RU2320899C1 - Oil well jet plant - Google Patents

Abstract

FIELD: oil producing industry.

SUBSTANCE: invention relates to jet plant for testing and completion of wells. Housing of jet pump accommodates nozzle and mixing chamber with diffuser. Output of diffuser is pointed to annulus, and nozzle of jet pump, to inner space of channel to supply working medium to jet pump. Channel to supply out medium in jet pump housing is connected to inner spaces of tubing string through ports. Check valve is installed in pumped out medium supply channel at input. Working medium flow selector is installed in housing of jet pump, being made in form of movable spring-loaded support bushing. Bypass holes and seating place for mounting sealing unit or functional inserts are made in support bushing. With support bushing in upper position, working medium and pumped out medium supply channels are closed by support bushing. With support bushing in lower position, upper end face is arranged below input into working medium supply channel. Bypass holes of support bushing communicate with input of pumped out medium supply channel. Sealing unit is made in from of stepped housing with sealing member and stepped piston spring-loaded relative to sealing member. Holes made in housing of sealing unit opposite to upper bypass holes of support bushing are closed by piston in its lower position. With piston in upper position and support bushing in lower position, pumped out medium supply channel communicates, through holes in sealing unit housing, upper bypass holes of support bushing and upper port in housing of jet pump, with inner space of tubing string higher than check valve and with inner space of tubing string lower than housing of jet pump. Lower bypass holes of support bushing communicate with lower port of pumped out medium supply channel. Channels for logging cable are made in piston and sealing member. With support bushing in upper position, working and pumped and pumped out medium supply channels are closed by support bushing. With support bushing in lower position, upper end face of support bushing is arranged lower than input hole in working medium supply channel.

EFFECT: improver reliability and increased capacity of plant.

3 dwg

Description

The invention relates to the field of pumping technology, mainly to downhole pumping units for testing and development of wells.

A well-known jet installation comprising a packer mounted on a pipe string from bottom to top with a central channel and a jet pump, in the housing of which an active nozzle and a mixing chamber with a diffuser are installed, and a channel for supplying a working medium and a channel for supplying a medium pumped out of the well, are made, at the same time, a passage channel is made in the housing of the jet pump with the possibility of installing replaceable functional inserts and a sealing assembly in it (see patent RU 2176336 C1, class F04F 5/02, 11.27.2001).

This downhole jet installation allows the formation to be processed in the well below the level of the jet pump installation, including creating a pressure differential above and below the sealing unit. However, the capabilities of a downhole jet installation are not used to the full extent, which is associated with a large investment of time for replacing the inserts, which is often longer than the estimated reaction time of the acid solution with the minerals of the reservoir.

The closest to the invention in terms of technical nature and the achieved result is a downhole jet installation comprising a packer mounted on a pipe string with a central channel and an inkjet pump in the housing of which an active nozzle and a mixing chamber with a diffuser are installed, as well as a working medium supply channel , a channel for supplying the medium pumped out from the well, while in the housing of the jet pump there is a switch for the flow of the working medium, the output of the jet pump is connected to the annulus near the pipe string, the jet pump nozzle is connected to the internal cavity of the pipe string above the switch through the working fluid supply channel and the medium supply pipe of the pumped medium from the well is connected to the internal cavity of the pipe string below the packer (see patent RU No. 2222717, class F04F 5/02, 01/27/2004).

This downhole jet installation allows you to switch the flow of the working environment and affect the reservoir by creating depression and repression. However, the used flow switch creates significant hydraulic resistance and occupies the bore of the pipe string, which does not allow equipment and various purposes to be lowered into the well, for example, measuring instruments, flexible pipes for feeding chemicals or hydraulic fracturing fluids, as well as devices for stimulating the formation , which narrows the possibilities of this installation.

The problem to which the present invention is directed, is to improve the quality of work to increase well production by improving the technology of treating a productive formation with liquid agents and preventing spontaneous overflow of an active working medium when the jet pump stops working and maintaining depression on the formation when the jet pump is not working.

The technical result achieved by the implementation of the invention is to increase the reliability and productivity of the downhole jet installation during processing of the reservoir and testing the well.

