RU2362914C2 - Facility for treatment and survey of wells - Google Patents

Abstract

FIELD: oil and gas production.

SUBSTANCE: invention refers to oil and gas producing industry. The facility consists of funnel 2 with tail piece 3, of packer 4 with central channel 5 and jet pump 6 assembled on flow string 1 from below upward. In case 7 of pump 6 there are coaxially installed active nozzle 8 and chamber of mixing 9, also there is made channel 10 of active medium supply, channel 11 of supply of medium pumped off the well and central stepped through channel 12 with seat 13. Back valve 29 is installed in channel 11. Blocking insertion 16 with upper 17 and lower 18 side openings is assembled on seat 13 on friction sealing elements 15; the insertion is designed to perform limited displacement from above. Stepped through channel 19 is made in insertion 16, wherein between openings 17 and 18 on seat 20 there is foreseen installation of sealing unit 21 with axial channel 22 for logging cable 23 and for a depressing insertion. Receiver-converter 24 of physic fields is assembled on cable 23 below unit 21. Unit 21 and the depressing insertion are installed in insertion 16 on friction sealing elements 28. At end low position of insertion 16 opening 17 is conjugated with channel 10, while opening 18 is conjugated with channel 11. An output of pump 6 is connected to annular space 30 of the well. Friction force between functional insertion and insertion 16 exceeds friction force between insertion 16 and case 7 of the pump.

EFFECT: object of invention is to increase efficiency and reliability of facility.

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Description

The invention relates to the oil and gas industry, and in particular to devices for processing and researching wells.

A device for studying the formation during drilling / A.s. USSR No. 653386, IPC E21B 49/00, publ. 03/25/79 /, comprising a housing located on the drill string, a packer, a submersible jet pump, a sampler, the drill string being provided with a nozzle with check valves forming an annular cavity with the housing, and a jet pump with a central passage channel in which a spring-loaded shut-off sleeve with an axial and radial channels mounted in an annular cavity above the check valves.

The disadvantage of this device is that the spring return of the sleeve to its original position when contaminants of contact surfaces are present in the well can jam the sleeve, which reduces the reliability of the device. Without the use of sealing elements, the sleeve may not provide reliable sealing of the tube space during the injection of reagents under high pressure. The process of tightly fitting the shut-off relief valve, combined with the sampler, onto the sleeve and subsequent stalling to raise it reduce the reliability of the device, especially when multiple alternating injections of reagents into the formation are required, followed by drainage by the jet pump.

A device for well development and processing / A.s. is also known. USSR No. 874995, IPC Е21В 43/18, Е21В 43/27, publ. 10.26.81 /, including a housing with an axial channel and a seat for a throttle valve, a packer mounted on the housing above the seat of the jet pump, the mixing chamber of which is in communication with the axial channel of the housing, and a shut-off element installed in the mixing chamber of the jet pump and made in the form of destructible valve.

This device for the development and treatment of wells allows the treatment of the formation with chemical reagents followed by its drainage by a jet pump. However, the processing pressure of the chemicals is limited by the strength of the valve being destroyed, which reduces the reliability of the device. Also, this device does not allow to obtain reliable data during the depression on the reservoir during its study using a wireline cable and a receiver-transducer of physical fields. When the formation is drained by a jet pump, due to the lack of a check valve in it, an unexpected stop of the pump unit on the surface disrupts the process of extracting the formation fluid, and the working fluid inevitably enters the productive formations, impairing their reservoir properties.

Known selected as the closest analogue downhole jet unit for acid treatment of the formation / RU 2206800, IPC F04F 5/02, publ. 2003.02.22 / containing an inlet funnel with a liner mounted on the pipe string from bottom to top, a packer with a central channel made therein, and a jet pump, in the housing of which an active nozzle and mixing chamber are coaxially mounted, as well as an active medium supply channel and a pumped-out supply channel from the well of the medium and a stepped passage channel with a seat between the steps, while in the stepped passage channel it is possible to install a sealing unit that is movably placed on a wireline cable or a wire above the tip for connecting the receiver-transducer of physical fields, functional inserts: blocking with a through passage channel, depression and inserts for recording reservoir pressure recovery curves in the under-packer space of the well with a sampler and a stand-alone device, and the blocking insert can be movably placed on a logging cable or a wire above the tip with an ultrasound emitter connected to it, the output of the jet pump is connected to the annulus of the wells s, the nozzle of the jet pump through the channel for supplying the active medium is connected to the inner cavity of the pipe string above the sealing unit and the channel for supplying the medium pumped out of the well is connected to the internal cavity of the pipe string below the sealing unit.

This downhole jet installation allows you to perform reservoir studies on the depression and to process it with chemical reagents. However, to perform the indicated operations, it is necessary to replace the sealing unit with a blocking insert, which increases the execution time due to the descent-lifting of the inserts and reduces the reliability of the equipment.

The objective of the invention is to increase the productivity and reliability of the device.

