RU2384757C1 - Method of operation of downhole jet installation in flowing well with abnormally low seam pressure - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: according to method into well it is down on column of pipes 11, packer 12 and circulating valves 14. It is implemented pumping into stratum acid bath. It is downed on flexible smooth pipe 1 into well manometer gage 2, potted component 3 and jet pump 4. Outlet of diffusion cell 8 of pump 4 is connected to hole clearance of pipe 1, its nozzle 6 - to cavity of pipe 1, and in the channel 9 of lead-in of pumped medium it is installed back valve 10. It is isolated by component 3 distance between pipe 1 and cavity of pipe column 11 with underpack zone well. It is fed by pipe 1 working fluid medium into nozzle 6 and it is implemented drainage of well with continuous measurement of bottom-hole pressure at different depression. It is deeply stopped working pump operation 4 and valve 10 it is isolated cavity of pipe 1 over pump 4 with its annulus space over element 3 and underpacker 4, keeping under packer 12 reduced bottom-hole pressure. It is implemented registration of curve pressure recovery. By pipe 1 under pressure it is fed nitrogen, which is extruded working liquid medium, adjusting pressure over and pump 4. It is bleeded nitrogen pressure in pipe 1 and with its help it is lifted pump 4 with element 3 and manometre gage 2 on the surface. It is launched well into operation by fountain method.

EFFECT: reliability growth of operation and productivity of jet installation.

1 dwg

Description

The invention relates to the field of pumping technology, mainly to a method of operating a downhole jet installation for research, repair, testing and development of flowing wells.

There is also known a method of operating a downhole jet installation, which includes lowering a string of pipes with a jet pump and a packer into the well, supplying a liquid working medium to the nozzle of the jet pump and pumping the produced liquid out of the well (see patent RU 2129671, class F04F 5/02, 27.04 .1999).

This method of operation of a downhole jet unit allows for processing of the wellbore zone using physical, for example ultrasonic, fields and creates depressions on the reservoir, which narrows the scope of use of this downhole jet unit.

The closest to the invention in technical essence and the achieved result is a method of operating a downhole jet installation, which consists in the fact that a jet pump is sequentially mounted on a pipe string, in the housing of which a step passage channel with a seat between the steps is made and it is possible to install interchangeable seats functional inserts, a packer and at the lower end of the pipe string with a perforated section, an autonomous logging tool, lower this assembly on the pipe string into wells inu, after the autonomous logging tool reaches the design depth, the packer is unpacked and a functional insert is installed in the stepped passage channel of the jet pump to register formation pressure recovery curves, then by supplying a liquid working medium to the jet pump nozzle, at least three depressions per layer are created in the sub-packer zone and, measuring on the surface the volume of fluid pumped out during the duration of each depression, the flow rates of the liquid medium pumped out of the formation are determined, and then with the help of Using a functional insert for registering reservoir pressure recovery curves, a reservoir pressure recovery curve is recorded in the sub-packer space of the well, and then when the jet pump is running, the pipe string assembly is lifted and physical rock fields along the borehole are recorded using an autonomous logging tool (see RU patent No. 2256103, cl. F04F 5/02, 07/10/2005).

This method of operation of a well jet device allows for well research, however, its capabilities are limited, which is associated with a stationary installation of a jet pump in a well and the limitation of work on treating a well with chemical reagents.

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.

The technical result achieved by the implementation of the invention is to increase the reliability and productivity of the downhole jet installation during processing of the reservoir and testing the well.