This problem is solved, and the technical result is achieved due to the fact that the downhole jet installation includes a packer mounted on the pipe string from bottom to top with a central channel made therein and a jet pump in the housing of which a nozzle and a mixing chamber with a diffuser are installed, while the diffuser output is connected to the annular space of the pipe string, the nozzle of the jet pump is connected to the inner cavity of the pipe string through the channel for supplying the working medium in the body of the jet pump, and the In the case of a single pump, the channel for supplying the medium pumped out from the well is connected to the inner cavity of the pipe string through the upper and lower windows made in the jet pump housing, and a check valve is installed in the channel for supplying the pumped medium, located in the latter from the input side through the lower window, in the The pump is mounted coaxially with the pipe string and has a working fluid flow switch made in the form of an axially movable support sleeve spring-loaded relative to the housing, while in the support sleeve the upper and lower bypass openings and a seat for installing a sealing assembly or replaceable functional inserts that are let down through the pipe string, in particular, inserts for recording the reservoir pressure recovery curves, the channels for supplying the working and pumped medium are blocked in the initial upper position of the support sleeve, and in the lower position of the support sleeve, its upper end is located below the inlet to the channel for supplying a working medium, while the bypass holes of the support sleeve are in communication with a house in the supply channel of the medium pumped out from the well, the sealing assembly is made in the form of a hollow stepped cylindrical body, in the upper part of the cavity of which a sealing element is placed, and a lower piston spring-loaded relative to the sealing element, while in the wall of the housing of the sealing unit opposite the upper bypass holes of the support sleeve are made holes that are blocked by a stepped piston when when it is in the lower position, and in the upper position of the step piston and simultaneously in the lower position of the support sleeve through the holes in the housing of the sealing unit, the upper bypass holes in the support sleeve and the upper window in the jet pump body, the channel for supplying the medium pumped out of the well is communicated above the check valve with the inner cavity of the pipe string below the jet pump housing and at the same time the lower bypass openings of the support sleeve are in communication with the lower window of the supply channel of the medium pumped out of the well, at in this case, in the stepped piston and sealing element, axial axial channels are made for passing a wireline cable through them, on which a wireline tool is suspended by means of a cable head, and in the initial upper position of the support sleeve, the supply channels of the working and pumped medium from the well are blocked by the latter, and in the lower position of the supporting sleeve its upper end is located below the inlet to the channel for supplying a working medium.

An analysis of the operation of a well jet installation showed that the reliability and efficiency of the installation can be improved by optimizing the design of the installation and thereby achieve more complete cleaning of the borehole formation zone in the wells, shorten the time for these operations and expand the functionality of the installation when testing and developing wells.

It was found that the hydrodynamic effect on the borehole zone of the well allows the most efficient use of the downhole jet unit in the development and repair of oil and gas wells during work to intensify the influx of oil from the reservoir. At the same time, the installation allows cleaning the producing formation from clogging particles and reaction products of the treatment of the formation with chemical reagents, conducting control measurements both before and during the treatment, which in turn allows us to evaluate the technical condition of the well and the properties of the medium pumped out of the well. Based on the results of studying the inflow, it is possible to assess the quality of processing the near-wellbore zone of the reservoir. The installation with a switch of the working fluid flow in the form of a support sleeve spring-loaded relative to the housing allows processing of the productive formation by pumping chemicals and / or hydraulic fracturing into the formation through a pipe string. In this case, the support sleeve blocks the supply channels of the working and pumped media, which prevents them from clogging. The implementation of the support sleeve with a seat allows you to install various technological equipment in the sleeve and conduct hydrodynamic processing of the reservoir.

The downhole installation makes it possible to create a number of different depressions using a jet pump in the sub-packer zone of the well with a given pressure drop, and using a logging tool to record pressure, temperature and other physical parameters of the well and the medium pumped out of the well, conduct research and testing of the well, as well register the reservoir pressure recovery curve in the under-packer space of the well without using specially designed functionality nn insertion. At the same time, it is possible to control the magnitude of depression by controlling the rate of pumping of the active working medium. During the formation test, it is possible to adjust the pumping mode by changing the pressure of the active working medium supplied to the active nozzle of the jet pump. At the same time, the implementation of the channel for supplying the medium pumped out from the well with a non-return valve and two (upper and lower) windows eliminates the possibility of spontaneous overflow of the working medium into the sub-packer zone both with the working and non-working jet pump.

As a result, intensification of work on research and development of wells is achieved, which allows for high-quality research and testing of wells after drilling and during overhaul, as well as preparation of a well for operation with comprehensive research and testing in various modes, and thereby increasing the reliability of the installation.

Figure 1 presents a longitudinal section of a downhole jet unit during the treatment of the formation with chemical reagents or hydraulic fracturing fluid.

Figure 2 presents a longitudinal section of a downhole jet unit with a sealing unit and a logging tool located in the formation zone.

