WO2007126331A1

WO2007126331A1 - Method for operating a jet device for developing and operating oil- and-gas wells

Info

Publication number: WO2007126331A1
Application number: PCT/RU2007/000100
Authority: WO
Inventors: Zinoviy Dmitrievich Khomynets
Original assignee: Zinoviy Dmitrievich Khomynets
Priority date: 2006-05-02
Filing date: 2007-03-02
Publication date: 2007-11-08
Also published as: RU2307959C1

Abstract

The invention relates to jet devices used for developing and operating oil-and-gas wells. The invention is characterised in that it makes it possible to use different operation modes of the device for developing, operating, testing and repairing by using a jet pump comprising a spring-loaded bearing bush which is provided with bypass openings and a mounting seat and is displaced by an active medium acting produced on the flange thereof. An insert with the jet pump and a sealing unit thorough which a logging cable is passed are regularly mounted on the mounting seat. A perforator and a geophysical instrument are connected to the cable, wherein the bypass windows of a body are overlapped by the bearing bush or by displacing said bush downwardly until bumping in such a way that the bypass openings of the bearing bush are brought in coincidence with the body bypass widows. The inventive method consists in perforating a productive formation by means of the above actions at depression conditions, in subsequently draining the well, in pumping an acid solution of a hydraulic fracturing fluid into the well and in putting the well into natural flow production.

Description

METHOD OF OPERATION OF THE JET INSTALLATION WHEN DEVELOPING AND OPERATING OIL AND GAS WELLS

Field of application The invention relates to the field of pumping technology, mainly to methods of operating an inkjet unit during the development and operation of oil and gas wells.

BACKGROUND OF THE INVENTION A well-known method for operating a downhole jet installation is that the active medium is fed through a pipe string to the nozzle of a jet pump, which, flowing out of it, entrains the pumped liquid medium into the mixing chamber, from the latter a mixture of media is sent to a diffuser, where the kinematic energy of the flow is partially converted into potential energy, and from the diffuser through the backwaters. pipe columns a mixture of media is supplied to the consumer, while the physical parameters of the pumped-out medium and the reservoir (pressure, density, gas saturation, solid phase content, temperature, flow rate, flow rate, etc.) are measured at the pump inlet using a device including emitters and receivers -converters of physical fields, and transmit via cable to the surface, moreover, by changing the flow rate and pressure of the active medium, carry out the necessary measurements and select the optimal operating mode of the jet pump, and, if necessary, produce treatment of the pumped-out medium and the reservoir (heating, ultrasonic crushing of the mud, etc.) using emitters of physical fields (RU 2059891 Cl).

The known method of operation of the jet installation allows for pumping from the well of various produced environments, for example, oil with simultaneous processing and research of the produced medium and the near-wellbore zone of the formation, however, in this installation, which implements the known method, the working medium is supplied to the nozzle of the jet apparatus through a pipe string, which in some cases narrows its use.

The closest to the invention in technical essence and the achieved result is a method of operating a well jet installation, which consists in lowering a pipe string with a packer and a casing into the well and placing the packer above the reservoir, bringing the packer into working position, separating the borehole surrounding the pipe string , insert the liner with the jet pump and the sealing assembly into the pipe string and the instruments and equipment placed below the liner on the cable, fix the liner with the jet by means of a locking mechanism, an active medium is pumped into the annular space surrounding the pipe string, which is formed at the outlet of the nozzle into a stable jet, entraining its environment into the jet pump, which causes a decrease in pressure, first in the supply channel of the pumped medium, and then in the under-packer space wells, creating a depression on the reservoir, a mixture of media due to the energy of the working medium through the pipe string comes from the well to the surface, and during pumping out of the reservoir using Equipment and devices installed on the cable monitor the parameters of the pumped-out formation medium, as well as the impact on the reservoir by physical fields (US 2004/0071557 Al).