This problem is solved, and the technical result is achieved due to the fact that the method of operating a well jet device in a gushing well with an abnormally low reservoir pressure consists in lowering the packer and the circulation valves installed above it on the tubing string, unpacking packer, and then pumping along the tubing string into the productive layer of the acid solution is carried out, then the sealing element is lowered into the well on a flexible smooth pipe into the well, including a pressure element and sealing cuffs, under which an autonomous pressure gauge is installed below it, and above it is a jet pump, in the body of which a nozzle and a mixing chamber with a diffuser are installed, while the diffuser outlet is connected to the annulus of a flexible smooth pipe, the jet pump nozzle is on the side the entrance to it is connected to the internal cavity of the flexible smooth pipe, and a check valve is installed in the channel for supplying the medium pumped out from the well in the jet pump housing and placed in the latter m from the entrance to it, disconnect by means of a sealing element the annular space between the flexible pipe and the inner cavity of the tubing string with the sub-packer zone of the well, then the working fluid is fed through the flexible smooth pipe under pressure into the nozzle of the jet pump and the well is drained, removing at the same time, from the reservoir, reaction products with continuous measurement using an autonomous bottomhole pressure gauge for various depressions on the reservoir, then the work from the jet pump and through the non-return valve, separate the internal cavity of the flexible smooth pipe above the jet pump together with its annulus above the sealing element and the under-packer zone of the well under the jet pump, while maintaining a reduced bottomhole pressure under the packer at which a curve is recorded using an autonomous pressure gauge recovery of reservoir pressure, then nitrogen is supplied through a flexible smooth pipe under pressure and with its help it is forced out of its internal cavity and its annulus In this way, the working liquid medium is equalized, so that the pressure above and below the jet pump is equalized, and then the nitrogen pressure in the flexible smooth pipe is vented and, with its help, the jet pump with a sealing element and an autonomous pressure gauge is lifted to the surface, after which the well is launched to work in a fountain way.

An analysis of the operation of the well jet installation showed that the reliability and efficiency of the installation can be improved by more thorough cleaning of the near-wellbore zone of the formation in flowing wells with abnormally low formation pressure, for example, in gas condensate wells, reducing the time for carrying out these works and expanding the functionality of the installation when testing and developing wells without rearrangement in the installation of 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 you to evaluate the technical condition and productivity of the well, as well as properties pumped out of the well medium. 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 an autonomous pressure gauge and a jet pump mounted on a flexible smooth pipe, in the housing of which a nozzle and a mixing chamber with a diffuser are installed, as well as a string of tubing with a packer for sealing the space between the tubing string and casing, and installation in the pipe wall of the tubing above the packer of circulation valves allows for the processing and hydrodynamic studies of the reservoir without the involvement of the crew teams thorough repair of wells, and after completion of work do not shut off the well.

The implementation of the sealing element comprising a pressure element and sealing cuffs makes it possible to quickly install a jet pump in the tubing string and hermetically disconnect the space of the well below and above the jet pump.

The installation of a jet pump in the tubing string makes it possible to create a number of different depressions in the sub-packer zone of the well with its help, and using a stand-alone pressure gauge, record pressure, conduct research and test the well, and also record the recovery curve of reservoir pressure in the sub-packer space wells without the use of a specially designed functional insert. At the same time, it is possible to control the magnitude of depression by controlling the rate of pumping of the working fluid. During the formation test, it is possible to adjust the pumping mode by changing the pressure of the working fluid 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 with a check valve eliminates the possibility of spontaneous overflow of the working medium into the under-packer zone both with the working and non-working jet pump.

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

The drawing shows a longitudinal section of a downhole jet installation for implementing the method of its operation in a gushing well with an abnormally low reservoir pressure.

The downhole jet installation comprises a self-contained pressure gauge 2 mounted on a flexible smooth pipe 1 from bottom to top, a 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. The diffuser 8 output is connected to the annular space of the flexible smooth pipe 1 and the nozzle 6 of the jet pump 4 is connected from the input side to the internal cavity of the flexible smooth pipe 1. A check valve 10 is installed in the channel 9 for supplying the medium pumped out from the well in the channel 5 of the jet pump 4, size enny in the latter by the entrance. The tubing string 11 is made with a packer 12 for sealing the space between the tubing string 11 and the casing 13. Circulating valves 14 are installed in the wall of the tubing string 11 above the packer 12. The sealing element 3 is made in the form of a cylindrical body 15 , in the lower part of which a support sleeve 16 is fixed with a stop flange 17 at its lower end and a movable pressure element 18 mounted above it on the support sleeve 16, between which and the lower part of the cylindrical body 15 installed elastic sealing cuffs 19.

