complete with the flap 24 is lowered onto the wire 23 before the flap 24 is seated on the moving sleeve 4.

When creating pressure in the tubing by a ground pump, sleeve 4 together with valve 24 and depth gauge 22 move downward, compressing spring 7. Displacement sleeve 4 is limited by retainer 6. At this, lateral injection holes 5 and 12 on sleeve 4 and at the inlet to the confuser chamber 11 are combined, and the working side opening 10 of the working chamber 9 of the jet pump 8 is opened. The working fluid is pumped through the tubing through the jet pump 8 and provides fluid from the reservoir and it enters from the sub-packer space through the holes 5 and 12 into the confusing chamber 11. In the confusing chamber 11, the working and formation fluid are mixed and through the diffuser 13 are ejected into the annulus, and from there come to the surface.

Directly in the process of development, the depth device 22, planted on the movable sleeve 4, with the help of the valve 24 fixes the change in the bottomhole pressure on the chart form.

For additional opening of a sandblasting perforation in the middle part of the reservoir, a depth gauge device 22 with a ball valve

24 lift to the surface. The locking element 25 is connected to the lower tip of the device 22, to the valve 24 it is disconnected. Then the depth device 22 with the element 25 is lowered by means of a ground winch into the pipe before the element is seated.

25 to the saddle 21 of the perforator 19. The length of the wire connecting the tip of the device 22 to the element 25 is determined so that the device 22 after descending is above the movable sleeve 4. The axial channel 3 becomes open for the passage of abrasive liquid intended to be opened reservoir. Sealing the main assemblies 9, 11 and 13 of the jet pump 8 with a movable sleeve 4 eliminates

possibility of washing out of parts at the opening and treatment of the well.

The sleeve 4 returns to its original position, the holes 10 and 12 overlap.

The opening process is carried out according to the standard procedure, but without removing the packer 14. The waste liquid is received by the receiving channels 18, passes through the cavity 17 and flows through the valve 16 into the annulus and rises to the surface.

When conducting a salt-acid treatment of hydraulic fracturing, the depth device 22 with a locking element

25 rises to the surface.

Before injecting acidic solutions or fracturing fluids into the reservoir, the check valve 16 is closed by creating additional pressure in the annular space and is maintained until the end of the formation treatment process. After the formation treatment, the well completion process is repeated by lowering the depth tool 22 with the valve 24 to the movable sleeve 4. The device is removed from the well after unpacking.

Claims (1)

The invention The device for opening, development and formation research, comprising a housing connected to a pump-compressor column, a jet pump installed on it, a spring-loaded bushing with an injection hole movably accommodated in the housing, a packer and a deep well with a flexible cable, characterized in that In order to expand the functionality of the device due to the possibility of conducting multiple treatments of the formation, it is equipped with a nozzle, a perforator, and a locking element, which is connected by a flexible cable with a depth gauge device, the nozzle is installed under the body and rigidly connected with it, and the perforator is installed under the nozzle and has an axial bore in the bottom part and a mounting seat to accommodate the locking element on it, while the packer is installed on the nozzle, which is made with an annular channel and reverse a valve for communicating cavities above and below the packer.