The problem is solved due to the fact that in the device for processing and researching wells containing a funnel mounted on the pipe string from bottom to top, a packer with a central channel and a jet pump with a stepped passage channel with a seat between the steps, in which a blocking insert with a through through passage, in the housing of the jet pump, it is possible to install functional inserts: a sealing assembly with a receiver-converter of physical fields and a depression woks with a sampler and an autonomous pressure gauge, an active nozzle and a mixing chamber are installed, and a channel for supplying the active medium to the nozzle is provided, which makes it possible to connect the nozzle to the internal cavity of the pipe string above the functional insert, and a channel for supplying the medium pumped out of the well, which makes it possible to connect to the internal the cavity of the pipe string below the functional insert, the outlet of the jet pump is connected to the annulus of the well, according to the invention, in the channel for supplying a pumped medium The non-return valve is installed, in the blocking insert installed with the possibility of axial displacement limited from above, the upper and lower side windows are made, which are combined in its lowermost position respectively with the supply channel of the active medium and the supply channel of the pumped medium, the through passage channel of the blocking insert is made stepwise with a seat for installation between the side windows of the functional insert and contains friction sealing elements to ensure the tightness of the installation blocking in rates in the jet pump housing and the functional insert in the blocking insert, and the friction force between the functional insert and the blocking insert is greater than the friction force between the blocking insert and the jet pump body.

Figure 1 shows a longitudinal section of the described device for processing and research wells with a sealing unit, figure 2 is a longitudinal section of a device with a depression insert.

A device for processing and researching wells includes an inlet funnel 2 with a liner 3 mounted on a pipe string 1 from bottom to top, a packer 4 with a central channel 5 made therein and an jet pump 6, in the housing 7 of which an active nozzle 8 and a mixing chamber 9 are coaxially mounted a channel 10 for supplying an active medium, a channel 11 for supplying a medium pumped out of the well, and a central step passage channel 12 with a seat 13, on which it is possible to move on friction units with a guide pin 14, which is limited from above otnitelnyh elements 15 mounted locking insert 16 to the upper 17 and lower 18 lateral windows. In the blocking insert 16, a stepped passage channel 19 is made, in which between the windows 17 and 18 on the seat 20 it is possible to place functional inserts: a sealing assembly 21 with an axial channel 22 for a wireline cable 23, on which a receiver-transducer 24 is located below the sealing assembly 21 physical fields (Fig. 1), and a depression insert 25 with a sampler 26 and an autonomous pressure gauge 27 (Fig. 2). The sealing assembly 21 and the depression insert 25 are installed in the locking insert 16 on the friction sealing elements 28. With the extreme lower position of the locking insert 16 in the passage channel 19, the window 17 is aligned with the channel 10 for supplying an active medium, and the window 18 is aligned with the channel 11 for supplying a pumped medium, in which the check valve 29 is installed. The output of the jet pump 6 is connected to the annulus 30 of the well. The friction force between the sealing unit 21 (depressive insert 25) and the blocking insert 16 is controlled by pressing the nut 31 of the sealing unit 21 and the nut 32 of the depressant insert 25.

A device for processing and research of wells works as follows.

On the pipe string 1, a funnel 2 with a liner 3, a packer 4 and a jet pump 6 are lowered into the well, in the housing 7 of which a locking insert 16 is installed on the friction sealing elements 15 in the central passage channel 12 in the lower position 13, the upper side window 17 which is combined with the channel for supplying the active medium 10, and the lower window 18 is with the channel 11 for supplying a pumped medium. The packer 4 is brought into working position, separating the annular space 30 of the well into above-packer and under-packer. On the logging cable 23, the sealing unit 21 and lower its receiver-transducer of physical fields 24 are lowered into the inner cavity of the pipe string 1 and the sealing node 21 is located on the seat 20 of the step channel 19, and the receiver-transformer of physical fields 24 is lower than the jet pump the studied zone of the reservoir.

The sealing assembly 21 with friction sealing elements 28 divides the inner space of the pipe string 1 and at the same time, due to the presence of an axial channel 22, does not interfere with the movement of the logging cable 23. In the well, the receiver-transducer of physical fields 24 performs background measurements of pressure, temperature and other physical fields in space to the bottom of the well.

After that, the working medium is supplied through the pipe string 1 to the nozzle 8 of the jet pump 6, which allows starting pumping out of the formation fluid from the sub-packer zone of the well by the jet pump 6. The reservoir fluid through the under-packer space and the channel 11 for supplying the pumped medium through the check valve 29 enters the inlet of the mixing chamber 9, where it is mixed with the active working medium and then through the annulus 30 of the well above the packer 4, it flows from the well to the surface.

During the pumping out of the formation fluid, several values of the depression on the reservoir are successively generated and the profile of the inflow of the formation fluid, the change in the bottomhole pressure, temperature, flow rate and other parameters along the studied interval of the formation are recorded on each depression by the receiver-converter of physical fields 24. At the same time, having created the necessary value of depression, the flow of active medium pipes through the column 1 is stopped, stopping the operation of the jet pump 6. The hydrostatic pressure of the liquid column above the jet pump 6 closes the check valve 29, separating the over-packer and under-packer zones. Then, to obtain more reliable information, the necessary number of times at various speeds the receiver-transducer of physical fields 24 is moved up and down along the studied interval of the formation.

