RU2246049C1 - Well pumping unit for operation in horizontal wells - Google Patents

Abstract

FIELD: pump engineering.

SUBSTANCE: well pumping unit comprises pipe string provided with packer mounted on the string from top to bottom and provided with the central through passage and support. The support is provided with by-pass ports and axial stepped passage which can receive the locking insert with the central through passage or jet pump, the housing of which receives active nozzle, mixing chamber with diffuser, passage for supplying fluid to the active nozzle, passage for supplying fluid to be pumped out, and passage for discharging fluid mixture. The housing is provided with the through passage made above the passage for supplying the fluid to be pumped and connected with it. The through passage has the seat for installation of the sealing unit which is provided with axial passage. A flexible pipe passes through the axial passage and the passage for supplying fluid to be pumped for permitting axial movement. The bottom end of the flexible pipe is provided with logging instrument for measuring physical characteristics, e.g., electric resistance of rocks. The jet pump has the following sizes: ratio of the diameter of mixing chamber inlet D_mix to that of the nozzle inlet D_n ranges from 1.1 to 2.4, ratio of mixing chamber length L_mix to the diameter of the mixing chamber inlet D_mix ranges from 3 to 7, ratio of nozzle length L_n to its outlet diameter D_n ranges from 1 to 8, distance L from the nozzle outlet to the mixing chamber inlet ranges from 0.3 to 2 of the diameter of nozzle outlet D_n, and angle of inclination of the diffuser generatrix to its longitudinal axis ranges from 4^o to 14^o. The passage for discharging mixture is in communication with the by-pass ports and, through them, with the space around the pipe string. The passage for supplying fluid is in communication with the inner space of pipes above the jet pump.

EFFECT: enhanced reliability of plant.

8 cl, 3 dwg

Description

The invention relates to the field of pumping technology, mainly to downhole jet installations for oil production from wells.

A well-known jet installation including a jet pump installed in a well on a tubing string and a perforator located below the jet pump (see copyright certificate SU 1146416, Е 21 В 43/116, 03/23/1985).

From the above copyright certificate 1146416, there is known a method of operating a downhole jet installation, including lowering tubing string with a jet pump, a packer and a perforator into the well, placing a perforator against the reservoir and blowing up the perforator with subsequent pumping of the liquid working medium through the jet pump.

This installation allows for perforation of the well and, due to this, to intensify the pumping from the well of various production media, for example oil. However, this installation does not allow the study of the near-wellbore zone of the strata, which in some cases leads to a decrease in the efficiency of work to intensify the work of the well due to the lack of information on how perforated strata work.

Closest to the invention in terms of the device, as an object of the invention, in terms of technical essence and the achieved result, there is a well installation containing a packer with a central channel mounted on a tubing string and a jet pump with an active nozzle, a mixing chamber and a passage with a seat for installation of a sealing unit with an axial channel, while the installation is equipped with a transmitter and a receiver-transducer of physical fields located in a sub-packer area from the entrance to the stream the pump of the medium pumped out of the well, the emitter and the receiver-transducer of physical fields mounted on the wireline passed through the axial channel of the sealing unit, the outlet of the jet pump is connected to the space surrounding the pipe string, the input of the channel for supplying the pumped medium of the jet pump is connected to the inner cavity pipes below the sealing unit, and the entrance of the channel for supplying a liquid working medium to the active nozzle is connected to the internal cavity of the pipe string above the sealing unit (see Patent RU 2121610, F 04 F 5/02, 10.11.1998).

A well installation method is known from the same patent, including installing a jet pump with a feedthrough and a packer on a tubing string, lowering this assembly into the well, unpacking the packer and creating the necessary depression in the sub-packer zone by pumping liquid medium out of the sub-packer zone by the jet pump. .

This downhole jet installation and the method of its operation allow various technological operations in the well to be performed 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, since it allows the study of productive rocks only in the trunks close to vertical, which narrows the scope of use of the data of the operation method and downhole jet installation for its implementation. In addition, the size of the jet pump is not optimized for the study of open-hole wells when using the jet pump in conjunction with logging tools, including autonomous ones.