Figure 3 presents a longitudinal section of a downhole jet unit during preparation of a downhole jet unit for raising the logging tool and the sealing unit to the surface.

The downhole jet installation comprises a packer 2 mounted on the pipe string 1 from bottom to top with a central channel 3 formed therein and a jet pump 4, in the housing 5 of which a nozzle 6 and a mixing chamber 7 with a diffuser 8 are installed. The diffuser 8 output is connected to the annular space of the pipe string 1 , the nozzle 6 of the jet pump 4 is connected to the inner cavity of the pipe string 1 through the channel 9 for supplying the working medium made in the body 5 of the jet pump 4, and the connection made in the body 5 of the jet pump 4 channel 10 for connecting the medium pumped out of the well n to the inner cavity of the pipe string 1 through the upper 11 and lower 12 windows made in the housing 5 of the jet pump 4. In the channel 10 for supplying the pumped-out medium, a check valve 13 is installed, which is located in the latter from the entrance to it through the lower window 12. In the housing 5 of the jet pump 4, a fluid flow switch is installed coaxially to the pipe string 1, made in the form of a support sleeve 14 axially movable , spring-loaded relative to the housing 5. In the supporting sleeve 14, the upper 15 and lower 16 bypass holes and a seat 17 are made for installing a sealing assembly 18 or replaceable functional joints avoc (not shown in the drawing), in particular, inserts for registering reservoir pressure recovery curves. In the initial upper position of the supporting sleeve 14, the channels 9 and 10, respectively, of the supply of the working and pumped medium are blocked by the latter, and in the lower position of the supporting sleeve 14, its upper end is located below the inlet to the channel 9 of the supply of the working medium, while the lower bypass holes 16 of the supporting sleeve 14 communicated with the entrance to the channel 10 for supplying the medium pumped out from the well, the sealing unit 18 is made in the form of a hollow stepped cylindrical body 19, in the upper part of the cavity of which a sealing element 20 is placed, and below in the piston 22 is located with an emphasis in an annular ledge 21 in the cavity of the housing 19 of the sealing assembly 18, a stepped piston 22 spring-loaded relative to the sealing element 20, while holes 23 are formed in the wall of the housing of the sealing assembly 18 opposite the upper bypass holes 15 of the support sleeve 14, which are closed by a stepped piston 22 when it is in the lower position. In the upper position of the stepped piston 22 and simultaneously the lower position of the support sleeve 14 through the holes 23 in the housing 19 of the sealing assembly 18, the upper bypass holes 15 in the support sleeve 14 and the upper window 11 in the housing 5 of the jet pump 4, the channel 10 for supplying the medium pumped out of the well is reported above a check valve 13 with an internal cavity of the pipe string 1 below the housing 5 of the jet pump 4 and at the same time the lower bypass holes 16 of the support sleeve 14 are in communication with the lower window 12 of the channel 10 for supplying the medium pumped out of the well. In the stepped piston 22 and the sealing element 20, axially axial channels are made for passing the wireline 24 through them, on which the wireline tool 26 is suspended by means of the cable head 25, and in the initial upper position of the support sleeve 14, channels 9 and 10, respectively, of supplying the working and pumped out of the well the medium is blocked by the latter, and in the lower position of the support sleeve 14, its upper end is located below the inlet to the channel 9 for supplying a working medium.

Downhole jet installation operates as follows.

On the pipe string 1, the packer 2 and the jet pump 4 are lowered into the well, and the channels 9 and 10 are closed by the support sleeve 14. The packer 2 is unpacked and pressurized by applying a working medium under pressure to the annulus of the well, and then, an acid solution and / or hydraulic fracturing pipe are injected through the pipe string 1 into the well formation and lowered through the pipe string 1 into the well on a wireline 24, which is passed through the axial channels of the sealing element 20 and a stepped piston 22 of the sealing assembly 18, a logging tool 26, which is located in the formation zone, and the sealing assembly 18 is mounted on the seat 17 in the support sleeve 14. Geophysical parameters, in particular pressure and temperature, are recorded in the sub-packer zone, including the formation zone, after which the working medium is fed through the pipe string 1 under pressure, under the influence of which the support sleeve 14 is displaced to the sealing assembly 18 to the lower position, freeing the entrance to the working medium supply channel 9 to the nozzle 6 and informing the upper its and lower bypass holes 15 and 16 with the upper and lower windows 11 and 12 of the channel 10 for supplying the medium pumped out of the well. By supplying the working medium under pressure through the channel 9 for supplying the working medium to the nozzle 6 of the jet pump 4, the well is drained and reaction products and / or hydraulic fracturing fluid are removed from the reservoir with periodic measurement using a logging device 26 well flow rates at different depressions on the reservoir and continuous recording of bottomhole pressure, as well as the composition of the liquid medium pumped from the wellbore. Then, in the process of well drainage, the logging tool 26 is moved along its wellbore and the geophysical parameters are recorded in the sub-packer zone, including in the formation zone.