This method of operation allows various technological operations in the well below the installation level jet pump, including by reducing the differential pressure above and below the sealing unit. However, this method does not allow to fully use the capabilities of the well installation that implements it, which is associated with the limited structural capabilities of the well jet installation when conducting studies of productive formations in the well, as well as when injecting acid solutions and fracturing fluids into the formation.

SUMMARY OF THE INVENTION The object to which the present invention is directed is to expand the technological capabilities of the method of operating a downhole jet unit during the development, operation and other work in the well.

As a result, the terms of well development are reduced, and the reliability of well operation is increased by increasing the efficiency of work to intensify the influx from the reservoir.

This problem is solved, and the technical result is achieved due to the fact that the method of operation of a downhole jet installation is. the fact that a jet pump housing, a packer with an axial channel and a liner with an inlet funnel are sequentially attached from top to bottom to the pipe string; moreover, bypass windows are made in the jet pump housing and a spring-loaded support sleeve with bypass holes and a seat is installed, while the bypass windows of the housing are closed supporting sleeve, which under the action of the spring is in its upper position, after which the assembly of the pipe string is lowered into the well, while the inlet funnel is installed above the roof of the reservoir, then the packer is unpacked and the liner with the jet pump is lowered into the well in the well cable, and the wire log is preliminarily passed through the axial channel of the sealing unit and the passage channel of the insert, the sealing unit is installed on the seat in the passage channel of the insert, and to the lower end of the logging cable a perforator is connected to the cable, then a liner with a jet pump and a sealing assembly is installed on the seat of the support sleeve, and the perforator is placed using a logging cable in the well opposite the reservoir, after which the annular space of the well and the casing bypass windows feed an active medium, for example, natural gas or liquid nitrogen, into the gap between the casing and the support sleeve, and thus acting on the flange of the support sleeve, move the spring-loaded support sleeve down to the stop, while aligning the bypass holes of the support sleeve with the bypass windows of the housing, and through the bypass holes feed the active medium into the active feed channel the medium and further into the nozzle of the jet pump with the formation of a stable jet at the outlet of the nozzle, which, flowing out of the nozzle, causes a decrease in pressure, first in the supply channel of the pumped medium, and then in the inner cavity of the pipe string below the jet pump body, creating a depression in the well formation, in depression mode by blowing up the perforator, perforation of the productive formation is carried out with subsequent drainage of the well, then the flow of active medium into the nozzle of the jet pump is stopped and thereby the drainage is stopped e reservoir and move the supporting sleeve with a top insert under the action of the spring the position and, thus, isolate the inner cavity of the pipe string from the annulus, after which, using a wireline cable, the liner with the jet pump and the remains of the perforator are removed to the surface and then, through the pipe string and the body of the jet pump, an acid solution or hydraulic fracturing fluid is pumped into the reservoir, the liner with the jet pump is lowered into the well on the wireline cable, while the wireline cable is preliminarily passed through the axial channel of the sealing unit, and also through the passage channel of the shell, the sealing unit is installed on the seat in the passage channel, the geophysical device is connected to the lower end of the logging cable, then the liner with the jet pump and the sealing unit is installed on the seat of the support sleeve, and the geophysical device is lowered to the bottom of the well, while recording the physical fields of the mountain rocks from the inlet funnel to the bottom of the well, then through the surrounding pipe string the annular space of the well and the bypass windows of the body feed the active medium into the gap between the body ohm and the support sleeve and, thus, acting on the flange of the support sleeve, move the spring-loaded support sleeve down to the stop, aligning the bypass holes of the sleeve with the bypass windows of the housing, and through the bypass holes supply the active medium to the supply channel of the active medium and then to the nozzle jet pump with the formation of a stable jet at the outlet of the nozzle, which flows out of the nozzle, causing a decrease in pressure, first in the supply channel of the pumped medium, and then in the inner cavity of the pipe string below the jet body pump creating a depression in the wellbore at a productive formation and using active medium b the reaction products or hydraulic fracturing fluid is pumped out of the formation, and after the well is drained while the jet pump is running, the geophysical device is raised to the inlet funnel using a wireline cable, recording the physical parameters of rocks along the wellbore using the latter, and then the formation drainage is stopped and thereby they move the support sleeve with the liner to the upper position under the action of the spring and isolate the internal cavity of the pipe string from the annulus, after which using logging second cable to the surface liner are removed with a jet pump and a geophysical instrument, and run into the well operation method fountain.

