RU2280787C1 - Oil-well pump and method of its operation - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: method comprises assembling pipe column and running the assembly into the well. The packer is set above the roof of the intermediate bed. The sealing unit is set in the step through passage of the jet pump. The logging instrument is run with the use of the logging rope passing through the sealing unit and is set in the zone of productive bed. During the run, the background values of physical fields of the rock along the well are recorded. .

EFFECT: enhanced efficiency and reliability.

2 cl, 3 dwg

Description

The invention relates to the field of pumping technology, mainly to downhole jet installations for oil production from wells.

A known method of operating a downhole jet installation, including lowering into the well a string of tubing with a jet pump, a packer and a perforator, placing a perforator against the reservoir and blowing up the perforator with subsequent pumping of the liquid working medium through the jet pump (see copyright certificate SU 1146416, Кл E 21 B 43/116, 23.03.1985).

From the same copyright certificate of the USSR, a well-known jet installation is known containing a tubing string with a jet pump, a packer and a perforator with the possibility of pumping a liquid working medium through a jet pump.

These method of operation and the downhole jet installation allow perforation of the well and thereby intensify the pumping of various production media, for example oil, from the well, however, this installation does not allow the study of the near-wellbore zone of formations, which in some cases leads to a decrease in the efficiency of stimulation of the well due to for the lack of information about how productive formations work.

Closest to the invention in terms of the method of operation, as an object of the invention, the technical essence and the achieved result is a method of operating a downhole jet installation, comprising installing a packer and an jet pump on a pipe string, in the housing of which there is a passage channel with a seat, lowering this assembly into well, unpacking the packer and placing downhole tools in the well below the jet pump (see patent RU 2129672, Cl. F 04 F 5/02, 04/27/1999).

In terms of the device, as an object of the invention, the closest to the invention in terms of technical nature and the achieved result is an installation containing a packer with a central channel and a jet pump with an active nozzle, a mixing chamber and a passage channel with a mounting place installed on the tubing string. a sealing unit with an axial channel, while the installation is equipped with a radiator and a receiver-transducer of physical fields located in a sub-packer area from the entrance to the jet pump about the medium pumped from the well and installed on a wireline cable that is passed through the axial channel of the sealing unit, the outlet of the jet pump being connected to the space surrounding the pipe string, the input of the channel for supplying the pumped medium of the jet pump being connected to the inner cavity of the pipe string below the sealing unit, and the channel inlet supplying a liquid working medium to the active nozzle is connected to the internal cavity of the pipe string above the sealing unit (see the above patent RU, 2129672, Cl. F 04 F 5/02, 04/27/1999).

These method of operation and installation make it possible 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 requires a change in functional inserts in the process of conducting research and testing of wells, which lengthens the time for testing and development of wells.

The task to which the present invention is directed is to intensify research, testing and preparation of wells for operation, to optimize the operation of an inkjet installation when used in conjunction with stand-alone devices and functional inserts to study a productive formation, and thereby increase the reliability and productivity of the installation .

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 in the following sequence: an jet pump, a packer and a liner are installed from top to bottom on the pipe string, after which descent of the assembly into the well, the packer being placed above the top of the reservoir, unpacking the packer and descent into the well on a wireline or wire passed through the sealing unit of the logging about the device, and the sealing unit is installed on the seat in the 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 physical fields of rocks, in particular thermal fields along the wellbore, are recorded by the logging device, Further, by a jet pump, by supplying an active working medium to the active nozzle, a depression is created on the reservoir and thus the reservoir is drained, and then when the jet pump is operating, registering the current values of the physical fields of the rocks and the formation fluid entering the well, and during the registration by means of a wire cable or wire, the logging tool is moved along the wellbore, including the producing formation, then the logging tool is removed from the well together with the logging cable or wire and a sealing unit and install a blocking insert with autonomous devices and a nozzle inserted into it in a stepped passage channel of the jet pump immediately divide the internal cavity of the pipe string and the space surrounding the pipe string, after which chemicals or propellant are injected into the reservoir and the ball is dropped into the pipe string, which is placed on the pipe, thus blocking the axial through channel of the blocking insert, by feeding under the pressure of the active medium, the support shear ring is cut into the pipe string and the pipe is moved to the lower position, thus communicating the bypass windows of the pipe with the feed channel pumped from bore holes of the medium below the ball and simultaneously freeing the entrance to the channels for supplying the active medium above the nozzle, after which the active working medium is fed under pressure through the pipe string into the active nozzle of the jet pump and the chemical products or fracturing fluid are pumped out of the reservoir with residual proppant, and then carried out by supplying the active working medium to the active nozzle of the jet pump, the drainage of the formation with the phased creation of increasing values of depression on the formation, registering at each and They bottomhole pressure, production rate, composition and physical parameters of the fluid flowing from the reservoir through the blocking insert installed on stand-alone devices, and then lifted to the surface blocking insert with autonomous devices and pipe string with the jet pump, and the liner packer.

