WO2008054241A1

WO2008054241A1 - Well jet device for weel-logging operations

Info

Publication number: WO2008054241A1
Application number: PCT/RU2007/000374
Authority: WO
Inventors: Zinoviy Dmitrievich Khomynets
Original assignee: Zinoviy Dmitrievich Khomynets
Priority date: 2006-10-30
Filing date: 2007-07-09
Publication date: 2008-05-08
Also published as: RU2312255C1

Abstract

The inventive device comprises a body (1) which is provided with bypass windows (2) and a landing seat (3) used for mounting an insert (4) with a jet pump (5) thereon and a sealing unit (10). Said sealing unit is provided with a channel (11) used for passing a logging cable (12). The insert (4) and the sealing unit (10) consist of two parts, the jointing plane of which passes along the axial channel (11) of the sealing unit (10) and through the pass channel (6) of the insert. Said pass channel (6) of the insert is rectangular-shaped in the from of a groove at least in one part of the insert downstream of the sealing unit (10), thereby making it possible to mount facilities of a required size on the logging cable.

Description

Borehole jetting unit for logging

WORKS

Application area

The invention relates to the field of pumping technology, mainly to downhole jet installations for logging. State of the art

Known downhole jet installation, including a jet pump installed in a well on a tubing string and a geophysical instrument located below the jet pump in a tubing string (RU 2059891 Cl). This installation allows for pumping from the well of various produced environments, for example, oil, while processing the produced environment and the near-wellbore zone of the formation.

However, this installation provides for the supply of a working medium to the nozzle of the jet apparatus through a pipe string, which in some cases narrows the scope of its use.

The closest to the invention in terms of technical nature and the achieved result is a downhole jet installation comprising a housing in which bypass windows and a seat seat are made for installing an insert with an ink pump installed in it, while a passage channel and an active medium supply channel are made in the insert in the nozzle of the jet pump and the supply channel to the jet pump of the evacuated medium, which is in communication with the passage channel, and above the supply channel of the pumped medium in the passage channel seals are installed uyuschy node, and the latter has an axial channel with the possibility of passing through it and the passage channel of the wireline or wire for installation of downhole tools and equipment on them in the well below the jet pump with the possibility of moving them along the wellbore with the working or non-working jet pump, the channel for supplying the active medium from the input side it communicates with the annulus of the well, and sealing elements are installed on the liner (RU Ж2188970 Cl).

The well-known jet installation allows for 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 does not allow to fully use its capabilities, due to the fact that the size of the passage channel of the downhole jet installation is limited, which does not allow the installation of instruments and equipment below the liner whose diameter exceeds the minimum distance between the opposite walls of the passage channel in cross section.

SUMMARY OF THE INVENTION The objective of the present invention is to optimize the design of a downhole jet unit while logging in a well below the jet unit using instruments and equipment whose transverse dimensions exceed the transverse dimensions of the passage channel of the liner in which the jet apparatus is installed.

The technical result that is achieved from the implementation of the invention is the expansion of functionality downhole jet installation during logging by expanding the range of instruments and equipment.

This problem is solved due to the fact that the downhole jet installation contains a housing in which overflow windows and a seat are made for installing an insert with an ink pump installed in it, while a passage is made in the insert, an active medium supply channel to the jet pump nozzle and a channel for supplying a pumped-out medium to the jet pump, which is in communication with the passage channel, and a sealing unit is installed over the channel for supplying the pumped-out medium in the passage channel, and in the latter an axial channel with with the possibility of passing through it and the passage channel of the liner of the wireline or wire for installation on them in the well below the jet pump of downhole tools and equipment with the possibility of moving them along the wellbore with a working or non-working jet pump, the channel for supplying the active medium from the input side of it is communicated with annular space of the well, and sealing elements are installed on the liner, while the liner and the sealing assembly are made of two parts, the parting plane of the parts passage t through the axial channel of the sealing unit and the passage channel of the insert along the latter, the parts of the insert are interconnected by means of a bolt connection, and the passage channel of the insert below the sealing unit is made rectangular in its cross section and is formed by a longitudinal groove made in at least one of the parts liner.

