RU2397375C1 - Downhole spray unit кэу-12 for logging and development of horizontal wells - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: proposed unit comprises flexible smooth tube 1 whereon mounted are well-logging tool 2 sealing element 2 and jet pump 4. Housing 5 of pump 4 accommodates nozzle 6 and mixing chamber 7 with diffuser 8. Outlet of the latter communicates with pipe 1, while outlet of nozzle communicates with hole clearance of pipe 1. Check valves 10, 24 are arranged at inlets of pumped fluid feed channel 9, fluid being fed into nozzle 6. Pipe 1 can move in tubing string 11 furnished with packer 12. Diametre D₁ of flow channel of packer 12 is smaller, by at least 12 mm than ID of D₂ of pipes 12. Holes 14 are made in pipe 1 above aforesaid tool 2. Ball valve 33 to shut off pipe 1 is arranged between pump 4 and element 3. The latter represents cylindrical casing 15 filled with set of elastic shims 16 and thrust washers 17 arranged there between and thrust pressure element 18 arranged thereon. Bush 19 with flange 20 and movable ring 21 are secured at bottom of housing 15. Collar 22 is arranged between housing 15 and ring 21. Diametre of flange 20 is smaller than diametre D₁ of flow channel of packer 12. Ring 21 has diametre D₃ larger diametre D₁. Lower surface of ring 21 is coated with elastic material.

EFFECT: reliable operation.

Description

The invention relates to the field of pumping technology, mainly to downhole pumping units for logging and development of horizontal wells.

A well-known jet installation comprising a packer mounted on a pipe string from bottom to top with a central channel and a jet pump, in the housing of which an active nozzle and a mixing chamber with a diffuser are installed, and also a channel for supplying a working medium and a channel for supplying medium pumped out of the well, are made while the passage channel is made in the housing of the jet pump with the possibility of installing replaceable functional inserts and a sealing assembly in it (see patent RU No. 2176336, class F04F 5/02, 11.27.2001).

This downhole jet installation allows the formation to be processed in the well below the level of the jet pump installation, including creating a pressure differential above and below the sealing unit. However, the capabilities of a downhole jet installation are not used to the full extent, which is associated with a large investment of time for replacing inserts, which is often longer than the estimated reaction time of an acid solution with minerals in the reservoir.

The closest to the invention in terms of technical essence and the achieved result is a downhole jet installation for logging horizontal wells, comprising a packer mounted on a flexible smooth pipe from bottom to top with a central channel made in it and a jet pump with a nozzle and a mixing chamber with a diffuser installed in its body, the outlet of the diffuser is connected to the internal cavity of the flexible smooth pipe through a channel for discharging the mixture of media made in the jet pump housing, the nozzle of the jet pump from the input it is connected to the annular space of the flexible smooth pipe, and the channel for supplying the fluid pumped out of the well in the housing of the jet pump is connected to the internal cavity of the flexible smooth pipe through the upper and lower windows made in the housing of the jet pump, and a check valve is installed in the channel for supplying the pumped medium placed in the latter from the entrance to it through the lower window, a complex logging tool is installed at the lower end of the flexible smooth pipe, movably mounted on the flexible smooth pipe below the packer phenomenon embodied as a ring shaped sealing element, and in the wall of the flexible tube over the complex smooth logging tool provided with holes through which the internal cavity of the flexible smooth pipe communicated with the well annulus below the packer (see. RU patent No. 2324079, class F04F 5/54, 05/10/2008).

This downhole jet installation allows the study of horizontal wells and treatment of a productive formation in them. However, the installation of a switch for the flow of the working medium narrows the possibilities of the installation for conducting a study of the productivity of the formation during its processing. In addition, the inability to overlap the flexible smooth pipe when removing the installation to the surface complicates the process of extracting the well installation from the well.

The problem to which the present invention is directed is to improve the quality of work to increase well production by expanding the functionality of the installation, in particular, performing work on processing a productive formation without reinstalling the tubing string and simplifying the operation of a well jet device.

The technical result achieved by the implementation of the invention is to increase the reliability and productivity of a downhole jet installation during logging and well development.