The problem to which the present invention is directed, is the intensification of research, testing and preparation of wells, primarily horizontal and large curvature wells, optimization of the location and size of the jet pump when it is used in conjunction with a logging tool, and thereby increasing the reliability of the well inkjet installation.

The specified problem in terms of the device, as an object of the invention, is solved due to the fact that the well installation contains a pipe string with a packer installed on it from the bottom up with a central passage channel and a support, while the support has bypass windows and an axial step channel in which the ability to install a blocking insert with a central passage channel or a jet pump, in the housing of which an active nozzle and a mixing chamber with a diffuser are installed, as well as a channel for supplying working fluid to the act A common nozzle, a channel for supplying a medium pumped out from a well, and a channel for discharging a mixture of media, and in a housing above a channel for supplying a pumped medium, a passage channel connected to the last is made with a seat for installing a sealing unit, and an axial channel is made in the latter, through which a channel for supplying a pumped medium a flexible pipe was missed with the possibility of its axial movement, and a logging device was installed at the lower end of the flexible pipe for measuring physical quantities, for example, electrical resistivity of mountain genus, and the jet pump is made with the following size ratios: the ratio of the diameter D _{kc of the} input section of the mixing chamber to the diameter D _{from the} output section of the nozzle is from 1.1 to 2.4, the ratio of the length L _to the mixing chamber to the diameter D _{ks of the} input section of the mixing chamber is from 3 to 7, the ratio of the length L _{c of the} nozzle to the diameter D _from its output section is from 1 to 8, the distance L from the output section of the nozzle to the input section of the mixing chamber is from 0.3 to 2 diameters D _{from the} output section of the nozzle, and the angle α of inclination of the generatrix of the diffuser to rodolnoy axis of the diffuser is from 4 to 14 °, the mixture discharge passage communicated with the bypass ports media and through the latter to the surrounding space of the pipe string and the working fluid supply passage communicates with the interior of the pipe above the jet pump.

The flexible pipe from the side of its lower end can be made with holes in its wall, and the outer diameter D _{g of the} flexible pipe can be equal to: D _gt ≤ (0.3-0.7) D _g from the outer diameter D _{g of the} sealing unit and in the housing of the jet pump several nozzles with a mixing chamber and a diffuser behind each outlet section of the nozzle can be installed in parallel and a remote communication cable with a logging tool can be passed through a flexible pipe.

In terms of the method of operation, as an object of the invention, the problem is solved due to the fact that in the method of operation of a well installation, which consists in installing a packer with a central passage channel, a support with bypass windows and an axial step channel for sequentially from bottom to top on the pipe string installation of the jet pump or blocking insert, lower this pipe string into the well and unpack the packer in the area above the reservoir, then lower the jet pump into the well on the flexible pipe with the installed m in the housing of the latter with a sealing assembly, and the flexible pipe is passed through the sealing assembly, and the logging tool is fixed at the end of the flexible pipe below the jet pump, during the descent of the jet pump, the background values of the geophysical parameters of the reservoir are measured, the jet pump housing is installed in the axial stepped channel supports and on a flexible pipe, a logging tool is lowered into the zone of the reservoir, after which, by supplying a working fluid through the pipe string to the nozzle of the jet pump, d depressions in the sub-packer zone of the well, recording the well flow rate and bottomhole pressure, and then recording the geophysical parameters of the reservoir, moving the logging device while the jet pump is running along the well on a flexible pipe, and then remove the jet pump with a flexible pipe and logging instrument from the well to the surface.

The near-wellbore zone of the reservoir can be cleaned using a logging tool, creating an acoustic effect on the reservoir and pumping out the clogging particles from the well with the formation fluid, and then a jet pump with a logging tool is removed from the well and a blocking block is installed in the axial step channel of the support an insert followed by the start of the well into operation in a fountain way, while after stopping the flow in a fountain way, a blocking insert is removed from the support Ku and mounted in axially staggered channel support a jet pump for oil extraction.

