UA73396C2 - Well jet unit - Google Patents

Abstract

An inventive jet device comprises a packer, a pipe column and a cradle in which chain ports are embodied and on which a jet pump is mounted in a body. Said body is provided with a channel for supplying an active medium to the nozzle, a channel for supplying a pamped-out medium, and a channel for evacuating the mixture of said mediums. The body also comprises a through channel embodied therein above the channel for supplying a pumped-out medium, connected thereto and used for arranging a scaling unit. Said sealing unit comprises channel for passing the pumped out medium of a cable and a channel for supplying the pumped out medium of the cable used for arranging instruments and equipment. The channel for supplying a pumped-out the active medium is connected to the dram ports and to the space around the pipe column by means of said ports. The channel for evacuating the mixture the mediums from the jet pump is connected to the internal space of tubes above the jet pump. The sealing unit is embodied in such a way that it makes it possible to arrange thereinside a mechanism for bringing in the well and extracting therefrom the body containing the jet pump. A threaded hole for connecting autonomous measuring instruments to the body is embodied in the lower part thereof.

Description

Description of the invention

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

There is a well-known well jet installation, which includes a jet pump installed in a well on a pump-compressor pipe string and a geophysical device placed below the jet pump in a pump-compressor pipe string (КИ 2059891 СТ1).

This installation allows for the pumping out of the well of various produced media, for example, 710 oil, with the simultaneous treatment of the produced media and the near-well zone of the formation, however, this installation provides for the supply of the working medium to the nozzle of the jet apparatus through a string of pipes in a row cases narrows the scope of use of this installation.

The closest to the invention in terms of technical essence and the result that is achieved is a well jet installation, which contains a packer, a column of pipes with a support, in which passage windows are made and on which a jet pump is installed in the housing 72, while in the housing the supply channel is made of the active medium into the nozzle of the jet pump, the channel for supplying the medium pumped from the well to the jet pump and the channel for removing the mixture of media from the jet pump, and in the housing above the supply channel for the pumped medium, a passage channel connected to the latter with a seat for installing the sealing unit is made, and in the unit sealing, an axial channel is made with the possibility of passing through it and a cable supply channel of the pumped medium for installation on it in the well below the jet pump of devices and equipment with the possibility of moving them along the wellbore when the jet pump is working or not |KO 2143597 С11.

This jet installation allows you to carry out various technological operations in the well below the level of the jet pump installation, including by reducing the pressure drop above and below the sealing unit. p. 22 However, this installation does not allow you to fully use its capabilities, which is due to suboptimal (3) ratios of the sizes of various structural elements of the well jet installation and the location of the jet pump housing that is not optimal for performing a number of tasks.

The problem to be solved by this invention is to optimize the location and size of various structural elements of the installation, and due to this, increase the reliability of the work of the well jet ee, 30 installation. Ge")

The specified task is solved due to the fact that the downhole jet installation contains a packer, a column of pipes with a support, in which passage windows are made and on which a jet pump is installed in the housing, while the following are made in the housing: a channel for supplying the active medium to the nozzle of the jet pump, a channel the supply to the jet pump of the medium pumped from the well and the channel for the removal of the mixture of media from the jet pump 35, in the housing above the pumped medium supply channel, a through channel connected to the last one is made - a channel with a landing place for installing the sealing unit, and an axial channel is made in the sealing unit with the possibility passing through it and the channel for the supply of the pumped medium of the cable for installation on it in the well below the jet pump of devices and equipment with the possibility of moving them along the borehole with the jet pump working or not, and according to the invention, the channel Z 740 for the supply of active medium in the nozzle of the jet pump is connected to the passage windows and through the latter to the space surrounding the column of pipes, the channel for removing the mixture of media from the jet pump is connected to the inner cavity of the pipes above the jet pump, the passage channel is made by Kk! with the possibility of installing in it, with the passage channel blocked, a device for delivering to the well and extracting the housing with a jet pump from it, and in the lower part of the housing of the jet pump, a hole with a screw for connecting to the 45 housing of the autonomous measuring equipment is made, while the outer diameter of the housing of the jet pump (0) and at least 1.0 mm smaller than the smallest inner diameter (04) of the pipe column, the diameter (05) of the axial channel of the sealing unit is at least 0.01 mm larger than the diameter (Oz) of the cable, and the diameter (04) of the channel of the pumped medium supply at least 2 mm larger than the diameter Oz of the cable, and sealing rings and a locking mechanism are installed on the body of the jet pump. (Те) 20 The analysis of the operation of the well jet installation showed that the reliability of the installation can be increased by a more optimal location in the body of the jet pump and the execution of various elements of the structure of the installation with strictly defined dimensions. In particular, it was established that the diameter of the pumped medium supply channel cannot be chosen arbitrarily. This is due to the fact that a too large diameter of the channels leads to a decrease in the strength of the installation, and a too small diameter of these channels leads to a decrease in the productivity of the jet pump. In this connection, it was established that the performance of the channel diameter