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 comprises a jet pump, a packer and a liner mounted top down on the pipe string, and at least one active nozzle is coaxially mounted in the jet pump body and one mixing chamber with a diffuser, and also a stepped passage channel with a seat between the steps and the above and below the seats, respectively, active medium supply channels and supply channels, made with it The medium pumped out from the well, in the stepped passage channel, it is possible to install the sealing assembly and the blocking insert one at a time, while the blocking insert is made with an axial through step channel with a seat and bypass holes, through which the channels for supplying the medium pumped out of the well and channels for supplying the active medium with an axial through channel of the blocking insert, autonomous devices for registering the physical parameters of the well are installed on the bottom of the blocking insert In particular, pressure and temperature, below the seat in the axial through channel of the blocking insert, a support shear ring is installed, with a stop in which, in the initial upper position in the axial through channel, it is mounted with the possibility of axial movement and overlapping of its passage section with a pipe discharge into the pipe string with bypass windows, and the outer surface of the nozzle is made with an annular ledge and the bypass holes of the blocking insert are blocked by the nozzle, and after dropping the ball, overlap the pipe, cut the support shear ring and shift the pipe to the lower position with the ring protrusion in the seat of the axial through channel through the bypass pipes and the bypass holes of the blocking insert the channels for supplying the pumped medium are communicated with the inner cavity of the pipe string below the ball, and the channels for supplying the active medium are communicated with an internal cavity of the pipe string above the nozzle, and in the upper part of the blocking insert an inner annular protrusion is made to capture the blocking insert with a fishing tool umentom.

Analysis of various structures showed that the reliability can be improved both by increasing the functionality of the installation, and by expanding the functionality of structural elements 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 conducting research, testing and development of 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 stand-alone instruments for recording pressure, temperature and other physical parameters of the well and the medium pumped out of the well, conduct research and testing of the well. 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. The implementation of a blocking insert with a nozzle and autonomous devices for recording the physical parameters of the well, in particular pressure and temperature, allows without reinstalling the inserts to process the productive layers of the well with physicochemical methods to increase their productivity, which ultimately allows you to speed up and simplify the testing and preparation process wells to work.

As a result, intensification of work on research and development of wells is achieved, which allows for qualitative research and testing of wells after drilling and overhaul, as well as preparation of the well for operation with comprehensive research and testing in various modes, while optimizing the operation of the jet pump at its work together with functional inserts and due to this increase the reliability of the installation.

Figure 1 presents a longitudinal section of a downhole jet unit with a sealing unit. Figure 2 presents a longitudinal section of a downhole jet unit with a blocking insert in its original position. Figure 3 presents a longitudinal section of a downhole jet unit with a blocking insert with a dropped ball.