This problem is solved, and the technical result is achieved due to the fact that the downhole jet installation comprises mounted on a flexible smooth pipe from bottom to top: a complex logging tool covering a flexible pipe and a movably installed sealing element, and a jet pump in the body of which a nozzle and mixing chamber with a diffuser, while the diffuser output is connected to the internal cavity of the flexible smooth pipe, the jet pump nozzle is connected to the annular space of the flexible eye from the inlet side pipe, and in the channel for supplying the fluid pumped out from the well in the housing of the jet pump from the side of the entrance to it and at the entrance to the nozzle, check valves are installed, while a flexible smooth pipe is located with the possibility of axial movement in the tubing string made with a packer to seal the space between the tubing and the casing pipe, wherein the packer is formed with the passageway, a diameter D ₁ is not less than 12 mm smaller than the internal diameter D ₂ of tubing, a flexible wall SFA holes above the integrated logging tool are made through which the internal cavity of the flexible smooth pipe is in communication with the under-packer space of the well, a ball valve is installed on the flexible smooth pipe in its section between the jet pump and the sealing element to shut off the internal cavity of the flexible smooth pipe when removing the downhole jet unit on the surface, the sealing element is made in the form of a cylindrical body located in its upper part, filled with a flexible a smooth pipe with a set of elastic gaskets with thrust washers placed between them and a thrust pressure element located on top, and a support sleeve with a thrust flange at its lower end and a movable thrust ring installed above it on the sleeve, between which and the lower part is mounted, is fixed at the bottom of the cylindrical body a cylindrical body installed elastic sealing sleeve, the thrust flange diameter smaller than the diameter D ₁ of the through passage of the packer, the thrust ring has a diameter D ₃ greater than the diameter D ₁ passage anal packer and the lower surface of the thrust ring is covered with an elastic material.

An analysis of the operation of a well jet installation showed that the reliability and efficiency of the installation can be improved by optimizing the design of the installation and thereby achieve more complete cleaning of the borehole formation zone in the wells, shorten the time for these operations and expand the functionality of the installation when testing and developing wells without reinstalling equipment.

It was found that the hydrodynamic effect on the borehole zone of the well allows the most efficient use of the downhole jet unit in the development and repair of oil and gas wells during work to intensify the influx of oil from the reservoir. At the same time, the installation allows cleaning the productive formation from clogging particles and reaction products of the treatment of the formation with chemical reagents, conducting control measurements both before and during the treatment, which in turn allows us to evaluate the technical condition and productivity of the well, as well as the properties of the pumped out well environment. Based on the results of studying the inflow, it is possible to assess the quality of processing the near-wellbore zone of the reservoir. Installation with a complex logging tool mounted on a flexible smooth pipe, covering a flexible pipe and a movably installed sealing element, and a jet pump, in the body of which a nozzle and a mixing chamber with a diffuser are installed, as well as the location of a flexible smooth pipe with the possibility of axial movement in the pump compressor pipes, made with a packer for sealing the space between the tubing string and the casing, allows horizontal logging th part of the well in depression mode and remove reaction products from the reservoir.

Installation of a support ring with a bore for installing a sealing element in the tubing string and the latter in the form of a cylindrical body located in the upper part and filled with a set of elastic gaskets covering the flexible smooth pipe, with thrust washers placed between them and a thrust pressure element located on top, as well as fixing in the lower part of the body of the support sleeve with a stop flange at its lower end and a movable stop ring mounted above it on the sleeve , Between which and the upper part of the cylindrical housing is installed an elastic sealing sleeve, it makes it possible to quickly set the column kompressonyh pump-ejector tube and automatically sealed borehole uncouple space below and above the jet pump in the interaction of the thrust ring to the end wall of the through passage of the packer. To ensure the possibility of this interaction, the installation is directed with the above size ratios, and it is important not only to ensure the specified interaction, but also to ensure reliable operation with preventing jamming of the device, which is ensured by appropriate optimization of the aspect ratios of the above structural elements of the installation.

