RU2332592C1 - Horizontal well jet acidising and analysing plant - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: well jet plant incorporates an outer and inner strings. The outer string accommodates a jet pump and a packer. The jet pump casing has a pass with a seat and the channel feeding the medium to be pumped out communicating with the pass below the seat. The jet pump active nozzle communicates with the outer string above the seat. The jet pump diffuser communicates, on the outlet side, with the outer string hole space. The pass is arranged coaxial with the outer string to communicate with it. The channel feeding the medium to be pumped out incorporates a check valve and a limiter restraining the valve shut-off element travel relative to the seat. The inner string is furnished with a sealing element arranged on its lower end fitted into the string seat. The inner string and outer string form, above the seat, a circular channel feeding the working medium into the active nozzle. The inner string and the pass allows the flexible smooth logging pipe to enter the well below-parker space. The inner and outer strings diameters, those of the jet pump casing and flexible pipe and the operating well string inner diameter are interrelated in the range of from the wellhead to the jet pump location.

EFFECT: higher quality and higher efficiency of the plant.

1 dwg

Description

The invention relates to the field of pumping technology, mainly to downhole pumping units for testing and development of 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 2176336 C1, class F04F 5/02, November 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 the inserts, which is often longer than the estimated reaction time of the acid solution with the minerals of the reservoir.

The closest to the invention in terms of technical nature and the achieved result is a downhole jet installation comprising a packer mounted on a pipe string with a central channel and an inkjet pump in the housing of which an active nozzle and a mixing chamber with a diffuser are installed, as well as a working medium supply channel , the supply channel of the medium pumped out from the well, the jet pump output being connected to the annulus of the pipe string, the jet pump nozzle through the working medium supply channel it is connected to the internal cavity of the pipe string above the jet pump and the channel for supplying the medium pumped out of the well is connected to the internal cavity of the pipe string below the packer (see patent RU No. 2222717, class F04F 5/02, January 27, 2004).

This downhole jet installation allows you to influence the reservoir by creating depression and repression. However, the sealing unit overlaps the passage section of the pipe string, which does not allow equipment and various devices to be lowered into the well, for example, measuring devices, flexible pipes for feeding chemicals or hydraulic fracturing fluids, as well as devices for stimulating the formation, which narrows the possibilities of this installation .

The problem to which the present invention is directed is to improve the quality of testing and increasing production rates by changing the physical parameters of the borehole zone of the formation, for example, permeability, without using additional equipment for a jet pump, and also providing the possibility of carrying out the above treatment in the well productive formation when the jet pump is operating and when it is not working.

The technical result achieved by the implementation of the invention is to improve the quality of the work carried out in the well and to increase the productivity of the downhole jet installation when working to increase the productivity of the formation.

The problem is solved, and the technical result is achieved due to the fact that the downhole jet installation contains an outer and inner pipe string, with an jet pump and a packer mounted on the outer pipe string, an active nozzle and a mixing chamber with a diffuser coaxially mounted, and made a passage channel with a landing seat and a channel for supplying a medium pumped out of the well, communicated below the landing seat with a passage channel, a diffuser on the outlet side of it communicates with the annulus the outer pipe string, the active nozzle is in communication with the outer pipe string above the seat, while the passage channel is made coaxially with the outer pipe string and connected to it, the supply channel for the medium pumped out of the well is made with a check valve and an upstream stop valve of the check valve, for example ball relative to the seat of the check valve, the inner pipe string is made with a sealing unit at its lower end, located in the landing seat of the passage channel, and the inner pipe string it is formed with the formation of a landing channel above the seat with an outer pipe string of the annular channel for supplying the working medium to the active nozzle, a flexible smooth pipe with a logging tool mounted on its lower end is passed through the inner pipe string and the passage channel into the under-packer space of the well with the possibility of axial movement the inner diameter Do of the inner pipe string is at least 0.30 of the outer diameter D5 of the jet pump housing, the inner diameter Do of the inner pipe string is less than 1.15 times more than the outer diameter D3 of the flexible smooth pipe, the inner diameter D2 of the outer pipe string is not less than 1.15 larger than the outer diameter D1 of the inner pipe string, and the inner diameter D4 of the production casing in the interval from the wellhead to the installation location of the jet pump in it is not less than than 1.05 times the outside diameter D5 of the jet pump housing.

Analysis of various designs showed that the quality of work to increase the productivity of the reservoir can be improved by increasing the functionality of the installation in the study and testing of wells.

It was found that the above set of structural elements of the well installation allows you to organize a sequence of actions in which the equipment that is installed on the pipe string when carrying out well logging to study, test and develop productive formations in horizontal wells is most effectively used. At the same time, conditions have been created both for obtaining complete and reliable information about the state of productive formations, and for conducting processing of productive formations during the study, and it is possible to process a productive formation both with and without a working jet pump. The downhole installation makes it possible 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 a logging tool to record pressure, temperature and other physical parameters of the well and the medium pumped out of the well, and also record the reservoir pressure recovery curve in the under-packer space of the well without using 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 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.

In addition, it is possible to conduct acid treatment of the formation without first installing any functional inserts in the jet pump.