The downhole jet installation comprises a jet pump 2, a packer 3 and a liner 4 mounted from top to bottom on a pipe string 1, wherein at least one active nozzle 6 and one mixing chamber 7 with a diffuser 8 are coaxially mounted in the housing 5 of the jet pump 2; made a step-through passage channel 11 with a seat 12 between the steps and channels 9 for supplying an active medium, channels 10 for supplying a pumped medium from the well, the latter being in communication with a step-through passage channel 11, which allows, if necessary, to establish additional additional active nozzles 6 and mixing chambers 7 with diffusers 8. In the stepped passage channel 11, it is possible to install the sealing unit 13 and the blocking insert 14 with the axial through channel 15 alternately. The active nozzle 6 of the jet pump 2 is communicated with one of the channels 9 for supplying the active medium a stepped passage channel 11 above the sealing unit 13, and a channel 10 for supplying a medium pumped out of the well is in communication with a stepped passage channel 11 below the sealing unit 13. The blocking insert 14 is made with bypass bubbled holes 16 communicating with the channels 10 for supplying pumped out fluid channels 9 and active fluid. Bottom on the blocking insert 14 installed autonomous devices 17 for recording physical parameters of the well, in particular pressure and temperature. The axial through channel 15 of the blocking insert 14 is stepped with a seat 18. Below the last (18) in the axial through channel 15, a support shear ring 19 is installed, with a stop in which the pipe 20 s is axially movable in the initial upper position in the through channel 15 bypass windows 21, and the outer surface of the pipe 20 is made with an annular ledge 22, and the bypass holes 16 of the blocking insert 14 are blocked by the pipe 20, and after the entrance to the pipe 20 is blocked, the ball 23 dropped into the pipe string 1 and a cut of the shear support ring 19 with the displacement under the influence of the pressure of the active medium on the ball 23 of the nozzle 20 to the lower position with the emphasis of the annular protrusion 22 in the seat 18 of the axial through channel 15 and due to this the bypass windows 21 of the nozzle 20 and the bypass holes 16 of the blocking insert 14 through the last channel 10 for supplying a pumped medium is communicated with the internal cavity of the pipe string 1 below the ball 23, and the channel 9 for supplying an active medium is communicated with the internal cavity of the pipe string 1 above the pipe 20, and blocking in the upper part the insert 14 is provided with an inner annular protrusion 24 for gripping the blocking insert 14 with a fishing tool. In the case of installing one active nozzle 6 and one mixing chamber 7 with a diffuser 8, the outlet from the remaining channels 9 for supplying the active medium is closed by plugs 28.

The operation of the downhole jet installation consists in assembling the pipe string 1 in the following sequence: jet pump 2, packer 3 and liner 4 are installed from top to bottom on pipe string 1. When lowering, the packer 3 is installed above the roof of the producing formation 25. After this, unpacking is performed packer 3 and make a descent into the well on a wireline cable 26 or wire passed through the sealing unit 13 of the logging tool 27. The sealing unit 13 is installed on the seat 12 in the stepped passage channel 11 st uynogo pump 2, wherein the logging tool 27 disposed in the zone of the productive formation 25. During lowering the logging tool 27 is recorded baseline values of the physical fields of rocks, for example of the thermal field along the borehole. Then, by supplying an active working medium 6 to the active nozzle 6 with a jet pump 2, a depression is created on the reservoir 25, draining it in this way, and 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 registration by means of a logging cable or wire 26, the logging device 27 is moved along the wellbore, including the producing formation 25. Then, the logging device 27 is removed from the well together with the logging cable lem or wire 26 and the sealing unit 13 and install in the passage channel 11 of the jet pump 2 a blocking insert 14 with autonomous devices 17 and inserted into the pipe 20, thus separating the inner cavity of the pipe string 1 and the space surrounding the pipe string 1. Then carry out the injection into the reservoir 25 chemical reagents or hydraulic fracturing fluid with proppant and drop into the pipe string 1 a ball 23 which is placed on the pipe 20 and thus block the axial through channel 15 of the blocking insert 14. By feeding d by the pressure of the active medium, for example, a liquid or gaseous medium, into the pipe string 1 and applying pressure of this medium to the ball 23, the support shear ring 19 is cut off and the pipe 20 is moved to the lower position, thereby communicating through the combined bypass windows 21 and the bypass openings 16 channel 10 supply of the medium pumped out from the well with a pipe string 1 below the ball 23 and simultaneously freeing the entrance to the channels 9 of supplying the active medium above the pipe 20 with the ball 23. By supplying the active working medium to the active nozzle through the pipe string 1 under pressure 6 jet pump 2 pump 25 products of the reaction of chemicals or hydraulic fracturing with residues of proppant from the reservoir, then carry out the active working medium into the active nozzle 6 jet pump 2 drain the reservoir 25 with a phased creation of increasing values of depression on the reservoir 25, registering at each of them bottomhole pressure, well flow rate, composition and physical parameters of the fluid coming from the formation by means of autonomous devices 17. Next, a blocking insert 14 is removed and elements 17 and lift jet pump 2 to the column pipe 1, the packer 3 and the shank 4. Then lowered into the well on a pipe string 1 pump for extracting the fluid from it (not shown) and then start to work well.