On the tubing string 11, the packer 12 and circulation valves 14 are lowered into the well 14. The packer 12 is unpacked, and then the acid solution is pumped through the tubing string 11 into the well formation. Next, a self-contained pressure gauge 2, a sealing element 3 and a jet pump 4 are lowered onto a flexible smooth pipe 1 into the well. A sealing element 3 is placed with the stop of the pressure element 18 in the circulation valves 14, while the cylindrical body 15 is shifted down and expands the sealing cuffs 19, sealing the ring the gap relative to the tubing string 11. Then, a flexible fluid pipe 1 is supplied under pressure with a working fluid in the nozzle 6 of the jet pump 4, the well is drained and removed from the productive formation reaction products with periodic measurement of well flow rates at different depressions on the reservoir and using a stand-alone manometer 2 continuous recording of bottomhole pressure.

Then, the operation of the jet pump 4 is abruptly stopped and, by means of the check valve 10, the internal cavity of the flexible smooth pipe 1 above the jet pump 4 is disconnected together with the annular space 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 low bottomhole pressure, at which using a stand-alone manometer 2 conduct registration of the recovery curve of reservoir pressure. Then, through a flexible smooth pipe 1, nitrogen is supplied under pressure and with its help the working fluid is displaced from its internal cavity and its annulus and the pressure is thus equalized above and below the jet pump 4, and then the nitrogen pressure in the flexible smooth pipe 1 is vented and with its help, they lift the jet pump 4 with a sealing element 3 and an autonomous pressure gauge 2 to the surface, after which work is carried out to launch the well into operation in a fountain way.

The present invention can be used in the oil and gas industry in the development of flowing wells after drilling or in their underground repair in order to intensify the flow of hydrocarbons.

Claims (1)

The method of operation of a downhole jet installation in a gushing well with an abnormally low reservoir pressure, namely, that a packer and the circulation valves installed above it are lowered into the well, the packer is unpacked, and then pumping is carried out through the tubing string in the reservoir acid solution, then lowering on a flexible smooth pipe into the well a sealing element, including a pressure element and sealing cuffs, under which set there is an autonomous pressure gauge below it, and above it there is a jet pump, in the body of which a nozzle and a mixing chamber with a diffuser are installed, while the diffuser outlet is connected to the annular space of the flexible smooth pipe, the nozzle of the jet pump is connected to the internal cavity of the flexible smooth pipe from the entrance to it and a check valve is installed in the channel for supplying the medium pumped out from the well in the channel of the jet pump; the glacial space between the flexible pipe and the inner cavity of the tubing string with the under-packer zone of the well, then the working fluid is fed through the flexible smooth pipe under pressure into the nozzle of the jet pump and the well is drained, while removing reaction products from the reservoir with continuous measurement with using an autonomous bottomhole pressure gauge for various depressions on the reservoir, then the jet pump stops abruptly and through the check valve disconnect the internal the flexible smooth pipe over the jet pump, together with its annular space above the sealing element and the well under-packer area under the jet pump, maintain a reduced bottomhole pressure under the packer, at which the formation pressure recovery curve is recorded using an autonomous pressure gauge, then along the flexible smooth pipe nitrogen is supplied under pressure and with its help the working fluid is displaced from its internal cavity and its annulus and thus the pressure is equalized above and below uynym pump and then vented with nitrogen pressure in a flexible and smooth tube with its help lift jet pump with the sealing member and the wireless transmitter to the surface, followed by work to launch work well fountain manner.