This problem is solved, and the technical result is also achieved due to the fact that when the well’s flow rate drops due to the accumulation of liquid, for example, water or condensate, in the bottom of the well, the liner with the jet pump and an autonomous pressure gauge mounted on it is dropped, and the liner is installed at the seat of the spring-loaded support sleeve, an active gaseous medium is supplied through the annulus and, acting on the flange of the support sleeve, the support sleeve is moved to its lower position and thus, bypass windows and bypass holes are combined and through the latter they supply an active gaseous medium to the jet pump nozzle and drain the well, while removing fluid from its barrel, then the active medium is stopped and thereby the support sleeve with the liner is moved to the upper position, and then using a fishing tool lowered on a wireline or wire, remove the liner with a jet pump and a stand-alone pressure gauge to the surface and start the well into operation in a fountain way.

An analysis of the operation method of the downhole jet installation showed that the intensity of work on the development and operation of the well can be increased by expanding the range of work and intensifying the inflow from the reservoir, which can be carried out in the well without raising the downhole jet installation to the surface. The execution of the housing of a downhole jet installation with a support sleeve spring-loaded relative to the housing allows, during a series of technological operations, for example, when injecting chemicals or hydraulic fracturing fluid into the reservoir, to close the bypass windows and thus disconnect the internal cavity of the housing and pipe string and the surrounding housing and pipe string cumbersome space. If necessary, the liner with the jet pump can be removed from the support sleeve without lifting the pipe string to the surface and into the well through the pipe string and through the support sleeve in the housing, liquid medium can be supplied to flush the bottom of the well or install a cement bridge. After carrying out the necessary technological operations, for example, those described above, the liner with a jet pump can be returned to the seat in the support sleeve to continue work on the development or repair of wells, as well as to remove reaction products or fracturing fluid. Installation of various inserts with the jet pump is possible. As a result, during the development and operation of a well using a downhole jet installation, an opportunity conduct research under various operating conditions, both before processing the reservoir, and after such processing.

Thus, the achievement of the objective of the invention has been achieved - the expansion of technological capabilities for the development and operation of the well using a downhole jet installation, as well as during other work in the well using a downhole jet installation.

Brief Description of the Drawings

Figure 1 shows a longitudinal section of a downhole jet unit without a liner.

Figure 2 presents a longitudinal section of a downhole jet unit with a liner installed and a wireline cable with a perforator passed through the liner.

On Fig.3 shows a longitudinal section of a downhole jet unit with an installed liner and attached to it by an autonomous pressure gauge.

The best embodiment of the invention

A downhole jet installation for implementing the proposed method of operation comprises a housing 1 in which bypass windows 2 are made and a liner 3 with an inkjet pump 4 is installed.

