RU2334130C1 - Well jet unit "эмпи-угис-(11-20)дш" and method of its operation - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: well jet unit allows creating a number of various preset pressure difference depressions using a jet pump in the well subpacker zone. Using a logging device allows recording the well physical parameters and those of the medium pumped out from the well. Making the stepped flow-through channel diameter, just below the unit mounting seat, not less than that of the parker axial flow-through hole allows feeding chemical reagents or fracturing liquid into the pay-out bed via the casing. Check valves arranged in the feed channels prevent, during pumping in, an ingress of media pumped in the payout bed into the well behind-the-string subparker space.

EFFECT: optimising well testing procedure, higher reliability and efficiency of well jet unit.

2 cl, 3 dwg

Description

The invention relates to the field of pumping technology, mainly to downhole jet installations for logging.

A well-known jet installation containing a pipe string with an jet pump and a packer with the ability to pump liquid working medium through the jet pump (see RU 2059891 C1, F04F 5/02, 05/10/1996).

From the same patent, there is known a method of operating a downhole jet installation, including installing a geophysical device located in a well on a pipe string of a jet pump and a geophysical device located below a jet pump in a well, lowering a pipe string with a jet pump, a packer and a geophysical device into the well and pumping liquid working medium through the jet pump.

This method of operation of a downhole jet installation allows pumping out various produced media, such as oil, from the well while processing the produced environment and the near-wellbore zone of the formation, however, in this method of operation of the installation, the possibilities of researching the well are limited, which in some cases narrows the scope of use of this installation and how it works.

In the part of the device, as an object of the invention, the closest to the invention in terms of technical essence and the achieved result is a downhole jet installation containing a pipe string, a packer and an jet pump, in the housing of which an active nozzle with a mixing chamber is installed and a passage channel is made with a mounting seat a sealing unit with an axial channel, while the output of the jet pump is connected to the pipe string above the sealing unit, the input of the channel for supplying a pumped medium of the jet pump is connected to the tubing is lower than the sealing unit, and the input of the working medium supply channel into the active nozzle is connected to the space surrounding the tubing string, and several channels for supplying the pumped medium are made in the jet pump housing (see patent RU 2106540, class F04F 5/02 , 03/10/1998).

From the same patent, the closest to the invention is known in terms of the method of operation, as an object of the invention, according to the technical essence and the achieved result, the method of operation of a downhole jet installation, comprising placing a packer and an jet pump in a well on a pipe string, wherein the packer is installed above the reservoir, the sealing unit and the logging tool are lowered on the cable, and an active working medium, for example water, is pumped through the annular space of the pipe string into the nozzle of the jet pump, and thus reduce Adding a packer zone, creating a depression in the reservoir during operation of the jet pump are monitored parameters of the pumped medium reservoir after stopping supplying the active working fluid through the fluid flow through the flow part of the jet pump equalize the pressure along the flow part of the jet pump.

These installation and the method of its operation allow to carry out various technological operations in the well below the installation level of the jet pump, including by reducing the pressure drop above and below the sealing unit. However, this installation does not allow to fully use its capabilities due to the impossibility of maintaining depression on the reservoir with an idle jet pump, which does not allow to fully investigate the well.

The problem to which the present invention is directed, is to prevent spontaneous overflow of an active working medium when the jet pump ceases to work and to maintain depression on the formation with an idle jet pump

The technical result, the achievement of which the present invention is directed, is to increase the reliability and productivity of a well jet device during a well test and to optimize the sequence of actions when conducting a well test.