The presence of a check valve 29 allows you to stop the operation of the jet pump 6 and, thereby, to ensure the drawing of the wireline 23 through the sealing unit 21 without the influence of excessive pressure, which reduces the pulling force of the wireline 23 and increases the reliability.

Upon completion of the complex of research works, the sealing assembly 21 and the receiver-transducer of physical fields 24 are removed from the well on the logging cable 23. Moreover, due to the fact that the friction force between the sealing assembly 21 and the blocking insert 16 is greater than the friction force between the blocking insert 16 and the housing 7, first, the blocking insert 16 moves to the upper position, is fixed in it by means of friction sealing elements 15 and blocks the channel 10 for supplying the active medium and channel 11 for supplying the pumped out of the well cf rows, and only then the sealing assembly 21 out of the locking insert 16.

After that, the chemical composition is injected into the reservoir for its processing. In this case, before injection of the chemical composition, the packer 4 can be transferred to the transport position, after the chemical composition is pumped into the pipe string 1 to the level of the funnel 2, the packer 4 is brought into the working position and the chemical composition is pressed into the reservoir.

Upon completion of chemical stimulation of the formation, it is possible to perform repeated studies of the formation in depression using a sealing unit 21 and a receiver-transducer of physical fields 24 on the wireline 23 or conduct hydrodynamic tests of the formation in order to determine its current filtration characteristics and parameters of the formation fluid using a depressant insert 25 with a sampler 26 and an autonomous pressure gauge 27.

To do this, a depression insert 25 with a sampler 26 and an autonomous pressure gauge 27 is lowered along the pipe string 1 until the passage through the step channel 19 is blocked. By supplying the working medium to the pipes 1, an excess pressure is created in them, under the influence of which the blocking insert 16 is first moved to the lower position and then landing depressive insert 25 on the seat 20 of the passage channel 19. Depression insert 25 divides the pipe string 1 into the upper zone, communicated through the side window 17 of the locking insert 16 with the channel 10 as the active medium of the jet pump 6, and a lower zone messages through a side window 18 of the blocking insert 16 with inlet port 11 pumped out of a well. An active liquid medium enters the nozzle 8 of the jet pump 6, which entrains the formation fluid from the well along with the reaction products resulting from interaction with chemical reagents that were previously pumped into the formation.

After reducing the pressure in the under-packer space of the well to the calculated or obtaining the planned volume of the well fluid, the operation of the jet pump 6. The hydrostatic pressure check valve 29 closes and the formation pressure recovery curve is recorded.

The shutdown of the jet pump, including an unexpected one, does not lead to disruption of the research process, and the active medium does not repress the formation and does not contaminate it with particles carried out during drainage by the jet pump.

Thus, the installation of the check valve 29 in the channel 11 for supplying the pumped-out medium from the well increases the reliability of the device and the quality of the work performed. The use of friction sealing elements 15, in addition to sealing the tube space during the injection of chemicals under high pressure, allows the blocking insert 16 to be moved from one working position to another due to the difference in the friction force between the functional insert 21 (25) and the blocking insert 16 and the friction force between the blocking insert 16 and the housing 7 of the jet pump.

By saving time spent on changing equipment and necessary for carrying out one or another operation: exploration of the space before the bottom of the well in depression using a receiver-transducer of physical fields, exposure to the formation with chemical reagents, repeated studies of the formation in depression or hydrodynamic tests of the formation after chemical exposure, - increases the performance of the device. In addition, unlike the prototype, there is no need to use additional equipment to perform numerous descents and ascents of functional inserts, which also increases the efficiency of the proposed device.

Claims (1)

A device for processing and researching wells, comprising a funnel mounted on the pipe string from bottom to top, a packer with a central channel and a jet pump with a step-through passage with a seat between the steps, in which a blocking insert with a through passage is sealed, the possibility of a jet pump is provided installation of functional inserts: a sealing unit with a receiver-transducer of physical fields and a depression insert with a sampler and an autonomous pressure gauge, an active nozzle and a mixing chamber are installed, and a channel for supplying the active medium to the nozzle is provided, which makes it possible to connect the nozzle to the internal cavity of the pipe string above the functional insert, and a channel for supplying the medium pumped out of the well, which allows connecting to the internal cavity of the pipe string below the functional insert, the outlet of the jet pump is connected to the annulus of the well, characterized in that a check valve is installed in the channel for supplying the pumped medium, in the blocking insert, made with axial displacement limited from above, the upper and lower side windows are made, which are aligned in its lowermost position, respectively, with the active medium supply channel and the pumped medium supply channel, the through passage channel of the blocking insert is made stepwise with a seat for installing between the functional side windows inserts and contains friction sealing elements that ensure the tightness of the installation of the blocking insert in the jet pump housing and functional second insert in the locking insert, wherein the frictional force between the functional insert and the locking insert larger frictional force between the blocking insert and the housing of the jet pump.

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