In addition, in the insert 3 there is a channel 5 for supplying an active medium to the nozzle 6 of the jet pump 4, a channel 7 for supplying a pumped medium to the jet pump 4 and an output channel 8. The channel 7 for supplying a pumped medium is in communication with the passage channel 9 made in the insert 3. Above the channel 7, the pumped medium is supplied in the passage channel 9, a seat 10 is made on which a sealing unit 11 is installed in the passage channel 9. The axial channel 12 is made in the latter with the possibility of passage through him and the passage channel 9 of the logging cable 13 for attaching to it located below the liner 3 of the punch 14 or, if necessary, other instruments and equipment with the ability to move them along the wellbore with a working or idle jet pump 4. The output channel 8 is in communication with the internal cavity 15 of the housing 1 above the jet pump 4. In the housing 1, an axially movable support sleeve 17 is mounted, spring-loaded relative to the housing 1 by means of a spring 18. The seat 19 is made in the support sleeve 17 flax liner 3 with a jet pump 4, and in the sleeve 17 are made bypass holes 20, through which the bypass windows 2 of the housing 1 in the extreme lower position of the support sleeve 17 channel 5 for supplying the active medium is in communication with the annular space 21 surrounding the housing 1. the supporting sleeve 17 under the bypass holes 20 has a larger diameter than its upper part 22, and is made in the form of a flange 23. Between the inner surface of the housing 1 and the outer surface of the supporting sleeve 17 is a gap 24. The flange 23 of the supporting sleeve 17 is placed in the housing 1 under the bypass windows 2 in the annular boring 25. The annular boring 25 is made with the formation in the housing 1 of the upper and lower ends 26. The movement of the support sleeve 17 down is limited by the lower end 26, and its upward movement is limited by the upper end 26.

The liner 3 can be made with a standalone pressure gauge 27 attached to it, and a depression insert 28 with a profiled head 29 made on it can be installed on the seat 10 in the passage channel 9 interacting with a fishing tool to remove the liner 3 with the jet pump 4 from the well.

The housing 1 is attached to the pipe string 30. Below the housing 1 to the pipe string 30 are attached a packer 31 with an axial channel 32 and a shank 33 with an inlet funnel 34.

The proposed method of operation of a downhole jet installation is as follows.

The casing 1 of the jet pump 4, the packer 31 with the axial channel 32 and the liner 33 with the inlet funnel 34 are sequentially attached from the top to the bottom of the pipe string 30. The assembly of the pipe string 30 is lowered into the well, while the inlet funnel 34 is installed over the roof of the reservoir 35. Then unpacking the packer 31 and on the wireline 13 lower into the well liner 3 with a jet pump 4, and previously the wireline 13 is passed through the axial channel 12 of the sealing unit 11 and the passage channel 9 of the liner 3. The sealing unit 11 is installed t on the seat 10 in the passage channel 9 of the insert 3, and a perforator 14 is connected to the lower end of the wireline 13. Next, insert the insert 3 with the jet pump 4 and the sealing assembly 11 on the seat 19 of the support sleeve 17, and the perforator 14 is placed using the logging cable 13 in the well opposite the reservoir 35. After that, through the surrounding pipe string 30, the well bore 21 and the bypass ports 2 of the housing 1 feed an active medium, for example, natural gas or liquid nitrogen, into the gap 24 between the housing 1 and the support second sleeve 17 and thus, acting on the flange 23 of the supporting