HF) supply of the pumped medium at least 2 mm larger than the diameter of the cable allows to pass into the jet pump the maximum possible amount of the pumped medium from the well with minimal hydraulic losses due to the performance of the jet pump. As for the upper limit, it is determined by the stronger characteristics of the design of the jet pump and, first of all, the body of the jet pump 60. In each specific case, this value is determined individually. During the operation of the installation, a study of various modes of the well is carried out. It is necessary to install and remove the housing with the jet pump in the pipe column. It was found that it is advisable to make the diameter of the jet pump housing at least 1.0 mm smaller than the smallest inner diameter of the pipe column, and on the housing of the jet pump, seal rings and a mechanism that fixes the position of the jet pump housing in the well relative to the support are installed. As a result, the possible jamming of the casing in the pipe string is prevented and the medium is prevented from flowing from the space above the casing into the underpacking space of the well. As mentioned above, during the operation of the installation, it is necessary to move the devices and equipment along the well on cables, and at the same time, it is necessary to minimize the flow of the medium through the axial

The channel of the sealing unit. This was achieved by making the diameter of the axial channel in the sealing unit at least 0.01 mm larger than the diameter of the cable on which the devices and equipment are installed. Making a slotted hole in the lower part of the jet pump housing allows you to install various independently operating measuring equipment on the housing, and due to this, it is possible to expand the range of research conducted in the well. 70 Thus, the achievement of the task set in the invention is achieved - optimization of the location and size of various structural elements of the installation and, due to this, an increase in the reliability of the downhole jet installation.

Figure 1 shows a longitudinal section of a well jet installation.

Fig. 2 shows a longitudinal section of a well jet installation with a device for delivering the well and extracting the casing with a jet pump installed instead of the 7/5 Sealing unit.

The proposed well jet installation includes a packer 1, a column of pipes 2 with a support 3, in which access windows 4 are made and on which a jet pump b is installed in the housing 5, while in the housing 5 are made: connected with access windows 4, a channel 7 for supplying the active medium in nozzle 8 of the jet pump 6 from the space surrounding the column of pipes 2, channel 9 of the medium pumped from the well to the jet pump 6 and channel 10 of the medium mixture from the jet pump 6 to the internal cavity of the pipes 2 above the jet pump b, and in the housing 5 above the channel 9 the supply of the pumped medium is connected with it a passage channel 11 with a seat 12 for installing the sealing unit 13 and in the sealing unit 13 an axial channel 14 is made with the possibility of passing through it and channel 9 for the supply of the pumped medium cable 15 for installation on it in the well below the jet pumps 6 devices and equipment 16 with the possibility of moving them along the trunk of St of the air well with the working or non-working jet pump 6. The passage channel 11 is made with the possibility of installing in it, with the overlap of the passage channel 11, the device 17 for delivering to the well and extracting the housing 5 with the jet pump 6 from it, and in the lower part of the housing 5 of the jet pump, a hole 18 with a screw for connecting to the body 5 of the autonomous measuring equipment 21 would be made, while the outer diameter of the body 5 of the jet pump 6 (0) Ge) is at least 1.0 mm less than the smallest inner diameter (04) of the pipe column 2, the diameter ( 02) of the axial channel 14 of the sealing assembly 13 is at least 0.01 mm larger than the diameter (O5) of the cable 15, and the diameter (0) and the channel 9 of the pumped medium supply is at least 2 mm larger than the diameter (Oz) of the cable 15, and "c on the body 5 of the jet sealing rings 19 and a locking mechanism 20 are installed on pump 6.