Then, the jet pump 4 is stopped and through the check valve 13 in the channel 10 for supplying the pumped-over medium, the internal cavity of the pipe string 1 above the jet pump 4 together with the annulus above the packer 2 is disconnected and the internal cavity of the pipe string 1 under the jet pump 4 together with the under-packer space, keeping under packer 2, a lower bottomhole pressure, at which, using a logging tool 26, the physical fields of rocks and the reservoir medium entering the well are recorded or the impact on the productive the first layer by physical fields, for example acoustic. Then, with the help of the logging cable 24, the logging tool 26 is lifted and the cable head 25 is pressed from below the step piston 22, it is moved upward and thus informed through the holes 23 in the wall of the housing 19 of the sealing assembly 18, the upper bypass holes 15 in the supporting sleeve 14 and the upper window 11 of the channel 10 for supplying the medium pumped out from the well, the under-packer space of the well with the internal cavity of the pipe string 1 above the jet pump 4 and the annulus above the packer 2 and thereby equalize the pressure above and below the stream pump 4, after which the logging device 26 is removed from the well together with the sealing unit 18. If necessary, additional studies can be installed instead of the sealing unit 18 on the seat 17 in the support sleeve 14 can be installed any of the interchangeable functional inserts, in particular an insert for registration of reservoir pressure recovery curves, which allows to expand the amount of information obtained on the state of the well without lifting the pipe string 1 to the surface, and these studies can be carried out both with and without a jet pump 4.

The present invention can be used in the oil and gas industry for well development after drilling or for their underground repair in order to intensify hydrocarbon production or increase the injectivity of injection wells.

Claims (1)

A downhole jet installation comprising a packer mounted on a pipe string from bottom to top with a central channel and a jet pump in which a nozzle and a mixing chamber with a diffuser are installed, the diffuser output being connected to the annular space of the pipe string, and the jet pump nozzle is connected to the internal cavity of the pipe string through the channel for supplying the working medium made in the body of the jet pump, and the channel for supplying the medium pumped out of the well made in the body of the jet pump is connected to the inside the lower cavity of the pipe string through the upper and lower windows made in the jet pump housing, and a check valve is installed in the channel for supplying the pumped medium; the check valve located in the latter from the inlet side through the lower window has a fluid flow switch coaxial with the pipe string, made in the form of an axially movable support sleeve, spring-loaded relative to the housing, while the upper and lower bypass holes and a seat for mounting on the support sleeve are made its lowering through the pipe string of the sealing unit or interchangeable functional inserts, in particular inserts for recording the reservoir pressure recovery curves, in the initial upper position of the supporting sleeve, the supply channels of the working and pumped medium are blocked by the latter, and in the lower position of the supporting sleeve its upper end is located below the inlet into the channel for supplying the working medium, while the bypass holes of the supporting sleeve are in communication with the entrance to the channel for supplying the medium pumped out from the well, the sealing unit flaxen in the form of a hollow stepped cylindrical body, in the upper part of the cavity of which there is a sealing element, and lower in the cavity is located, with an emphasis in an annular ledge in the cavity of the body of the sealing assembly, a stepped piston, spring-loaded relative to the sealing element, while in the case wall of the sealing assembly opposite the upper bypass holes of the support sleeve are made holes that are blocked by a stepped piston when it is in the lower position, and in the upper position of the stepped piston simultaneously in the lower position of the support sleeve through the holes in the housing of the sealing unit, the upper bypass holes in the support sleeve and the upper window in the jet pump housing, the channel for supplying the pumped medium from the well is communicated above the non-return valve with an internal cavity of the pipe string below the jet pump housing and simultaneously the lower bypass holes the support sleeve is in communication with the lower window of the supply channel of the fluid pumped out of the well, while in the stepped piston and sealing element, axial axial channels for passing a logging cable through them, on which a logging tool is suspended by means of a cable head, and in the initial upper position of the support sleeve, the supply channels of the working and pumped out medium from the well are blocked by the latter, and in the lower position of the support sleeve its upper end is located below the entrance to the channel supply of a working environment.

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