sleeve 17 moves the spring-loaded supporting sleeve 17 all the way down, thus combining the bypass openings 20 of the support bushings 17 with bypass windows 2 of the housing 1, and through the bypass holes 20, the active medium is fed into the channel 5 for supplying the active medium and then to the nozzle 6 of the jet pump 4 with the formation of a stable jet at the outlet of the nozzle 6, which, flowing out of the nozzle b, causes a decrease pressure first in the channel 7 for supplying the pumped-out medium, and then in the inner cavity of the pipe string 30 below the housing 1 of the jet pump 4, creating a depression in the well on the reservoir 35. In the depression mode, the reservoir is perforated by blasting the perforator 14 for 35 s subsequent drainage of the well. Then, the flow of the active medium into the nozzle 6 of the jet pump is stopped and, thereby, the drainage of the formation 35 is stopped and the support sleeve 17 with the liner 3 is moved to the upper position under the action of the spring 18 and thus isolate the inner cavity of the pipe string 30 from the annular space 21. After that, using the wireline 13 is removed to the surface of the liner 3 with the jet pump 4 and the remains of the perforator 14 and then through the pipe string 30 and the housing 1 of the jet pump 4 is pumped into the reservoir 35 acid solution or hydraulic fracturing va. Then, the liner 3 with the jet pump 4 is lowered into the well on the logging cable 13, while the logging cable 13 is previously passed through the axial channel 12 of the sealing unit 11, as well as through the passage channel 9 of the liner. The sealing assembly 11 is mounted on the seat 10 in the passage channel 9. A geophysical instrument 14 is connected to the lower end of the logging cable 14. Next, a liner 3 with the jet pump 4 and the sealing assembly 11 is mounted on the seating 19 of the support sleeve 17, and the geophysical instrument 14 is lowered to bottom hole, recording physical mountain fields rocks from the input funnel 34 to the bottom of the well. Then, through the surrounding pipe string 30, the annular space 21 of the well and the bypass windows 2 of the housing 1 feed the active medium into the gap 24 between the housing 1 and the support sleeve 17 and thus, acting on the flange 23 of the support sleeve 17, move the spring-loaded support sleeve 17 down to the stop, while combining the bypass holes 20 of the sleeve 17 with the bypass windows 2 of the housing 1, and through the bypass holes 20, the active medium is fed into the channel 5 for supplying the active medium and then into the nozzle 6 of the jet pump 4 with the formation of a stable jet at the outlet of the nozzle 6 , which, flowing out of the nozzle 6, causes a decrease in pressure, first in the channel 7 for supplying the pumped-out medium, and then in the inner cavity of the pipe string 30 below the housing 1 of the jet pump 4, creating a depression in the well on the reservoir 35. The active medium is pumped out of the reservoir 35 reaction products or hydraulic fracturing fluid, and after the well is drained while the jet pump 4 is operating, the geophysical instrument 14 is raised using the logging cable 13 to the inlet funnel 34, recording the physical parameters of the rocks using the latter along the wellbore. Next, the drainage of the formation 35 is stopped and thereby the supporting sleeve 17 with the liner 3 is moved to the upper position under the action of the spring 18 and the inner cavity of the pipe string 30 is isolated from the annular space 21. After that, using the logging cable 13, the liner 3 with the jet pump is removed to the surface 4 and the geophysical instrument 14, and then start the well into operation in a fountain way.

