RU2374503C1 - Downhole jet unit for perforation of benches, intensification of inflow and oil-and-gas well development - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: invention relates to pumps intended for well development. Proposed unit comprises pipe string supporting hydromechanical slot perforator, packer with axial bore and support, successively arranged thereon. The latter has axial channel with jet pump mount seat. Support wall has bypass channel with check valve. Pump comprises cylindrical housing with outer circular ledge for mounting the pump in its place, channels feeding active medium into pump nozzle, channel feeding medium pumped out from the well and discharging medium mix, and flow passage accommodating spring-loaded valve with follower. The latter is brought out of the housing top part and has a head on its top part. Flow passage communicates channels that feed pumped out media and discharge medium mix. The housing, below the pump, accommodates self-contained instruments to measure physical parametres. Support channel diametre, below mount seat, is not less than that of packer flow passage.

EFFECT: expanded performances.

Description

The invention relates to the field of pumping technology, mainly to downhole pumping units for well development.

A well-known 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 (see patent RU No. 2059891 C1, class F04F 5/02, 05/10/1996) .

This installation allows pumping various produced media, such as oil, from the well while processing the produced medium and the near-wellbore zone of the formation, however, this installation provides for the supply of the working medium to the nozzle of the jet apparatus through a pipe string, 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 with a support, in which bypass windows are made and on which an ink pump is installed, in the housing of which there is a channel for supplying the active medium to the nozzle of the jet pump, a supply channel into the jet pump of the medium pumped out from the well and the channel for discharging the mixture of media from the jet pump, and in the housing above the channel for supplying the pumped medium, the passage channel connected with the last the axial channel is made the place for installation of the sealing unit and in the sealing unit with the possibility of passing through it and the supply channel of the pumped-out medium of the wireline cable for installing downhole tools on it in the well below the jet pump with the possibility of moving them along the wellbore with the jet pump working or idle, the channel for supplying the active medium to the nozzle of the jet pump is in communication with the bypass windows and through the latter with the space surrounding the pipe string, and the channel for withdrawing the mixture of media from the jet the pump communicates with the internal cavity of the pipes above the jet pump (see RU patent, No. 2188970, cl. F04F 5/54, 09/10/2002).

This jet installation allows for various technological operations in the well below the installation level of the jet pump, including in the presence of a pressure differential above and below the sealing unit. However, this installation does not allow to fully use its capabilities, which is due to the impossibility of pumping chemicals into the reservoir through a jet pump without first installing a special insert in its passage channel that separates the in-pipe and annular space and, as a result, there is a limited functionality downhole jet installation.

The problem to which the present invention is directed, is the creation of a downhole jet unit with the possibility of separation of the in-pipe and annular space with an idle jet pump.

The technical result from the use of a downhole jet installation is to expand the functionality of a downhole jet installation.

This problem is solved, and the technical result is achieved due to the fact that the downhole jet installation contains a pipe string on which a hydromechanical slotted puncher, a packer made with an axial through hole, and a support in which an axial channel with a seat for installing a jet pump on it, and in the wall of the support there is a bypass channel with a check valve installed in it, and the jet pump includes a cylindrical body, on the outer surface of the cat An annular step was made to install the jet pump at a seat in the support, while in the housing there was a channel for supplying the active medium to the nozzle of the jet pump, a channel for supplying the medium pumped out of the well to the jet pump, a channel for withdrawing the mixture of media from the jet pump, and also made along the axis of the cylindrical housing of the jet pump, a passage channel with a valve installed in its upper part and spring-loaded relative to the housing with a stem withdrawn from the upper part of the housing and made at the upper end with a head, and this, through the passage channel, the inlet channel of the medium pumped out from the well is in communication with the channel for discharging the mixture of media, on the cylindrical body below the jet pump, autonomous devices are installed to measure physical parameters, for example, pressure, temperature and flow rate of the medium entering the jet pump, the diameter of the axial channel of the support is lower than the landing places not less than the diameter of the axial bore of the packer.

An analysis of the operation of a well jet device showed that it is possible to expand the functionality of a well jet device by expanding the range of work that can be carried out in a well without lifting the jet pump to the surface and installing additional equipment on the jet pump.

The downhole installation makes it possible to conduct slotted perforation of the casing in the area of the reservoir, to create a number of different depressions using a jet pump in the sub-packer zone of the well with a given pressure drop, and using stand-alone devices to record pressure, temperature and other physical parameters of the well and pumped out from the well of the medium, conduct research and testing of the well, also record the recovery curve of reservoir pressure in the sub-packer a space of a well without using a special functional insert. Execution of a bypass channel with a check valve in the wall of the support in combination with the diameter of the axial channel of the support below the seat is not less than the diameter of the axial bore of the packer allows you to organize the supply of working fluid to the hydrodynamic perforator along the pipe string, as well as the injection of chemical reagents or hydraulic fracturing fluid into the reservoir without using any additional devices or functional inserts, increase productivity, and the check valve tvraschaet delivery injected into a producing formation fluids in the well annulus nadpakernoe space in their injection period. It is important that the above relationship between the diameters of the axial channel of the support and the axial bore of the packer. The diameter of the axial channel of the support below the seat is not less than the diameter of the axial bore of the packer is necessary to reduce the hydraulic resistance when pumping media into the reservoir, and for pumping out of the reservoir formation products and produced from the reservoir while creating a depression on the reservoir . At the same time, it is possible to control the magnitude of depression by controlling the rate of pumping of the active working medium. During the formation test, it is possible to adjust the pumping mode by changing the pressure of the active working medium supplied to the active nozzle of the jet pump. At the same time, the possibility of spontaneous overflow of the working medium into the under-packer zone is excluded both with the working and non-working jet pump.

