RU2206800C1 - Down-hole jet plant for acidizing of formations - Google Patents

Abstract

FIELD: oil and gas industry. SUBSTANCE: plant includes inlet funnel with tail, packer with central passage and jet-type pump assembled on pipe string from beneath. Active nozzle and mixing chamber are mounted uniaxially if pump body. Plant also has passage to feed active medium, passage for medium discharged from well and stepped flow passage with location seat between steps, sealing unit moving along logging cable or wire above tip for connection of receiver-converter of physical fields and functional inserts ( blocking insert with through flow passage, depression inset with autonomous device and insert to record curves of restored formation pressure in space above packer in well with sampler, autonomous device and ultrasound emitter. EFFECT: enhanced functional reliability. 5 dwg

Description

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

 A well-known jet installation including a jet pump installed in a well on a tubing string and a geophysical device located below the jet pump in a tubing string (see RU 2059891 C1, F 04 F 5/02, 05/10/1996).

 This downhole jet installation allows pumping out various produced media, such as oil, from a well while processing the produced environment and the near-wellbore zone of the formation, however, this installation does not provide for the possibility of installing various functional inserts, which in some cases narrows the scope of use of this installation.

 The closest to the invention in technical essence and the achieved result is a downhole jet installation containing a packer, a pipe string and a jet pump, in the housing of which an active nozzle with a mixing chamber is installed and a passage through is made with a seat for installing a sealing unit with an axial channel, the installation is equipped with a transmitter and a receiver-converter of physical fields located on the input side of the jet pump of the medium pumped out of the well and mounted on the cable; m through the axial channel of the sealing unit, the supply channel of the active medium is connected to the pipe string above the functional insert and the input of the supply channel of the pumped medium of the jet pump is connected to the pipe string below the functional insert, and the output of the jet pump is connected to the annulus of the pipe string (see patent RU 2176336 C1, CL F 04 F 5/02, 11/27/2001).

 This jet unit allows for various technological operations in the well below the level of the jet pump installation, including by acidizing the reservoir and creating a pressure differential above and below the functional insert. However, this installation does not allow full use of its capabilities, which is associated with suboptimal size ratios of functional inserts, in particular, blocking inserts of a downhole jet installation.

 The problem to which the present invention is directed is to optimize the sizes of various structural elements of the installation and thereby increase the reliability and productivity of a downhole jet installation.

This problem is solved due to the fact that the downhole jet installation contains an inlet funnel with a liner mounted on the pipe string from bottom to top, a packer with a central channel made in it, and a jet pump, in the casing of which the active nozzle and mixing chamber are coaxially mounted, and the channel is made the supply of the active medium, the channel for supplying the medium pumped out from the well and a step-through passage channel with a seat between the steps, while it is possible to install a sealant in the step passage channel unit, which is movably placed on a logging cable or wire above the tip for connecting the receiver-transducer of physical fields, as well as 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 an autonomous device moreover, the blocking insert can be movably placed on the wireline or wire above the tip with an ultrasound emitter connected to it pointing, the outlet of the jet pump is connected to the annulus of the well, 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 assembly, and the channel for supplying the medium pumped out of the well is connected to the inner cavity of the pipe string below the sealing assembly, while the functional inserts formed in the upper part with a device for their installation and removal from the borehole, the diameter D ₁ of the through flow channel of the locking insert is not less than 0.3 diameter D ₂ st -stage flow channel of the jet pump is below the seat, the diameter D ₃ of the wireline or wire is not less than 2.0 mm smaller than the diameter D ₁ of the through flow channel blocking insert, functional inserts largest diameter smaller than the internal diameter D ₄ of the pipe string located above inkjet pump, not less than 1.0 mm, and the length of each of the functional inserts is not less than their largest diameter.

Analysis of the operation of a downhole jet installation showed that the reliability and productivity of the installation can be improved by performing various structural elements of the installation, in particular functional inserts, with strictly defined dimensions. It was found that the implementation in the upper part of the functional inserts with a device for their installation and extraction from the well allows you to control the installation process of the insert in the passage channel of the jet pump housing to the seat. In addition, in the case of each of the functional inserts with a length not less than their largest diameter, it allows to increase the reliability and tightness of the installation of the functional insert in the passage channel of the jet pump housing. Reducing the likelihood of installation on a seat with a bias allows you to prevent possible flow of medium through the seat, as well as the disruption of the functional insert from the seat with subsequent disruption of the entire installation. In addition, the possible jamming of the inserts in the pipe string and in the jet pump housing during the installation or removal of the functional inserts is prevented. The implementation of the largest diameter of the functional inserts less than the inner diameter D _{4 of} the pipe string located above the jet pump by at least 1.0 mm is also aimed at preventing the sticking of devices running along the column of pipes. Equally important is the diameter D _{1 of the} through passage of the blocking insert, which is at least 0.3 of the diameter D _{2 of the} stepped passage of the jet pump housing below the seat.

