RU2495226C1 - Device for segregation of formations or productive stratum of horizontal well into separate areas - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: device for segregation of formations or productive stratum of a horizontal well into separate areas includes interconnected corrugated longitudinal pipes with encapsulated components located at the areas with less circumscribed circle. The device also includes the upper and lower cylindrical areas. The lower area is equipped with shoe while the lower one is equipped with landing adapter. Encapsulated components are designed as closed components along tube perimetre. End sections of corrugated longitudinal pipes are welded and made as corrugated longitudinal gaged bells with circumscribed diameter bigger or equal to the circumscribed diameter of encapsulated components. Thickness of encapsulated components and distance between them can be adjusted without mutual overlapping in case of extension by rolling device after correction by inner pressure.

EFFECT: tightness of borehole annulus closure at significant pressure drop, required forcing down of encapsulated components, exclusion of accumulation of sealing material, improvement of reliability in segregation between wellbore walls and the device.

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Description

The proposal relates to the oil and gas industry, namely to the development and operation of oil reservoirs with zones of various permeability, including in the side and horizontal shafts using technology of simultaneous-separate operation and isolation of unauthorized water inflow zones.

Known packer (patent RU No. 2143053, IPC ЕВВ 33/12, publ. 12/20/1999), installed on a casing string in a well, including a housing with a central and inlet channels, a sealing element and a shell placed on the housing, forming with its outer wall a hydraulic chamber communicated by an inlet channel blocked by a non-return valve with the central channel of the housing, the shell being longitudinally corrugated and the sealing element located outside its middle part, with the end sections of the shell adjacent to the seal to the element, made with the diameters of the circles described around them, large in comparison with its middle part by an amount that prevents the friction of this element against the wall when the packer is lowered into the well, and their perimeter after straightening the corrugation of the shell from the inside by pressure is equal to the perimeter of the well at the packer installation site .

The disadvantages of the device are:

- the device does not provide sufficient reliability for closing the annulus of the well due to the fact that it is completely blocked only by the sealing element, in which it is necessary to constantly maintain the internal pressure, as a result, it does not provide the required tightness with a significant pressure drop, especially during long-term operation of the packer or installing it in a permeable section of a wellbore;

- a significant reduction in the cross section and, in addition, a significant increase in the cost of the device, since the packer contains a complex valve device;

- the device is not removable, and the failure of any of the technical nodes included in the packer leads to an emergency in the well.

The closest in technical essence and the achieved result is a method of separating the layers in the well with a profile cutter (patent RU No. 2083798, IPC ЕВВ 33/12, published July 10, 1997), including a device for separating the layers in the well, containing profile pipes connected by a thread, equipped with cylindrical end sections, which are externally upset in their middle part, equipped with closed rims and filled in depressions with a sealing compound.

The disadvantages of this device are:

- when the overlap expands with pressure from the inside, the convex parts of the corrugations by touching the well wall prevent the radial spread of sealant around the overlap, as a result of which it is squeezed out in longitudinal directions along the corrugation cavities, leaving depressurized sections, as a result of which tightness and reliability of formation separation are not ensured;

- there is no sealing in the interface between the top of the profile pipe and the borehole wall, since the pairing of the top of the profile pipe and the borehole wall remains without a sealant due to the fact that bitumen mastic does not propagate in the cross section either when the profile pipe is expanded with pressure seals or after expansion and tightly pressing the profile pipe with flare seals to the well walls, since the seals from bitumen mastic are deposited in the hollows of the profile pipe, therefore, Ovia for gidroproryva liquid;

- a reduced bore, since the rims prevent the pipe wall from being pressed against the well wall, and the seals deposited in the cavities prevent the pipe from expanding completely with hydraulic pressure and the roller flare, in addition, they create an obstacle when expanding.

The technical task of the proposed device is to ensure that the device overlays annular space with a significant pressure drop due to the additional pressing of the sealing elements with a flare, the use of any necessary length of the device, as well as the use of sealing elements from radially and longitudinally distributed materials and water-swellable rubbers.

The technical problem is solved by a device for separating formations or a productive formation of a well into separate zones, including connected longitudinally corrugated pipes with sealing elements located in areas with a smaller circumference, upper and lower cylindrical sections, the lower of which is equipped with a shoe, and the upper is a landing sub .

What is new is that the sealing elements are made closed along the perimeter of the pipe, and the end sections of the longitudinally-corrugated pipes connected by welding are made in the form of longitudinally-corrugated calibrated sockets with a described diameter greater than or equal to the described diameter of the sealing elements, while the thickness of the sealing elements and the distance between them is made with the possibility of their distribution without mutual overlap during expansion by a flare after straightening by internal pressure.

New is the fact that the upper and lower cylindrical sections are equipped with cylindrical nozzles installed between the cylindrical sections and longitudinally corrugated pipes and provided with sealing elements from water-oil-swelling rubber in the middle part, while the cylindrical pipes are provided with cylindrical pipes at the ends with a diameter larger or larger equal to the outer diameter of the sealing element before it swells.

Also new is the fact that to increase the areas of separation, the device is equipped with additional longitudinally-corrugated pipes placed between pipes with sealing elements and having longitudinally-corrugated sockets of the same shape and size as longitudinally-corrugated pipes with sealing elements.

In Fig.1 a device with an axial section; figure 2 is a section aa; figure 3 is a section bB; figure 4 - device in the trunk of a horizontal well.