The drawing shows a longitudinal section of a downhole jet unit during the injection into the reservoir of chemical reagents or hydraulic fracturing fluid.

The downhole jet installation comprises a pipe string 1, on which a hydromechanical slotted perforator 2, a packer 3, made with an axial passage hole 4, and a support 5, in which an axial channel 6 with a seat 7 for installing the jet pump 8 on it, are installed moreover, a bypass channel 9 is made in the wall of the support 5 with a check valve 10 installed therein, and the jet pump 8 includes a cylindrical housing 11, on the outer surface of which an annular ledge 24 is made for installing the jet pump 8 to the seat 7 in the support 5. In the cylindrical body 11, a channel 12 for supplying the active medium to the nozzle 13 of the jet pump 8, a channel 14 for supplying to the jet pump 8 the medium pumped out of the well with the check valve 15 installed in it, the channel 16 for withdrawing the mixture of media from the jet pump 8, and is also made along the axis of the cylindrical body 11 of the jet pump 8, the passage channel 17 with a valve 18 installed in its upper part spring-loaded relative to the cylindrical body 11 with a rod 19 withdrawn from the upper part of the cylindrical body 11 and Making a at the upper end with the head 20. Through the passageway 17, inlet channel 14 pumped out of a well in communication with the passage 16 removing a fluid mixture. On a cylindrical housing 11 below the jet pump 8, autonomous devices 21 are installed for measuring physical parameters, such as pressure, temperature and flow rate of the medium entering the jet pump 8. The diameter of the axial channel 6 of the support 5 below the seat 7 is not less than the diameter of the axial bore 4 of the packer 3.

A pipe string 1 with a hydromechanical slotted punch 2, a packer 3 and a support 5 is lowered into the well and the packer 3 is placed above the reservoir 22, and the punch 2 is located in the zone of the reservoir 22. Using the punch, hole holes are made in the casing 23 wall. the packer 3 in the working position, separating the surrounding pipe string 1 space of the well. Hydraulic fracturing fluid or acidic solution is fed under pressure along the pipe string 1 into the reservoir, and then the jet pump 8 is lowered into the pipe string 1, for example, on a cable 8. The cylindrical housing 11 of the jet pump 8 is installed on the seat 7. In the surrounding pipe string 1 the annulus is pumped with a working (active) medium, for example water, saline, oil, etc. From the annular space, the working medium enters through the bypass channel 9 and the check valve 10 into the channel 12 for supplying the active medium and then into the nozzle 13 jets pump 8. Within a few seconds after pumping the working medium through the nozzle 13, a steady stream is formed at the outlet of it, which, flowing out of the nozzle 13, entrains its environment into the jet pump 8, which causes a decrease in pressure first in the supply channel 14 of the pumped medium , and then in the sub-packer space of the well. The magnitude of the pressure reduction depends on the speed of passage of the working (active) medium through the nozzle 13, which depends, in turn, on the magnitude of the injection pressure of the working (active) medium through the annulus of the well above the packer 3. As a result, the jet product 8 is pumped out of the productive formation 22 fracturing fluid or chemical treatment products of the productive formation 22, and then pumping from the reservoir 22 of the formation medium, which is through the pipe string 1 through the channel 14 for supplying the pumped-in medium into the jet pump 8 where it is mixed with the working (active) medium and further through the passage 16 removing a fluid mixture from the energy of the working (active) of the medium through the pipe string 1 is supplied from the wellbore to the surface. During pumping out of the formation medium, the parameters of the pumped out formation medium are monitored using the cylindrical housing 11 of the autonomous devices 21 installed below. At the same time, by varying the pressure of the working (active) medium to intensify the inflow from the reservoir, a number of different depressions on the reservoir are created and, using stand-alone devices 21, the parameters of the inflow of the pumped medium out of the reservoir 22 are recorded. bore a cable with a fishing device, which is connected to the head 20 on the rod 19, pull the cable and thus open the valve 18 and down the channel 17 from the columns s pole tube 1 located in the fluid space therein in the well packer, thereby equalizing pressure above and below the jet pump, hereinafter rope is recovered a jet pump 8 from the well and conduct translation work well in the operational mode.

The invention may find application in the testing, development and overhaul of oil, gas condensate and methane wells.

Claims (1)

A downhole jet installation comprising a pipe string on which a hydromechanical slotted punch is installed successively from bottom to top, a packer made with an axial bore, and a support in which an axial channel is made with a seat for installing an inkjet pump on it, and a bypass is made in the wall of the support a channel with a check valve installed in it, and the jet pump includes a cylindrical body, on the outer surface of which an annular ledge is made for installing the jet pump on the landing m It is supported, while in the housing there is a channel for supplying the active medium to the nozzle of the jet pump, a channel for supplying the medium pumped out of the well to the jet pump, a channel for withdrawing the mixture of media from the jet pump, and a passage channel with an installed channel along the axis of the cylindrical body of the jet pump of its upper part, a valve spring-loaded relative to the body with a stem withdrawn from the upper part of the body and made at the upper end with a head, while through the passage channel the supply channel for pumping out of the well Autonomous devices are installed for measuring the physical parameters, for example, pressure, temperature and flow rate, entering the jet pump of the medium, and the diameter of the axial channel of the support below the seat is not less than the diameter of the axial bore of the packer.