The blocking insert solves the problem of supplying a liquid medium through a pipe string to the under-packer zone and at the same time prevents this medium from entering the annulus of the well and into the jet pump. In this regard, the blocking insert experiences significant pressure drops and at the same time should create as little hydraulic resistance as possible. In the course of research, an acceptable ratio was established between the hydraulic resistance and the mechanical characteristics of the blocking insert. In addition, it is necessary to ensure the supply of acidic solution to the reservoir and at the same time to ensure the treatment of the reservoir, for example, using an ultrasonic emitter. In this case, it is important to ensure a size relationship between the diameter D _{3 of the} wireline or wire and the diameter D _{1 of the} through passage of the blocking insert. The optimal result was achieved when the diameter D _{3 of the} wireline or wire was not less than 2.0 mm smaller than the diameter D _{1 of the} through passage of the blocking insert.

 Thus, the achievement of the objective of the invention has been achieved - optimizing the size of the structural elements of the installation and thereby improving the reliability and performance of the downhole jet installation.

 In FIG. 1 shows a longitudinal section of the described downhole jet unit with a sealing assembly, FIG. 2 is a longitudinal section of a unit with a blocking insert, FIG. 3 is a longitudinal section of a unit with a blocking insert and an ultrasound emitter, and FIG. 4 is a longitudinal section of a unit with a depression insert and figure 5 is a longitudinal section of the installation with an insert for recording the recovery curve of reservoir pressure.

The downhole jet installation comprises an inlet funnel 2 with a liner 3 mounted on the pipe string 1 from bottom to top, a packer 4 with a central channel 5 made therein, and a jet pump 6, in the housing 7 of which the active nozzle 8 and mixing chamber 9 are coaxially mounted, and the channel is also made the supply of the active medium 10, the channel 11 for supplying the medium pumped out of the well and the step-by-step passage channel 12 with a seat 13 between the steps, while in the step-by-step passage channel 12 it is possible to install a sealing assembly 14, which under clearly placed on a wireline or wire 15 above the tip 16 for connecting the receiver-transducer of physical fields 17, and functional inserts: blocking 18 with a through passage channel 19, depression 20 with a stand-alone device 21 and inserts for recording recovery curves of reservoir pressure in the under-well space of the well 22 with a sampler 23 and a stand-alone device 27, and the blocking insert 18 can be movably placed on a wireline or wire 15 above the tip 16 with a connected radiation ultrasonic oil 26, the output of the jet pump 6 is connected to the annulus of the well (pipe string 1), the nozzle 8 of the jet pump 6 is connected through the channel for supplying the active medium 10 to the internal cavity of the pipe string 1 above the sealing unit 14 and the channel for supplying the medium 11 pumped out of the well is connected the inner cavity of the tube 1 below the sealing assembly 14, wherein the functional inserts 18, 20 and 22 are formed in the upper part 24 with a device for their installation and removal from the borehole, the diameter D ₁ of the through passageway 19 block ruyuschey insert 18 is not less than 0.3 diameter D ₂ the stepped passageway 12 of the body 7 of the jet pump 6 below the seat 13, the diameter D ₃ of the wireline or wire 15 is not less than 2.0 mm smaller than the diameter D ₁ of the through passageway 19 blocking insert 18, the largest diameter of the functional inserts 18, 20 and 22 is less than the inner diameter D _{4 of} the pipe string 1 located above the jet pump 6, not less than 1.0 mm, and the length of each of the functional inserts 18, 20 and 22 is not less their largest diameter.

