RU2143597C1 - Well jet plant (versions) - Google Patents

Abstract

FIELD: fluidics. SUBSTANCE: jet pump is located in housing mounted on support in string. Housing is provided with passage for delivery of medium being pumped out and passage for discharge of mixture of media from jet pump to casing string- borehole annulus of well. Outlet of media mixture discharge passage is connected with bypass ports; sealing unit located above jet pump is mounted in seat in housing above supply passage. Sealing unit is provided with flow-through passage for laying the cable for instruments and equipment located below jet pump for their motion through borehole. According to another version, sealing unit is located in supply passage above jet pump. EFFECT: extended field of application of jet plant. 3 cl, 2 dwg

Description

 The invention relates to the field of inkjet technology, mainly to inkjet apparatus for lifting various fluids, mainly oil, from wells.

 A multi-nozzle jet apparatus is known, comprising a housing with active nozzles arranged around it and an annular insert with a central channel and side channels coaxial with active nozzles made in the form of mixing chambers and diffusers, the ejector being provided with a ball valve and made in the central channel of the insert seat and ball valve installed in the latter (see, SU, copyright certificate, 1545011, cl. F 04 F 5/02, 1990).

 This jet device allows you to expand the scope of its use by providing the possibility of exposure to the formation of explosion energy, however, this jet device does not allow work in the well during operation of the jet device, which narrows the scope of its use.

 The closest to the invention in terms of technical essence and the achieved result is a downhole jet installation containing a tubing string with a support in which overflow windows are made and a jet pump installed in the tubing string (see SU, copyright certificate, 1321942, cl. F 04 F 5/02, 1987).

 In this downhole jet installation, it is possible to install in the well by lowering and removing from the well the jet pump without lifting the pipe string. However, this jet installation does not allow to carry out work in the well below the jet pump without removing the jet pump from the well, which leads to an increase in the time for various work in the well and narrows the possible field of research in the well.

 The problem to which the present invention is directed, is to expand the field of use of a downhole jet installation by providing the possibility of carrying out technological operations in the well below the installation level of the jet pump.

 The specified technical problem is solved due to the fact that in a downhole jet installation containing a tubing string with a support, in which overflow windows are made, and a jet pump installed in the pipe string, the jet pump is placed in a housing installed in the pipe string on a support, and in the housing there is a channel for supplying a pumped medium to the jet pump and a channel for discharging the mixture of media from the jet pump into the annulus of the well, and at the outlet the channel for discharging the mixture of media is in communication with bypass windows, and in pus above the channel for supplying the pumped-out medium in the socket communicated with the last installed sealing unit located above the jet pump and in the sealing unit made a passage channel for passing through the last and channel for supplying the pumped-out medium cable for installation in the well below the jet pump of instruments and equipment with the possibility of their movement along the wellbore.

 In another embodiment of the downhole jet installation, the problem is solved due to the fact that the downhole jet installation contains a tubing string with a support in which bypass windows are made and a jet pump installed in the tubing string, the latter being housed in a housing installed in the tubing string on a support, and in the housing there is a channel for supplying a pumped medium to the jet pump and a channel for discharging the mixture of media from the jet pump into the annulus of the well, while at the outlet the channel for discharging the mixture with the unit is in communication with the bypass windows, and in the case an additional sealing unit is installed located in the channel for supplying the pumped medium above the jet pump and in the sealing unit there is a passage channel for passing through the last and the channel for supplying the pumped medium cable for installation of instruments and equipment in the well below the jet pump with the possibility of their movement along the wellbore.

 As the studies showed, these downhole jet units allow you to install and remove various equipment in the well in the space below the jet pump, and this can be done both in the stop mode of the jet pump and in the operation mode of the jet pump, which in some cases allows you to intensify the work instruments lowered into the well, in particular, it is possible to conduct various geophysical surveys in the mode of set values of depression, to conduct an impact on the reservoir s ultrasound or other physical fields, carry out processing in a dynamic or pulsating mode.

 In addition, it is possible to place all parts that may fail, namely, the sealing unit and the jet pump, so that they can be quickly replaced, which dramatically reduces the possible downtime of the well and eliminates the rise of the pipe string. The passage channel of the sealing unit in alignment with the channel for supplying the pumped-out medium allows you to use the latter to pass through it a cable on which the necessary instruments and equipment are installed in the area below the jet pump, which in turn allows to reduce the axial dimensions of the installation and to reduce the hydraulic resistance when pumping the pumped medium from the well. This arrangement thus allows the sealing assembly and the jet pump to be located in the housing, so that the center of mass will be located along the axis of the housing, which eliminates jamming of the housing in the pipe string when removing the jet pump from the well.