A device for separating formations or a productive formation of a horizontal well into separate zones (hereinafter the device) includes connected longitudinally corrugated pipes 1 (see FIG. 1) with sealing elements 2 located in areas with a smaller circumference described 3. The upper cylindrical section 4 is provided with a landing sub 5, and the lower cylindrical section 6 is provided with a shoe 7. Sealing elements 2 are made closed around the perimeter of the pipe 1 (see figure 2). The end sections 8 (see Fig. 1) of longitudinally corrugated pipes 1 connected by welding 9 are made in the form of longitudinally calibrated bell-shaped sockets 10 with a described diameter greater than or equal to the described diameter of the sealing elements 2. The thickness of the sealing elements 2 and the distance between them are made with the possibility of their distribution without mutual overlap during expansion by a flare mill (not shown in Fig.) after straightening by internal pressure.

For additional sealing, the upper cylindrical 4 and lower cylindrical sections 6 can be equipped with cylindrical pipes 11 installed between the cylindrical section 4 and the landing sub 5, the cylindrical section 6 and the shoe 7 and provided with sealing elements 13 from oil-and-water swelling rubber provided in the middle part 12. In this case, the cylindrical pipes 11 are provided with cylindrical pipes 14 at the ends with a diameter greater than or equal to the outer diameter of the sealing element 13 before it swells.

To increase the separation zones, the device can be equipped with additional longitudinally-corrugated pipes 15, located between the pipes 1 with sealing elements 2, and having longitudinally-corrugated sockets 16 of the same shape and size as the longitudinally-corrugated pipes 1 with sealing elements 2.

An example of the use of the device.

The production string 17 (see figure 4) is lowered and cemented with the entrance to the roof of the reservoir 18. The opening of the reservoir 18 is made according to one of the existing technologies. Geophysical surveys are carried out and zones of high 19 and low 20 permeability are distinguished. The entire horizontal trunk of the tale 21 is divided into intervals with high 19 and low 20 permeability by installing the device 22, usually 16 m long with sealing elements 2 (see figure 1), tightly rolling them to the walls of the well 21. The device is installed as follows. On the pipe string (not shown in FIG.), The complete assembly is lowered into the wellbore 21 (see FIG. 4), then the longitudinally corrugated pipes 1 (see FIG. 1) are expanded with hydraulic pressure. Due to the fact that the end sections 8 of the longitudinally corrugated pipes 1 connected by welding 9 are made in the form of longitudinally corrugated calibrated sockets 10 with a described diameter greater than or equal to the described diameter of the sealing elements 2, when the device is launched, the sealing elements 2 are not damaged on the well walls . By increasing the pressure and tension of the pipe string, the pipe string with the sub 23 is disconnected by rolling 24, and the pipe string with the sub 23 is removed from the well. Further, on the pipe string, the flare is lowered to the end of the device. By rotating the flare tool with a downhole motor or rotor (not shown in Fig.), The cylindrical sections 4, 6, cylindrical pipes 11 are expanded and the sealing elements 2 and 13 are pressed. Due to the thickness of the sealing elements 2 and the distance between them, they can be distributed without mutual overlapping during expansion by a flare, when installing the device in the wellbore a little larger than the nominal one, the necessary pressing of the sealing elements 2 is provided, and when installing In the nominal diameter of the well or slightly less than the nominal, excessive accumulation of sealing material is eliminated. Then carry out the descent of the equipment, including filters 25 (see figure 4) with locking devices, and packers 26 installed inside the proposed device 22, thereby hermetically divide the reservoir 18 into separate zones 19, 20.

Due to the fact that the upper 4 (see Fig. 1) and lower 6 cylindrical sections are provided with cylindrical pipes 11 installed between the cylindrical section 4 and the landing sub 5, the cylindrical section 6 and the shoe 7 and provided with sealing elements 13 of oil-and-water swelling rubber provided in the middle part, while the cylindrical pipes 11 are equipped with cylindrical sockets 14 at the ends with a diameter greater than or equal to the outer diameter of the sealing element before it swells, the reliability of separation between the walls is increased E hole 21 (see FIG. 4) and the device 22.

To increase the zone of separation or isolation of the zones of unauthorized water inflow, the device can be installed of any length due to its equipping with additional longitudinally-corrugated pipes 17 (see Fig. 1) placed between pipes 1 with sealing elements 2 and having longitudinally-corrugated pipes 18 the same shape and dimensions as longitudinally corrugated pipes 1 with sealing elements 2.

The device ensures tightness of the annular space overlap with a significant pressure drop due to the additional pressing of the sealing elements by the flare, the use of any necessary length of the device, as well as the use of sealing elements from distributed materials and water-oil-swelling rubbers.

Claims (3)

1. A device for separating formations or a productive formation of a horizontal well into separate zones, including connected longitudinally corrugated pipes with sealing elements located in areas with a smaller circumference, upper and lower cylindrical sections, the lower of which is equipped with a shoe, and the upper is a landing sub characterized in that the sealing elements are closed around the perimeter of the pipe, and the end sections of the longitudinally corrugated pipes connected by welding are made in the form of longitudinally-corrugated calibrated sockets described diameter greater than or equal to the diameter of the sealing elements described, the thickness of the sealing elements and the distance between them adapted to their distribution without mutual overlap during expansion razvaltsevatelem after correcting the internal pressure. 2. The device according to claim 1, characterized in that the upper and lower cylindrical sections are equipped with cylindrical nozzles installed between the cylindrical sections and longitudinally corrugated pipes and provided with sealing elements from water-oil-swellable rubber in the middle part, while the cylindrical pipes are provided with cylindrical sockets at the ends with a diameter greater than or equal to the outer diameter of the sealing element before it swells. 3. The device according to claims 1 and 2, characterized in that to increase the areas of separation, the device is equipped with additional longitudinally corrugated pipes placed between pipes with sealing elements and having longitudinally corrugated sockets of the same shape and size as the longitudinally corrugated pipes with sealing elements.

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