The present invention may find application in the oil industry for testing and development of oil and gas wells, as well as in other industries where various media are produced from wells.

Claims (2)

1. The method of operation of a downhole jet installation, which consists in assembling a pipe string in the following sequence: a jet pump, a packer and a liner are installed from top to bottom on the pipe string, after which the assembly is lowered into the well, the packer being placed above the top of the reservoir , carry out the unpacking of the packer and make a descent into the well on a wireline or wire, passed through the sealing unit, of the logging device, and the sealing unit is installed on the seat in the stupa a stepped passage channel of the jet pump, and the logging tool is located in the zone of the reservoir, while during the descent, the background values of the physical fields of rocks, in particular thermal fields along the borehole, are recorded by the logging tool by applying an active working medium to the active nozzle create depression on the reservoir and thus drain the reservoir, and then when the jet pump is running, the current values of the physical fields of the rocks are recorded and well into the well of the formation fluid, and during registration by means of a logging cable or wire, the logging tool is moved along the wellbore, including the producing formation, then the logging tool is removed from the well together with the logging cable or wire and the sealing assembly and installed in the stepped passage channel of the jet pump blocking insert with autonomous devices and a nozzle inserted into it and thus divide the internal cavity of the pipe string and the space surrounding the a pipe string, after which chemical reagents or hydraulic fracturing fluid with proppant are injected into the reservoir and a ball is dropped into the pipe string, which is placed on the pipe, thus blocking the axial through channel of the blocking insert, by cutting the support shear under the pressure of the active medium into the pipe string. ring and transfer the nozzle to the lower position, thus communicating the bypass windows of the nozzle with the supply channel of the medium pumped out from the well below the ball and simultaneously freeing the entrance to the asset supply channels medium above the nozzle, after which the active working medium is fed under pressure through the pipe string into the active nozzle of the jet pump and pumped from the reservoir of the reaction products of chemicals or hydraulic fracturing with residues of proppant, and then carried out by supplying the active working medium to the active nozzle of the jet pump formation drainage with the phased creation of increasing values of depression per formation, recording downhole pressure, well production rate, composition and physical parameters at each of them it from the fluid reservoir by means of autonomous devices installed under the blocking insert, and then a blocking insert with stand-alone devices and a pipe string with a jet pump, a packer and a liner are lifted to the surface. 2. A downhole jet installation comprising a jet pump, a packer and a liner mounted top down on a pipe string, wherein at least one active nozzle and one mixing chamber with a diffuser are coaxially mounted in the jet pump housing, and a stepped passage channel with a landing the place between the steps and the channels of the active medium supply and the channels of the medium pumped out from the well, communicated with it above and below the seat, respectively, in the stepped passage channel, the possibility of alternating installation of the sealing assembly and the blocking insert, while the blocking insert is made with an axial through step channel with a seat and bypass holes through which the supply channels of the medium pumped out from the well and the supply channels of the active medium are in communication with the axial through channel of the blocking insert, bottom on the blocking insert Autonomous devices have been installed to record the physical parameters of the well, in particular pressure and temperature, below the seat in the axial through channel of the blocking a support shear ring is installed, with an emphasis on which, in the initial upper position in the axial through channel, it is mounted with the possibility of axial movement and overlapping of its bore with a pipe with overflow windows being thrown into the pipe string, the outer surface of the pipe being made with an annular ledge, and overflow openings the blocking inserts are blocked by the nozzle, and after dropping the ball, blocking the nozzle, cutting the shear support ring and shifting the nozzle to the lower position with an annular stop protrusions into the seat of the axial through channel through the bypass windows of the nozzle and the bypass holes of the blocking insert the channels for supplying the pumped medium are communicated with the inner cavity of the pipe string below the ball, and the channels of the supply of the active medium are communicated with the internal cavity of the pipe string above the pipe, and in the upper part of the blocking insert inner ring protrusion for gripping the blocking insert with a fishing tool.

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