Analysis of the operation of a downhole jet installation showed that the effectiveness of logging in the well can increase by providing the possibility of location below the jet pump of various instruments and equipment, the transverse dimensions of which exceed the transverse dimensions of the passage channel in the liner. In turn, the diameter of the passage channel cannot be arbitrarily selected. This is due to the fact that an excessively large diameter of the passage channel leads to a decrease in the liner strength and, as a result, to a decrease in the reliability of the downhole jet installation, and an excessively small diameter of these channels leads to a decrease in the productivity of the jet pump and does not allow almost all of the passage through the passage channel instruments and equipment that are necessary for carrying out logging operations related to the study of the well and productive formations, as well as for repair work in the well. At the same time, the maximum possible transverse size of the passage channel does not allow to lower into the well all the equipment necessary for logging.

The implementation of the liner and the sealing unit in two parts with the parting plane of the parts passing through the axial channel of the sealing unit and the bore of the liner along the latter allows the equipment to be installed on the wireline or wire, the transverse dimensions of which are limited only by the inner diameter of the pipe string and hydraulic resistance , which is created by instruments and equipment installed on a logging cable in a pipe string. Since the parts of the liner are interconnected by means of a bolt connection, it is easy to assemble and disassemble, allowing you to freely move after the liner is lowered into the well mounted on a wireline or wire equipment and instruments along the well, including along productive formations.

The implementation of the passage channel below the sealing unit rectangular in its cross section and the formation of its longitudinal groove made in at least one of the parts of the liner allows you to increase its cross section and, at the same time, simplify the manufacturing technology of the passage channel. Ultimately, this allows one to reduce the hydraulic resistance of the passage channel, on the one hand, and, if necessary, to place instruments and equipment in it that cannot be located in the cylindrical passage channel.

As indicated above, during the operation of the installation, it is necessary to move instruments and equipment along the well on a wireline or wire and at the same time it is necessary to minimize the flow of medium through the axial channel of the sealing unit. Assembly of the liner on the surface allows a more thorough check of the assembled liner, which improves the reliability of the downhole jet installation and the reliability of the information obtained by reducing leakage through the sealing unit.

Brief Description of the Drawings

Figure 1 presents a longitudinal section of a downhole jet unit for logging. Figure 2 presents a longitudinal section of the liner of a downhole jet unit in a disassembled state.

On Fig.3 presents a section A-A in Fig.l.

In Fig.4 shows a section bB in Fig.l. b

The best embodiment of the invention

The proposed downhole jet installation for logging operations comprises a housing 1, in which overflow windows 2 and a landing seat 3 are made for installing an insert 4 with an installed jet pump 5. In the insert 4, a passage 6 is made, a channel 7 for supplying an active medium to the nozzle 8 of the jet pump 5 and the channel 9 for supplying a pumped medium to the jet pump 5, which is in communication with the passage channel 6. A sealing assembly 10 is installed over the channel 9 for supplying the pumped medium in the passage channel 6, and the axial channel 11 is made in the latter the possibility of passing through it and the passage channel 6 of the logging cable 12 or wire for installation on them in the well below the jet pump 5 downhole tools and equipment 13 with the possibility of moving them along the wellbore with a working or non-working jet pump 5. Channel 7 for supplying the active medium from the side the entrance to it is in communication with the annulus of the well, and sealing elements 14 are installed on the liner 4. The liner 4 and the sealing assembly 10 are made of two parts, the contact plane of the parts being Odita through the axial passage 11 and the sealing assembly 10 through channel 6 of the insert 4 along the latter. The parts of the liner 4 are interconnected by means of a bolt connection 15, and the passage channel 6 below the sealing assembly 10 is made rectangular in its cross section and is formed by a longitudinal groove made in at least one of the parts of the liner 4. The housing 1 is mounted on the pipe string 16 , while below the housing 1 on the pipe string 16 is installed a packer 17.