In the part of the device, as an object of the invention, the technical task is solved due to the fact that the downhole jet installation includes a jet pump mounted on a pipe string and a packer with an axial bore, and an active nozzle and a mixing chamber with a diffuser are coaxially mounted in the jet pump housing, and also made a stepped passage channel with a seat between the steps, a channel for supplying a medium pumped out of the well, communicated below the seat by means of side holes in the jet housing about a pump with a stepped passage channel, and a channel for supplying an active working medium, communicated from the exit side with the active nozzle and from the side of the entrance to it with the annulus of the pipe string, while the channel for supplying the pumped medium is communicated through a check valve with a pipe string below the stepped passage channel, and the latter provides for the possibility of installing a sealing unit, which 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 furthermore, a step piston spring-loaded relative to the sealing element is located in the cavity with an emphasis in an annular ledge in the cavity of the housing of the sealing assembly, and holes are made in the wall of the housing of the sealing assembly opposite the side openings of the jet pump housing and the holes in the sealing housing are closed last in the lower position of the stepped piston node, and in the upper position of the stepped piston through the side holes in the housing of the jet pump and the holes in the wall of the housing of the sealing of the assembly, the supply channel for the medium pumped out from the well is in communication with the pipe string below the jet pump housing, while the step piston and the sealing element have axial axial channels for passing a wireline through them, on which a wireline tool is suspended by means of a cable head below the jet pump body, a check valve is installed in the inlet channel of the active working medium, and the diameter of the stepped passage channel below the seat is not less than the diameter of the axial passage hole of the packer.

The specified problem in terms of the method, as an object of the invention is solved due to the fact that the method of operation of a downhole jet installation consists in assembling a pipe string by installing an jet pump and a packer on the pipe string, and then lowering the assembly into the well, unpacking the packer, hydraulic fracturing fluid or acidic solution is fed under pressure along the pipe string into the producing formation and run down into the well on the well cable of the sealing unit with the cable head fixed to the cable with a logging device, the sealing unit is installed on a seat in the stepped passage channel of the jet pump, and the logging device is placed in the zone of the reservoir, while during the descent, the background values of the rock physical fields along the borehole are recorded by the logging device, in particular thermal fields, then by jet the pump by feeding through the annular space of the pipe string into the active nozzle of the active working medium creates a depression on the reservoir and pumped out of the reservoir hydraulic fracturing or products of chemical treatment of the reservoir, and then, when the jet pump is running, the current values of the physical fields of the rocks and the reservoir fluid entering the well are recorded, and during the logging, the logging tool is moved along the wellbore, including the reservoir, then the jet pump is stopped and by means of a check valve in the supply channel of the pumped-out medium, the internal cavity of the pipe string is divided over with the pump hole together with the annular space above the packer and the inner cavity of the pipe string under the jet pump together with the sub-packer space, keeping the bottom hole pressure under the packer and registering the reservoir pressure recovery curve under the packer with a logging tool, then using a logging cable, lift the logging device and with a cable head press the step piston from below, move it up and, thus, communicate through the holes in the wall of the housing of the sealing unit lateral openings in the housing of the jet pump well packer space with the interior of the tubing string above the jet pump and the annulus above the packer and thereby equalize the pressure above and below the packer, and then removed from the well logging tool with the sealing unit.

Analysis of various designs showed that the reliability can be improved by increasing the functionality of the installation during testing and development of wells.

It was revealed that the above set of structural elements of the well installation allows you to organize a sequence of actions in which the equipment that is installed on the pipe string when carrying out well logging to study, test and develop productive rock formations is most effectively used. At the same time, conditions have been created both for obtaining complete and reliable information about the state of productive formations, and for conducting processing of productive formations during the study. 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, also registration of the reservoir pressure recovery curve in the under-packer space of the well without using specially designed functionality hydrochloric insert. However, in some cases, conducting only research or processing the reservoir using a logging tool, for example, by treating the reservoir with physical fields, in particular with ultrasound, is not enough to intensify the inflow from the reservoir. Performing a jet installation with check valves in the supply channels of the active working and pumped-out fluids in combination with performing the diameter of the step-by-step passage channel below the seat not less than the diameter of the axial feedthrough of the packer allows you to organize the flow of chemical reagents or hydraulic fracture through the pipe string without using any either additional devices or functional inserts along the pipe string, to increase productivity, and check valves while they prevent the flow of media injected into the reservoir into the annular nadpakerny space of the well during their injection. It is important that the above ratio between the diameters of the stepped bore and the axial bore of the packer. The diameter of the stepped bore channel is not less than the diameter of the axial bore hole of the packer necessary for organizing the possibility of launching a logging tool for treating the formation with physical fields into the sub-borehole space (the aforementioned sonication or, for example, creating a thermal field) and lowering the hydraulic resistance as when injecting media into productive formation, and for pumping from the productive formation the products of its processing and the environment extracted from the productive formation when creating Ress on the producing formation. 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 possibility of spontaneous overflow of the working medium into the under-packer zone is excluded 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 without a sealing unit and a logging tool.