In addition, a study of the reservoir can be carried out, for which a fluid with abnormal physical properties, for example, with an abnormally high thermal neutron capture cross section, is pumped through a flexible pipe through its perforated lower section, or chemical treatment of the borehole zone of the reservoir is performed by crushing chemical reagents into the reservoir, after which they study the reservoir in the depressed mode or pumping the reaction products out of the reservoir.

Analysis of the operation of a well jet installation showed that the reliability of the installation can be improved both by optimizing the sequence of actions during testing and development of wells, primarily with an open curved and horizontal wellbore, and by a more optimal arrangement of a jet pump in the well and performing the latter with strictly defined sizes.

It was revealed that the above sequence of actions allows the most efficient use of equipment installed on the pipe string when conducting research and testing of productive rock formations, while creating conditions for obtaining complete and reliable information about the state of the productive formations. By creating a number of different depressions, the jet pump creates the specified pressure drop in the well, and using a flexible pipe, the logging tool is delivered to the horizontal section of the well, which allows for well research and testing. At the same time, it is possible to control the magnitude of depression by controlling the rate of pumping of the liquid working medium. During the formation test, it is possible to adjust the pumping mode by changing the pressure of the liquid working medium supplied to the jet pump nozzle. The installation of a logging tool on a flexible pipe, which is passed through the sealing unit with the possibility of axial movement, allows for better work to study the well and prepare it for work, and also allows you to process the well and prepare it for operation without reinstalling the well jet unit, which also allows you to speed up and simplify the process of testing and preparing the well for work. Thus, this installation and the method of its operation allows conducting a qualitative research and testing of wells after drilling, as well as preparing the well for operation with comprehensive research and testing in various modes.

During the study, it was found that in order to obtain reliable information, it is necessary that the jet pump have certain size ratios in order to coordinate the operation of the jet pump with the work of a logging tool. Only in this case was it possible to obtain comprehensive objective information about the state of productive rock formations.

Thus, the above set of interdependent parameters and sequence of actions provides a solution to the problem posed in the invention - the intensification of research and testing of wells with curvilinear, including open-hole, as well as optimization of the location and size of the jet pump during its operation with a logging tool and due to this increase the reliability of the downhole jet installation.

Figure 1 shows a longitudinal section of the installation with a jet pump, figure 2 shows an enlarged view of I in figure 1 and figure 3 is a longitudinal section of the installation with a blocking insert.

The downhole jet installation comprises a pipe string 1 with a packer 2 installed from the bottom up thereon with a central passage channel 3 and a support 4. In the support 4, bypass windows 5 and an axial step channel 6 are made, in which it is possible to install a blocking insert 7 with a central passage channel 8 or a jet pump 9. In the housing 10 of the jet pump 9, an active nozzle 11 and a mixing chamber 12 with a diffuser 13 are installed, and a channel 14 for supplying the working fluid to the active nozzle 11, a channel 15 for supplying the medium pumped from the well are made s and passage 16 removing a fluid mixture. In the housing 10 above the channel 15 for supplying the pumped-out medium, a channel 17 connected to the last passage with a seat for installing the sealing assembly 18 is made and in the latter an axial channel is made through which the flexible pipe 19 is passed through the channel for supplying the pumped medium 19 with the possibility of its axial movement. At the lower end of the flexible pipe 19, a logging tool 20 is installed for measuring physical quantities, for example, electrical resistivity of rocks. The jet pump 9 is designed with the following ratios of the dimensions: diameter D ratio _kc inlet section of the mixing chamber 12 to the diameter D _with the outlet section of the active nozzle 11 is from 1.1 to 2.4, the ratio of length L _to mixing chamber 12 to the diameter D of the inlet section _kc mixing chamber 12 is from 3 to 7, the ratio of the length L _{c of the} active nozzle 11 to the diameter D _{c of} its output section is from 1 to 8, the distance L from the output section of the active nozzle 11 to the input section of the mixing chamber 12 is from 0.3 to 2 diameters D _{from the} output section of the active nozzle 11, and the angle α of inclination of the generatrix of the diffuser 13 to the longitudinal axis of the diffuser 13 is from 4 to 14 °. Channel 16 removal of the mixture of media is in communication with the bypass windows 5 and through the latter with the space surrounding the pipe string 1 and the channel 14 for supplying the working fluid is communicated with the internal cavity of the pipe string 1 above the jet pump 9.