 Thus, the achievement of the objective of the invention is achieved - expanding the field of use of the downhole jet installation by providing the possibility of carrying out technological operations in the well below the installation level of the jet pump.

 In FIG. 1 shows a downhole jet installation with the location of the sealing unit in the socket; in FIG. 2 shows a downhole jet installation with the location of the sealing unit in the channel for supplying a pumped medium.

 The downhole jet unit shown in FIG. 1, comprises a tubing string 1 with a support 3, in which overflow windows 4 are made, and a jet pump 9 installed in the tubing string 1. The jet pump 9 is located in the housing 5 installed in the tubing string 1 on the support 3, and in the housing 5, a channel 7 for supplying the pumped medium to the jet pump 9 and a channel 11 for discharging the mixture of media from the jet pump 9 into the annulus of the well are provided, while at the outlet, the channel 11 for discharging the mixture of media is in communication with bypass windows 4, and in the housing 5 above the channel 7 for supplying the pumped medium Wednesday in the nest communicated with pos One installation of a sealing unit 10 is located above the jet pump 9 and a passage channel is made in the sealing unit 10 for passing cable 12 through the last and channel 7 for supplying a pumped medium for installation in the well below the jet pump 9 of instruments and equipment 13 with the possibility of their movement along the wellbore . The column 1 of pipes is installed in the well on the packer 2. The supply of the ejection medium into the nozzle 8 of the jet pump 9 is carried out through the channel 6 in the housing 5.

 The embodiment of FIG. 2 differs from the embodiment of FIG. 1 in that the sealing unit 10 is located in the channel 7 for supplying a pumped medium above the jet pump 9. The socket for accommodating the sealing unit 10 can be aligned with the channel 7 for supplying a pumped medium.

 Downhole jet installations described above operate as follows.

 The jet pump 9 in the housing 5 is lowered into the pipe string 1 and installed in the support 3, while the jet pump 9 can be lowered on the cable 12. Instruments or other equipment 13, for example, a physical field generator, can be installed simultaneously with the installation of the jet pump 9 or the devices can be installed after installing in the column 1 pipes of the jet pump 9 in the housing 5. The devices 13 are installed, as a rule, in the interval of the productive formation of the well. The sealing unit, ensuring the passage of the cable 12 through the passage channel, does not interfere with the movement of the cable 12, and, therefore, devices 13, along the well. By supplying an ejection medium through a pipe string 1 to the nozzle 8 of the jet pump 9, the medium is pumped out of the sub-packer zone of the well and, due to this, the necessary pressure is created in the sub-packer zone. At the created pressure, a well is examined or, if necessary, an impact on the formation is carried out using instruments 13. After carrying out the necessary work in the well, the instruments 13 together with the jet pump 9 on cable 12 can be removed from the pipe string 1, and in support 3 An operational jet pump has been installed to carry out work to extract a medium, for example, oil, from a well.

Claims (2)

 1. A downhole jet installation comprising a column of tubing with a support, in which overflow windows are made, and a jet pump installed in the pipe string, characterized in that the jet pump is placed in a housing installed in the pipe string on the support, and in the housing a channel for supplying a pumped medium to the jet pump and a channel for discharging a mixture of media from a jet pump into the annulus of the well, while at the output, a channel for discharging a mixture of media is communicated with bypass windows, and in the housing above the feed channel medium in the socket in communication with the latter, a sealing unit is installed located above the jet pump, and in the sealing unit there is a passage channel for passing through the last and the supply channel of the pumped medium of the cable for installation of instruments and equipment in the well below the jet pump with the possibility of moving them along wellbore.  2. A downhole jet installation comprising a column of tubing with a support, in which bypass windows are made, and a jet pump installed in the pipe string, characterized in that the jet pump is located in a housing installed in the pipe string on the support, and in the housing a channel for supplying a pumped medium to the jet pump and a channel for discharging the mixture of media from the jet pump into the annulus of the well, while at the outlet the channel for discharging the mixture of media is in communication with bypass windows, and an additional unit is installed in the housing sealing, located in the channel for supplying a pumped medium above the jet pump, and in the sealing unit a passage channel is made for passing through the last and channel for supplying a pumped medium cable for installation in the well below the jet pump of instruments and equipment with the possibility of their movement along the wellbore.

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