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

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 jet pump 2 and a packer 3 mounted on a pipe string 1, wherein an active nozzle 5 and a mixing chamber 6 with a diffuser are coaxially mounted in the housing 4 of the jet pump 2, and a stepped passage channel 7 with a seat 8 between the steps is made, a channel 9 supply of the medium pumped out of the well, reported below the seat 8 through the side openings 10 in the housing 4 of the jet pump 2 with a stepped passage channel 7, and the channel 11 for supplying an active working medium, communicated from the exit side it with an active nozzle 5 and from the entrance to it with the annular space of the pipe string 1. The channel 9 for supplying a pumped medium is communicated through a check valve 12 with a pipe string 1 below the step-through passage channel 7, and in the latter it is possible to install a sealing unit 13, which is made in the form of a hollow stepped cylindrical body 14, in the upper part of the cavity of which a sealing element 15 is placed, and lower in the cavity is located with an emphasis in an annular ledge 16 in the cavity of the body 14 of the sealing assembly 13, stepwise a rod 17, spring-loaded by means of a spring 18 relative to the sealing element 15. In the wall of the housing 14 of the sealing assembly 13, holes 19 are made opposite the side holes 10 of the housing 4 of the jet pump 2 and the holes 19 in the wall of the housing 14 of the sealing assembly 13 are last blocked in the lower position of the step piston 17, and in the upper position of the stepped piston 17 through the side holes 10 in the housing 4 of the jet pump 2 and the holes 19 in the wall of the housing 14 of the sealing unit 13, the channel 9 for supplying the medium pumped out of the well is communicated with core pipes 1 below the housing 4 of the jet pump 2. In the stepped piston 17 and the sealing element 15 are made coaxially axial channels for passing through them a logging cable 20, on which, using the cable head 21 below the housing 4 of the jet pump 2 suspended logging device 22 with the possibility of its movement along the well and its location in the zone of the reservoir 23. In the channel 11 for supplying an active working medium, a check valve 24 is installed, the packer 3 is made with an axial bore 25, and the diameter d of the stepped bore 7 is lower the seat 8 is not smaller than the diameter D of the axial passage hole 25 of the packer 3.

The method of operation of a downhole jet installation consists in assembling a pipe string 1 by installing an jet pump 2 and a packer 3 on a pipe string 1. The assembly is launched into the well and unpacking the packer 3. The fluid is fed under pressure along the pipe string 1 into the reservoir 23 fracturing of the formation or acid solution, and then lowered into the well on the logging cable 20, the sealing unit 13 with the logging tool 22 mounted on the cable 20 by the cable head 21. The sealing unit 13 is installed on the landing month about 8 stepwise in the through passage 7 of the jet pump 2, a logging instrument 22 is disposed in the zone of the productive formation 23. During lowering the logging tool 22 is recorded baseline values of the physical fields of rock along the borehole, in particular thermal field. Next, a jet pump 2 by feeding through the annular space of the pipe string 1 into the active nozzle 5 of the active working medium is pumped from the reservoir 23 fracturing fluid or chemical treatment of the reservoir. Then, when the jet pump 2 is operating, the current values of the rock physical fields and the formation fluid entering the well are recorded, and during the registration, the logging tool 22 is moved along the wellbore, including the producing formation 23, by means of a well logging cable 23. Then, the jet pump 2 is stopped and by means of a check valve 12 in the channel 9 for supplying a pumped-off medium, the internal cavity of the pipe string 1 above the jet pump 2 is disconnected together with the annulus above the packer 3 and the upper cavity of the pipe string 1 under the jet pump 2 together with the under-packer space, keeping the bottomhole pressure below the packer 3 and recording the reservoir pressure recovery curve under the packer 3 using the logging tool 22. Then, using the logging cable 20, the logging device 22 and the cable with the head 21 press the step piston 17 from the bottom, move it up and, thus, communicate through the openings 19 in the wall of the housing 14 of the sealing assembly 13 and the side holes 10 in the housing 4 of the jet pump CA 2 sub-packer space of the well with the internal cavity of the pipe string 1 above the jet pump 2 and the annulus above the packer 3 and thereby equalize the pressure above and below the jet pump 2, after which the logging tool 22 is removed from the well together with the sealing unit 13.