The installation of a jet pump in the tubing string makes it possible to create with it a series of different depressions in the sub-packer zone of the well with a given pressure drop, and using a complex logging tool to record pressure, temperature and other physical parameters of the well and pumped out of the well environment, conduct research and testing of the well, also record the recovery curve of reservoir pressure in the sub-packer space of the well without using Bani specifically for functional insert. 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 nozzle of the jet pump. At the same time, the implementation of the channel for supplying the medium pumped out from the well and the nozzle with non-return valves eliminates the possibility of spontaneous overflow of the working medium into the under-packer zone both with the working and non-working jet pump.

The installation of a logging tool on a flexible smooth pipe with the possibility of axial movement of the latter in the well without using a packer (instead of the packer using a sealing element worn on a flexible smooth pipe) allows you to speed up and simplify the process of moving a complex logging tool in the well, and therefore simplify the testing and preparation process wells to work. In addition, the placement of a complex logging tool on a flexible smooth pipe makes it possible, due to its elastic properties, to place a logging tool in the zone of productive formations in horizontal sections of wells, which allows to obtain more quickly reliable information about the status of productive formations, the flow of formation fluid and its properties, and installation on a flexible smooth pipe in the area between the jet pump and the sealing element of the ball valve allows you to overlap the internal cavity of the flexible smooth pipe retrieving downhole jet device to the surface that facilitates the process of retrieving the downhole jet device to the surface.

As a result, intensification of work on research and development of wells is achieved, which allows for high-quality research and testing of wells after drilling and during overhaul, as well as preparation of a well for operation with comprehensive research and testing in various modes, and thereby increasing the reliability of the installation.

The drawing shows a longitudinal section of a downhole jet unit for logging horizontal wells.

The downhole jet installation comprises an integrated logging tool 2 mounted on a flexible smooth pipe 1 from bottom to top, covering a flexible pipe 1, a movably installed sealing element 3, and a jet pump 4, in the housing 5 of which a nozzle 6 and a mixing chamber 7 with a diffuser 8 are installed. Exit the diffuser 8 is connected to the inner cavity of the flexible smooth pipe 1, and the nozzle 6 of the jet pump 4 from the inlet side is connected to the annular space of the flexible smooth pipe 1. In the channel 9 for failure supply, made in the housing 5 of the jet pump 4 For the medium being extracted from the well, a check valve 10 is installed, which is located in the latter from the side of its entrance. The flexible pipe 1 is located with the possibility of axial movement in the string of tubing 11, made with a packer 12 for sealing the space between the string of tubing 11 and the casing 13. The diameter D _{1 of the} passage channel of the packer 12 is not less than 12 mm less than the diameter D ₂ , the internal cavity of the tubing 11. In the wall of the flexible smooth pipe 1 above the complex logging tool 2 holes 14 are made, through which the internal cavity of the flexible smooth pipe 1 is in communication with the under-packer space of the well.

The sealing element 3 is made in the form of a cylindrical body 15 located in its upper part, filled with a set of elastic gaskets 16 covering smooth flexible pipe 1 with thrust washers 17 located between them and a thrust pressure element 18 located on top, and a supporting sleeve is fixed in the lower part of the cylindrical body 15 19 with a stop flange 20 at its lower end and a movable stop ring 21 mounted above it on the sleeve 19, between which and the lower part of the cylindrical body 15 an elastic herme is installed iziruyuschaya cuff 22. The diameter of the thrust flange 20 is less than the diameter D ₁ of the through passage of the packer 12, the thrust ring 21 has a diameter D ₃ greater than the diameter D ₁ of the through passage of the packer 12, and the lower surface of the thrust ring 21 is covered with an elastic material, and on the smooth portion of the flexible pipe 1 between the jet pump 4 and the sealing element 3, a ball valve 23 is installed to overlap the internal cavity of the flexible smooth pipe 1 when removing the downhole jet installation to the surface. At the inlet to the nozzle 6 of the jet pump 4, a check valve 24 is installed.