The flexible pipe 19 from the side of its lower end is made with holes 21 in its wall. The outer diameter D _{gm of the} flexible pipe 19 is from the outer diameter D _{g of the} sealing assembly 18 a value equal to: D _gt ≤ (0.3-0.7) D _g . Several active nozzles 11 with a mixing chamber 12 and a diffuser 13 behind each output section of the active nozzle 11 can be installed in parallel in the housing 10 of the jet pump 9. A remote communication cable 22 with a logging tool 20 can be passed through a flexible pipe 19.

The operation of the well installation consists in installing a packer 2 with a central passage channel 3, a support 4 with bypass windows 5 and an axial step channel 6 for installing an inkjet pump 9 or a blocking insert 7. on the pipe string 1 in series from the bottom up. This pipe pipe 1 into the well and unpacking the packer 2 in the area above the reservoir 23. Then, the jet pump 9 is inserted into the well on the flexible pipe 19 with the sealing assembly 18 installed in the housing 10 of the latter. The flexible pipe 19 is passed through the seals the measuring unit 18, and the logging device 20 is fixed at the end of the flexible pipe 19 below the jet pump 9. During the descent of the jet pump 9, the background values of the geophysical parameters of the reservoir 23 are measured. The housing 10 of the jet pump 9 is installed in the axial stepped channel 6 of the support 4 and on a flexible pipe 19, a logging tool 20 is lowered into the zone of the productive formation 23. After this, a series of depressions are created in the sub-packer zone of the well by supplying a pipe string 1 to the active nozzle 11 of the jet pump 9; it bores the well and bottomhole pressure, and then the geophysical parameters of the reservoir 23 are recorded while moving the logging tool 20 while the jet pump is running along the well on the flexible pipe 19, after which the jet pump 9 with the flexible pipe 19 and the logging device 20 is removed from the well to surface.

It is possible to clean the near-wellbore zone of the reservoir 23 using a logging tool 20. To do this, an acoustic effect is applied to the reservoir 23 and the clogging particles and accumulated water and / or other extraneous liquid medium are pumped out of the borehole with a jet pump 9. Then, the jet pump 9 with the logging tool 20 is removed from the well and the blocking insert 7 is installed in the axial stepped channel 6 of the support 4 with the subsequent launch of the well into operation by a fountain method. In this case, after the cessation of the inflow, the blocking insert 7 is removed from the support 4 in a fountain way and a jet pump 9 for oil production is installed in the axial stepped channel 6 of the support 4.

If there is a need, then study the productive formation 23, for which a fluid with abnormal physical properties, for example, with an abnormally high thermal neutron capture cross section, is pumped through the flexible pipe 19 through the holes 21 of its perforated lower section, or chemical treatment of the near-well zone of the productive formation 23, crushing chemicals in the reservoir 23, after which the study of the reservoir.

The present invention may find application in the oil industry for testing and development of wells, as well as in other industries where various media are produced from wells.