The present invention can be used in the oil and gas industry for well development after drilling or for logging in all types of wells.

Claims (2)

1. A downhole jet installation comprising a jet pump mounted on a pipe string and a packer with an axial bore, and an active nozzle and a mixing chamber with a diffuser coaxially mounted in the body of the jet pump, and a stepped bore channel with a seat between the steps, a feed channel for pumping out from the well of the medium, communicated below the seat by means of side holes in the housing of the jet pump with a stepped passage channel, and the channel for supplying the active working medium, communicated with orons of exit from it with an active nozzle and from the entrance to it with the annular space of the pipe string, while the channel for supplying a pumped medium is communicated through a check valve with a pipe string below the stepped passage channel, and in the latter it is possible to install a sealing assembly, which is made in the form hollow stepped cylindrical body, in the upper part of the cavity of which a sealing element is placed, and lower in the cavity is located with an emphasis in an annular ledge in the cavity of the housing of the sealing unit of the steps a piston spring-loaded with respect to the sealing element, the holes being made in the wall of the housing of the sealing assembly opposite the side openings of the housing of the jet pump and the lower position of the stepped piston closing the holes in the wall of the housing of the sealing assembly, and in the upper position of the stepped piston through the side holes in the housing of the jet pump and holes in the wall of the housing of the sealing unit, the channel for supplying the medium pumped out from the well is in communication with the pipe string below the housing of the jet while, in the stepped piston and sealing element, axial axial channels are made for passing a wireline through them, on which a wireline tool is suspended by means of a cable head below the jet pump housing, while a check valve is installed in the channel for supplying the active working medium, and the diameter of the step-through channel below the seat is not less than the diameter of the axial bore of the packer. 2. The method of operation of a downhole jet installation, which consists in assembling a pipe string by installing an jet pump and a packer on the pipe string, then lowering the assembly into the well, unpacking the packer, and pumping the hydraulic fluid under pressure through the pipe string into the reservoir or an acid solution, and a descent into the well is carried out on a well-logging cable of the sealing unit with a logging tool fixed to the cable by means of the cable head, the sealing-off unit is mounted on a seat in a stepped passage channel of the jet pump, and the logging device is located in the zone of the reservoir, while during the descent, the background values of the rock physical fields along the wellbore, in particular thermal fields, are recorded by the logging device, then by the jet pump by feeding the pipe string into the active the nozzle of the active working medium creates depression on the reservoir and hydraulic fracturing fluid or chemical treatment products of the reservoir are pumped out of the reservoir; When the jet pump is running, the current values of the physical fields of the rocks and the formation fluid entering the well are recorded, and during the registration, the logging tool is moved along the wellbore, including the productive formation, using the logging cable, then the jet pump is stopped and the check valve the channel for supplying the pumped medium disconnect the internal cavity of the pipe string above the jet pump together with the annulus above the packer and the internal cavity pipe columns under the jet pump together with the under-packer space, keeping the bottom hole pressure below the packer and registering the reservoir pressure recovery curve under the packer using the logging tool, then using the logging cable, lift the logging tool and press the step piston from below with a cable head, move it upwards and, thus, through the openings in the wall of the housing of the sealing unit and the side openings in the housing of the jet pump, the under-packer space of the well s with the interior of the tubing string above the jet pump and the annulus above the packer and thereby equalize the pressure above and below the packer, and then removed from the well logging tool with the sealing unit.

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