The packer 12 is lowered into the vertical part of the well on the tubing string 11. The packer 12 is unpacked and then the acid solution and / or fracturing fluid are pumped into the tubing string 11 into the producing formation 25 of the well. Next, a complex logging device 2, a sealing element 3 and a jet pump 4 are lowered on a flexible smooth pipe 1 into a horizontal well. A sealing element 3 is placed on the upper end wall of the packer 12 passage channel, and a complex logging device 2 is located in the zone of the reservoir of the horizontal part of the well, registering while the geophysical parameters of the well along its bore, in particular pressure and temperature in the sub-packer zone, including in the zone of the reservoir. Then, the working medium is fed through the annulus of the smooth smooth pipe 1 under pressure into the nozzle 6 of the jet pump 4 and the well is drained and reaction products and / or hydraulic fracturing fluid are removed from the reservoir with periodic measurement using a complex logging tool 2 well flow rates at different depressions productive formation and continuous registration of bottomhole pressure, as well as the composition of the liquid medium pumped from the formation of the well. Moreover, under the pressure of the working medium in the tubing 11, the thrust pressure element 18 presses on the elastic gaskets 16, unclenching the latter and thus sealing the annular gap with a flexible smooth pipe 1. At the same time, under the pressure of the medium in the tubing 11, the cylindrical body 15 is shifted down and unclenches the sealing sleeve 22, sealing the annular gap relative to the tubing string 11. Then, without stopping the drainage of the well, raise the complex logging tool 2 to the vertical section of the horizontal well and register t at the same time geophysical parameters in the sub-packer zone, including in the zone of the reservoir.

Then, the jet pump 4 is stopped and through the check valve 10, the internal cavity of the flexible smooth pipe 1 above the jet pump 4 is disconnected together with the annulus above the sealing element 3 and the internal cavity of the flexible smooth pipe 1 under the jet pump 4 together with the under-packer space, keeping under the packer 12 reduced bottomhole pressure, at which, using a complex logging tool 2, the formation pressure recovery curve is recorded. Then, compressed gas is supplied through the flexible smooth pipe 1 and, thus, liquid medium is displaced from it and the annular space of the flexible smooth pipe 1, then the ball valve 23 is closed, a flexible smooth pipe 1 with a jet pump 4, a sealing element is removed from the well to the surface. 3 and a complex logging tool 2 and decide on whether to continue researching the well or putting it into production mode.

The present invention can be used in the oil and gas industry for the development of horizontal wells after drilling or for their underground repair in order to intensify hydrocarbon production, as well as to increase the injectivity of injection wells.

Claims (1)

A downhole jet installation comprising bottom-up mounted on a flexible smooth pipe: a complex logging tool covering a flexible pipe and a movably installed sealing element, and a jet pump, in the body of which a nozzle and a mixing chamber with a diffuser are installed, while the diffuser output is connected to the internal cavity flexible smooth pipe, the nozzle of the jet pump is connected to the annular space of the flexible smooth pipe from the inlet side of the pipe, and we pump out the feed channel in the jet pump housing check valves are installed from the medium’s well from the entrance to it and at the entrance to the nozzle, while a flexible smooth pipe is located with the possibility of axial movement in the tubing string made with a packer to seal the space between the tubing string and casing , wherein the packer is formed with the passageway, a diameter D ₁ is not less than 12 mm smaller than the internal diameter D ₂ of tubing, a flexible wall of a smooth tube over the complex logging tool has openings, by means of where the inner cavity of the flexible smooth pipe is in communication with the under-packer space of the well, a flexible ball valve is installed on the flexible smooth pipe in its section between the jet pump and the sealing element to shut off the internal cavity of the flexible smooth pipe when removing the downhole jet installation to the surface, the sealing element is designed as in its upper part of the cylindrical body, filled with a set of elastic gaskets covering a flexible flexible smooth pipe with persistent with washers and a thrust pressure element located on top, and in the lower part of the cylindrical body, a support sleeve is fixed with a stop flange at its lower end and a movable stop ring mounted above it on the sleeve, between which and the lower part of the cylindrical body there is an elastic - sealing sleeve, diameter of the stop the flange is smaller than the diameter D _{1 of the} feedthrough of the packer, the thrust ring has a diameter of D ₃ greater than the diameter D _{1 of the} feedthrough of the packer, and the lower surface of the thrust ring is covered with an elastic material scarlet.