Downhole jet installation operates as follows. Before starting work in the well, the liner 4 with the jet pump 5 installed in it and the sealing assembly 10 is disassembled along the plane of its connector. After that, through the axial channel 11 and the passage channel 6 of one of the parts, respectively, of the sealing assembly 10 and the liner 4, a wireline 12 or wire made with a cable lug is passed 18. Then, the second part is applied to the first part of the liner 4 with the sealing assembly 10 described above of the liner 4 with the sealing assembly 10 and the parts of the liner are connected to each other by means of a bolt connection 15, while the wireline 12 or wire made with a cable lug 18 is passed through the axial channel 11 of the seal uyuschego node 10 and through channel 6 of the insert 4. Then on the insert 4 is installed sealing elements 14, and to the cable lug 18 is connected downhole devices 13 or equipment.

The pipe string 16 with the packer 17 and the housing 1 is lowered into the well and the packer 17 is placed above the reservoir. The packer 17 is brought into working position, separating the borehole space surrounding the pipe string 16. On the logging cable 12 or wire, instruments and equipment 13 are lowered into the pipe string 16 and the liner 4 with the jet pump 5 and the sealing assembly 10 located above them on the cable 12 or wire 10. The liner 4 is mounted on the landing seat 3 in the housing 1, while channel 7 the inlet of the active medium is in communication with the bypass windows 2. An active (working) medium, for example, water, saline, oil, etc. is pumped into the surrounding pipe string 16 in the annular pipe. The active medium flows from the annulus through the bypass windows 2 and channel 7 supply of the active medium and further into the nozzle 8 of the jet pump 5. Within a few seconds after pumping the active medium through the nozzle 8, a stable jet is formed at the outlet of it, which, flowing out of the nozzle 8, entrains its environment into the jet pump 5, which causes a decrease in pressure first in the pumped supply channel 9 environment, and then the passage channel 6 under the sealing unit 10 and further in the under-packer space of the well, creating a depression on the reservoir. The magnitude of the pressure reduction depends on the speed of passage of the active medium through the nozzle 8, which, in turn, depends on the pressure of the injection of the active medium into the annular space of the well above the packer 17. As a result, the formation medium flows through the pipe string 16 and through the passage channel 6 into the jet pump 5, where it is mixed with the active medium and the mixture of media due to the energy of the active medium through the pipe string 16 comes from the well to the surface. During the pumping out of the formation medium with the help of equipment and instruments 13 installed on the wireline 12 or wire, logging operations are carried out in the well, for example, control of the parameters of the pumped-out formation medium, as well as the effect of physical fields on the reservoir. Depending on the problem being solved, it is possible to move instruments and equipment 13 along the well.

Industrial applicability

The present invention can be used in the oil and gas industry for logging in the testing, development and operation of oil and gas condensate wells, as well as in their overhaul.

Claims

Claim

A downhole jet installation comprising a casing in which overflow windows and a seat seat are made for mounting an insert with an ink pump installed therein, wherein a passage channel, an active medium supply channel to the jet pump nozzle and a supply channel to the pumped-out jet pump are made in the insert medium, which is in communication with the passage channel, and a sealing unit is installed in the passage channel over the supply channel of the pumped-out medium, and in the latter an axial channel is made with the possibility of passing through it and the passage the channel of the liner of the logging cable or wire for installation on them in the well below the jet pump of downhole tools and equipment with the possibility of moving them along the wellbore with a working or non-working jet pump, the channel for supplying the active medium from the input side is communicated with the annulus of the well, and sealing elements are installed on the insert, characterized in that the insert and the sealing assembly are made up of two parts, the plane of the connector parts passing through the axial channel the sealing unit and the liner passage channel along the latter, the liner parts are interconnected by means of a bolt connection, and the liner passage channel below the sealing node is made rectangular in its cross section and is formed by a longitudinal groove made in at least one of the liner parts.