Claims (8)

1. A downhole installation comprising a pipe string with a packer installed on it from bottom to top with a central passage channel and a support, while the support has bypass windows and an axial step channel in which it is possible to install a blocking insert with a central passage channel or an jet pump in an active nozzle and a mixing chamber with a diffuser are installed in the casing, as well as the following are made: a channel for supplying the working fluid to the active nozzle, a channel for supplying the medium pumped out of the well and a channel for removing the mixture of media, and in all above the supply channel of the pumped-out medium is made, communicated with the last one, the passage channel with a seat for installing the sealing unit, and in the last there is an axial channel through which the flexible pipe with the possibility of its axial movement is passed through the feed channel of the pumped-out medium from the well, and at the lower end a flexible pipe has a logging device for measuring physical quantities, for example, electrical resistivity of rocks, and a jet pump is made with the following size ratios: ratio the diameter of the inlet section of the mixing chamber D _x to the diameter of the output section of the nozzle D _c is from 1.1 to 2.4, the ratio of the length of the mixing chamber L _to the diameter of the inlet section of the mixing chamber D _k is from 3 to 7, the ratio of the length of the nozzle L _c to the diameter of its outlet section D _c is from 1 to 8, the distance L from the outlet section of the nozzle to the inlet section of the mixing chamber is 0.3 to 2 diameters of the outlet section of the nozzle D _c , and the angle α of inclination of the diffuser to the longitudinal axis of the diffuser is 4 up to 14 °, the channel for removal of the mixture of media is communicated with erepusknymi windows and through the latter to the surrounding space of the pipe string and the working fluid supply passage communicates with the interior of the pipe above the jet pump. 2. Well jet installation according to claim 1, characterized in that the flexible pipe from the side of its lower end is made with holes in its wall. 3. The downhole jet installation according to claim 1, characterized in that the outer diameter of the flexible pipe D _g is from the outer diameter of the sealing unit D _{g a} value equal to D _gt ≤ (0.3-0.7) D _g . 4. The downhole jet installation according to claim 1, characterized in that several nozzles are installed in parallel with the mixing chamber and diffuser behind each outlet section of the nozzle in the jet pump housing. 5. The downhole jet installation according to claim 1, characterized in that a cable for remote communication with a logging tool is passed through a flexible pipe. 6. The method of operation of the well installation, which consists in installing a packer with a central passage channel, a support with bypass windows and an axial step channel for installing an inkjet pump or a blocking insert, sequentially from bottom to top, on the pipe string, lower the pipe string into the well and unpack packer in the area above the reservoir, then a jet pump with a sealing assembly installed in the housing of the latter is lowered into the well on a flexible pipe, and the flexible pipe is passed through the sealant the generating unit, and the logging device is fixed at the end of the flexible pipe below the jet pump, during the descent of the jet pump, the background values of the geophysical parameters of the reservoir are measured, the housing of the jet pump is installed in the axial stepped channel of the support and the logging device is lowered into the zone of the reservoir after that, by supplying a working fluid through the pipe string to the nozzle of the jet pump, a series of depressions are created in the sub-packer zone of the well, recording the flow rate of the well and the bottomhole pressure And then carried out the registration of geophysical parameters of the producing formation, while moving the logging tool when the jet pump along the borehole on coiled tubing, and then recovered jet pump with a flexible pipe and the logging tool from the wellbore to the surface. 7. The method of work according to claim 6, characterized in that the near-wellbore zone of the reservoir is cleaned using a logging tool, creating an acoustic effect on the reservoir and pumping out the clogging particles together with the reservoir fluid from the well with a jet pump, and then the jet pump is removed from the well with a logging tool and a blocking insert is installed in the axial stepped channel of the support with the subsequent launch of the well into operation in a fountain way, while after stopping the flow, the fountain method removes cabins from the support and blocking insert mounted in the stepped axial channel support a jet pump for oil extraction. 8. The method of work according to claim 6, characterized in that the study of the reservoir is carried out, for which a fluid with abnormal physical properties, for example, with an abnormally high thermal neutron capture cross section, is pumped through a flexible pipe through its perforated lower section, or chemical processing the borehole zone of the reservoir by crushing chemicals in the reservoir, after which the study of the reservoir in a depression mode or pumping of reaction products from the reservoir.

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