A column of pipes 2 with a packer 1 and support Z is lowered into the well and the packer 1 is placed above the productive well.

Зз5 stratum. Bring the packer 1 into the working position, disconnecting the well space surrounding the column of pipes 2. On the M cable 15, the housing 5 with the jet pump 6 and the sealing unit 13 is lowered into the column of pipes 2, and the devices and equipment placed below the housing 6 on the cable 15. The housing 5 with the jet pump 6 is fixed in the support C with the help of the fixing mechanism 20. The working medium, for example, water, saline solution, oil, etc., is pumped into the annular space surrounding the column of pipes 2. From the annular space, the working medium « 70 enters through the windows 4 and the channel / into the active nozzle 8 of the jet pump 6. Within a few seconds after pumping the working medium through the active nozzle 8, a steady jet is formed at its exit, which, and flowing out of the nozzle 8 , captures the environment surrounding it in the jet pump b, which causes a decrease in pressure "" first in the channel 9 of the supply of the pumped medium, and then in the underpacking space of the well, creating a depression on the productive layer. The magnitude of the pressure drop depends on the rate of passage of the working medium through the active nozzle 8, which, in turn, depends on the magnitude of the injection pressure -I of the working medium into the annular space of the well above the packer 1. As a result, the formation medium enters the pipe string 2 and through the channel 9 to the jet pump 6, where it is mixed with the working medium and the mixture of the medium due to the energy of the working medium flows from the well to the surface through the column of pipes 2. Under

Ge) during the pumping of the formation medium with the help of the equipment installed on the cable 15 and devices 16 5or control the parameters of the pumped formation medium, and also act on the productive formation about physical fields. Depending on the problem to be solved, it is possible to move devices and equipment 16 along

F well. If there is no need to install devices and equipment 16 on the cable 15 below the housing 5 of the jet pump 6, in the passage channel 11, instead of the sealing unit 13, a device 17 is installed and with its help, the installation and extraction of the housing 5 with the jet pump 6 and the autonomous measuring equipment 21, if the latter was installed on the case 5.

This invention can be used in the testing, development and operation of oil and gas condensate wells, as well as in their overhaul. name) 60 b5

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Claims (1)

Downhole jet installation, which contains a packer, a column of pipes with a support, in which there are access windows and on which a jet pump is installed in the housing, while the channel for supplying the active medium to the nozzle of the jet pump, the channel for supplying the medium pumped from the well to the jet pump are made in the housing and the channel for the removal of the mixture of media from the jet pump, and in the housing above the channel for the supply of the pumped medium, a passage channel connected to the latter with a seat for installing the sealing unit is made, and in the sealing unit, an axial channel is made with the possibility of passing through it and the channel for the supply of the pumped medium cable for installation on it in a well below 70 of a jet pump of devices and equipment with the possibility of moving them along the wellbore when the jet pump is working or not, which differs in that the channel for supplying the active medium to the nozzle of the jet pump is connected to the access windows and through o stationary with the space surrounding the column of pipes, the channel for removing the mixture of media from the jet pump is connected to the internal cavity of the pipes above the jet pump, the passage channel is made with the possibility of installing in it with overlapping 75 the passage channel of the device for delivery to the well and extracting the housing with the jet pump from it, and in the lower part of the housing of the jet pump, a hole is made with a thread for connecting to the housing of the autonomous measuring equipment, while the outer diameter of the housing of the jet pump (0) is at least 1.0 mm smaller than the smallest inner diameter (05) of the pipe column, diameter (05) of the axial channel of the sealing unit is at least 0.01 mm larger than the diameter (O5z) of the cable, and the diameter (O;) of the pumped medium supply channel is at least 2 mm larger than the diameter (03) of the cable, and sealing rings and a fixing mechanism. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 7, 15.07.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. (5) (Se) (o) (ze) (ze) and - - and? -i (95) (95) se) 4) ime) 60 b5