When the flow rate of a well falls due to the accumulation of liquid, for example, water or condensate, in the well bottom the cavity of the pipe string 30 discard the liner 3 with the jet pump 4 and an autonomous pressure gauge 27 mounted on it. Install the liner 3 on the seat 19 of the spring-loaded support sleeve 17, supply an active gaseous medium through the annulus and, acting on the flange 23 of the support sleeve 17, move the support the sleeve 17 is in its lower position and thus the bypass windows 2 and the bypass holes 20 are combined and through the latter, an active gaseous medium is supplied to the nozzle 6 of the jet pump 4 and the well is drained, while removing it from it trunk fluid. Then, the flow of the active medium is stopped and thereby the supporting sleeve 17 with the insert 3 is moved to the upper position under the action of the spring 18. Using a fishing tool, lowered on a wireline 13 or wire, remove the liner 3 with a jet pump 4 and a stand-alone pressure gauge 27 to the surface and start the well into operation in a fountain way.

Industrial applicability

The present invention can be used in the oil and gas industry in testing, developing and operating oil and gas condensate wells, as well as in their overhaul.

Claims

Claim

1. The method of operation of a downhole jet installation, which consists in the fact that a jet pump body, a packer with an axial channel and a liner with an inlet funnel are sequentially attached from top to bottom of the pipe string, moreover, bypass windows are made in the jet pump body and a spring loaded support sleeve with bypass holes is installed and a seat, while the bypass windows of the casing are blocked by a support sleeve, which, under the action of the spring, is in its upper position, after which the assembly of the pipe string is lowered into the well, In this case, the inlet funnel is installed over the top of the reservoir, then the packer is unpacked and the liner with the jet pump is lowered into the well in the well cable, and the log wire is preliminarily passed through the axial channel of the sealing unit and the passage channel of the insert, the sealing unit is installed on the seat in the passage channel of the insert, and a perforator is connected to the lower end of the logging cable, then the insert with the jet pump and sealing assembly is installed on the seats the support sleeve, and the perforator is placed using the logging cable in the borehole opposite the reservoir, after which the annular space of the borehole and the bypass windows of the body supply active medium, for example, natural gas or liquid nitrogen, into the gap between the body and the support sleeve through the surrounding pipe string acting on the flange of the support sleeve, move the spring-loaded support sleeve down to the stop, while combining the bypass openings of the support sleeve with the bypass windows of the casing, and through the bypass openings, the active medium is fed into the channel for supplying the active medium and then to the nozzle of the jet pump with the formation of a stable jet at the outlet of the nozzle, which, flowing out of the nozzle, causes a pressure decrease first in the channel for supplying the pumped-out medium, and then in the inner cavity of the pipe string below the jet pump body, creating a depression in the well on the reservoir, in the depression mode, a perforator is blown by blasting the perforator the formation of the productive formation with subsequent drainage of the well, then stop the flow of the active medium into the nozzle of the jet pump and thereby stop the drainage of the formation and move the support sleeve with the liner to the upper position under the action of the spring and thus isolate the inner cavity of the pipe string from the annular space, after which using a logging cable, the liner with the jet pump and the remains of the perforator are removed to the surface and then pumped through the pipe string and the housing of the jet pump into the production area t of acid solution or hydraulic fracturing fluid, a liner with a jet pump is lowered into the well on a logging cable, while the logging cable is preliminarily passed through the axial channel of the sealing unit, and also through the liner passage channel, the sealing unit is installed on the seat in the passage channel, to the lower end the logging cable is connected to a geophysical device, then it is installed, the liner with a jet pump and a sealing assembly on the seat of the support sleeve, and the geophysical device is lowered to the bottom of the well, while recording physical fields of rocks from the inlet funnel to the bottom wells, then through the annular space of the pipes the annular space of the well and the casing bypass windows feed the active medium into the gap between the casing and the support sleeve, and thus, acting on the flange of the support sleeve, move the spring-loaded support sleeve down to the stop, while aligning the bypass openings of the sleeve with the bypass the case windows, and through the bypass openings, the active medium is fed into the channel for supplying the active medium and then to the nozzle of the jet pump with the formation of a stable jet at the outlet of the nozzle, which, has expired I, from the nozzle, causes a decrease in pressure, first in the channel for supplying the pumped-out medium, and then in the inner cavity of the pipe string below the jet pump housing, creating a depression in the well on the reservoir, and using the active medium, the reaction products or hydraulic fracturing are pumped out of the reservoir, and then well drainage when a jet pump is running, using a logging cable, the geophysical instrument is raised to the inlet funnel, while recording the physical parameters of rocks along the wellbore using the latter s, then stop the formation drainage and thereby move the support sleeve with the liner to the upper position under the action of the spring and isolate the inner cavity of the pipe string from the annulus, after which the liner with the jet pump and the geophysical instrument are removed to the surface with a wire cable, and the well is launched to work in a fountain way.

2. The method according to claim 1, characterized in that when the well production rate drops due to accumulation of liquid, for example, water or condensate in the bottom of the well, into the inner cavity of the pipe string, the liner with the jet pump and mounted thereon using an independent pressure gauge, install the liner on the seat of the spring-loaded support sleeve, supply an active gaseous medium through the annulus and, acting on the flange of the support sleeve, move the support sleeve to its lower position and thus bypass windows and bypass holes are combined and through the latter are fed to the jet nozzle pump the active gaseous medium and drain the well, while removing fluid from its wellbore, then stop the flow of the active medium and thereby move the op the ary sleeve with the liner in the upper position, and then using the fishing tool lowered on a wireline or wire, remove the liner with a jet pump and a stand-alone pressure gauge to the surface and start the well into operation in a fountain way.