 In the well, a jet pump 6 and a packer 4 and an inlet funnel 2 with a liner 3 are installed below the jet pump 6 in the pipe string 1. Then, the packer 4 is unpacked, which allows the well space to be separated. Next, the receiver-transducer of physical fields 17 is connected to the tip 16 of the cable or wire 15 and the sealing assembly 14 is mounted on the cable or wire 15 to allow the reciprocating movement of the wireline or wire 15 and this assembly is lowered into the internal cavity of the pipe string 1. In the process descent conduct background measurements of temperature and other physical fields from the mouth to the bottom of the well. After that, the liquid working medium is fed into the active nozzle 8 of the jet pump 6, which allows pumping 6 to start pumping from the sub-packer zone of the well of the formation medium. Thus, drainage of the producing formation 25 and cleaning of the formation 25 from the mud filtrate are performed. The parameters in the sub-packer zone of the well are controlled using the receiver-transducer of the physical fields 17, and at the same time, various depressions on the formation are gradually created, bottom-hole pressures, the composition of the fluid coming from the reservoir, and the flow rate of the well are recorded.

 Then, when the jet pump 6 is operating at a given depression value, the receiver-converter of physical fields 17 is moved to the reservoir 25 along the axis of the well in the zone of the reservoir 25 and the inflow profile, parameters of the formation fluid, bottomhole pressure, as well as changes in physical fields in the reservoir 25 are recorded. at the same time, it is possible to carry out the indicated operation several times both with the above specified value of depression on the formation 25, and with a different value of depression on the formation 25. Then, the flow of ra eyes in the jet pump 6 and the receiver-transducer of physical fields 17 with the wireline or wire 15 and the sealing assembly 14 is removed from the well. After that, the pipe string 1 is lowered along the pipe string 1 and a blocking insert 18 with a through passage is inserted in the passage 12 to the seat 13 channel 19, blocking the blocking insert 18 in the jet pump 6 channel for supplying the active medium 10 and channel 11 for supplying the medium pumped out of the well. After that, the acid solution is injected into the reservoir 25 for processing. In this case, before the acid solution is pumped, the packer can be put into transport position, after the acid solution is pumped into the pipe string 1 to the level of the liner 3, the blocking insert 18 is removed, put on a wireline or wire 15, the ultrasound transducer 26 is connected to the tip 16, and the trigger is released ultrasound transducer 26 into the zone of the treated reservoir 25, and the blocking insert 18 is again installed in the passage channel 12 to the seat 13 and the packer 4 is unpacked, followed by by delivering an acid solution to the reservoir 25 and simultaneously treating the reservoir 25 with an ultrasound emitter 26.

 Then the blocking insert 18 and the ultrasound transducer 26 are removed, and the depressing insert 20 is installed in place of the blocking insert 18, separating the pipe string 1 into the upper zone in communication with the supply channel of the active medium 10 of the jet pump 6, and the lower zone in communication with the pumping supply channel 11 from a borehole medium. An active liquid medium is supplied to the nozzle 8 of the jet pump 6. The latter, flowing out of the nozzle 8 of the jet pump 6, entrains the formation fluid from the well along with the reaction products resulting from interaction with the solution that was previously pumped into the reservoir 25. After that, if necessary, re-installation of the insert 22 in the passage channel 12 is possible. for recording the pressure recovery curve or the sealing assembly 14 with placement of physical fields 17 in the formation zone of the receiver-transducer for the formation 25 study. After completion of the above well study and rabotke reservoir 25 is carried by the well exploration activities with installation in the pump well for pumping out fluid extracted therefrom.

 The present invention can be used in the oil and mining industries in testing and stimulating the influx of oil and gas wells at the stage of drilling or restoration.

Claims (1)

A downhole jet installation comprising an inlet funnel with a liner mounted on a pipe string from bottom to top, a packer with a central channel made therein, and a jet pump in which casing an active nozzle and a mixing chamber are coaxially mounted, as well as an active medium supply channel and a supply channel for pumping out wells 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 logging cable or 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 logging cable or wire above the tip with an ultrasound emitter connected to it, the output of the jet pump is connected to the annulus To the space of the well, the jet pump nozzle is connected to the inner cavity of the pipe string above the sealing unit through the active medium supply channel and the supply medium of the pumped-out medium is connected to the internal cavity of the pipe string below the sealing unit, while the functional inserts are made in the upper part with a device for installation and extraction from the well, the diameter D _{1 of the} through passage of the blocking insert is at least 0.3 of the diameter D _{2 of the} stepped passage of the housing of the jet pump below the seat, the diameter D _{3 of the} wireline or wire is not less than 2.0 mm less than the diameter D _{1 of the} through passage of the blocking insert, the largest diameter of the functional inserts is less than the inner diameter D _{4 of} the pipe string above the jet pump, not less than by 1.0 mm, and the length of each of the functional inserts is not less than their largest diameter.

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