The implementation of a downhole jet installation with internal and external pipe columns makes it possible to form two concentric channels separated from each other, one of which, annular, formed by the space between these pipe columns, is designed to supply a working medium to the active nozzle of the jet pump, and the second is hermetically separated from of the annular channel, the channel formed by the inner cavity of the inner pipe string is intended for supplying, for example, an acid solution into the reservoir and / or flexibly descending through it a smooth pipe with a logging tool installed on it, which allows measurements of various parameters, for example, the temperature of the rocks along the wellbore or well flow rate, to be carried out in the surrounding area of the reservoir and sub-packer space of the well, as well as to process the reservoir with physical, for example, ultrasonic fields or the supply of a flexible smooth pipe into the zone of the reservoir of various chemical reagents for its processing. It is important that all these works can be carried out both when the jet pump is working and when it is not working, which allows you to expand the functionality of the installation when carrying out work to intensify the flow rate of a well.

Taking into account that the absolute dimensions of the well and, first of all, its diameter are limited by the technical capabilities for drilling wells and the strength characteristics of technical means for drilling and equipping wells, it is necessary to select the minimum necessary relative dimensions of the structural elements of the installation, at which the possibility of work in the well with the minimum possible hydraulic losses arising from the supply of the working medium to the active nozzle of the jet pump, chemical supply FIR reagents into the well, and out fluid outlet extracted therefrom and pumped from the reservoir products formed during processing. In the course of research and testing, it was found that the best results were achieved in a downhole jet installation, made in such a way that the inner diameter Do of the inner pipe string is not less than 0.30 from the outer diameter D5 of the jet pump housing and not less than 1, 15 times the outer diameter D3 of the flexible smooth pipe, the inner diameter D2 of the outer pipe string is not less than 1.15 larger than the outer diameter D1 of the inner pipe string, and the inner diameter D4 of the production casing in the interval from the wellhead to the installation site of the jet pump in it, not less than 1.05 times the outer diameter D5 of the jet pump body. As for the maximum relative sizes, they are determined by the maximum dimensions of the well that can be drilled in each particular case, however, in any case, the hydraulic resistance arising in the channels formed in the borehole jet installation will be lower than that obtained with the above minimum relative sizes.

As a result, intensification of work on research, testing 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 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 unit. The downhole jet installation comprises an outer 1 and an inner 2 pipe string. On the outer pipe string 1, a jet pump 3 and a packer 4 are mounted. An active nozzle 6 and a mixing chamber 7 with a diffuser 8 are coaxially mounted in the housing 5 of the jet pump 3, and a passage channel 9 with a seating seat 10 and a channel 11 for supplying the medium pumped out of the well are made communicated below the landing seat 10 with the passage channel 9. The diffuser 8 on the exit side is in communication with the annulus 12 of the outer pipe string 1. The active nozzle 6 is in communication with the outer pipe string 1 above the landing seat 10, while the passage channel 9 is aligned the outer pipe string 1 and communicated with it. The channel 11 for supplying the medium pumped out from the well is made with a non-return valve 13 and an upward restriction 14 of the shut-off member 15 of the non-return valve 13, for example, a ball, relative to the seat 16 of the non-return valve 13. The inner pipe string 2 is made with a sealing assembly 17 at its lower end located in the seat saddle 10 of the passage channel 9, and the inner pipe string 2 is installed with the formation above the landing seat 10 with the outer pipe string 1 of the annular channel 18 for supplying the working medium to the active nozzle 6. Through the inner the pipe 2 and the passage channel 9 are passed into the under-packer space of the borehole with the possibility of axial movement of the flexible smooth pipe 19 with a logging tool 20 installed on its lower end, and holes 21 are made in the wall of the flexible smooth pipe 19 to communicate the inner cavity of the flexible smooth pipe 19 with the surrounding its well space. The inner diameter Do of the inner pipe string 2 is not less than 0.30 from the outer diameter D5 of the housing 5 of the jet pump 3, and not less than 1.15 times the outer diameter D3 of the flexible smooth pipe 19, the inner diameter D2 of the outer pipe string 1 is not less than than 1.15 more than the outer diameter D1 of the inner string of pipes 2, and the inner diameter D4 of the production string 22 of the well in the interval from the wellhead to the place of installation of the jet pump 3 in it is not less than 1.05 times the outer diameter D5 of the body 5 of the jet pump 3.

The operation of the downhole jet installation for acid treatment of the formation and the study of wells consists in assembling the outer pipe string 1 by installing the jet pump 3 and packer 4 on the outer pipe string. The assembly is lowered into the well and the packer 4 is unpacked, and then run into the borehole of the inner pipe string 2 with a sealing assembly 17 and installing the latter in the landing seat 10, thereby forming an annular channel 18 for supplying the working medium to the active nozzle 6 of the jet pump 3. After that, they bring the descent into the zone of the productive formation of the well through the inner pipe string 2 of the flexible smooth pipe 19 with the logging tool 20, while measuring parameters, for example, temperature, in the well. Next, injection is carried out through the inner pipe string 2 and the passage channel 9 of the jet pump 3 or through a flexible smooth pipe 19 of chemical reagents, for example, an acid solution, into the well formation. Then, by means of a jet pump 3, by supplying the working medium through the annular channel 18 to the active nozzle 6, a depression is created on the reservoir and thus the reservoir is drained, removing the reaction products of the chemical treatment of the reservoir with chemical reagents. Then, when the jet pump 2 is operating, the current values of the rock physical fields and the formation fluid entering the well are recorded using a logging tool 20, and bottomhole pressure and flow rate of the well are recorded. Then the logging tool 20 is lowered to the bottom and the profile of the inflow and the physical parameters of the medium pumped out of the well are recorded while the jet pump 3 is operating, and this registration is performed several times with various depressions on the reservoir during the descent and lifting of the logging tool 20, the latter being moved along the well at different speeds. Then, the flow of the working medium into the active nozzle 6 is abruptly stopped and, using the logging tool 20, a curve is recorded for the formation pressure recovery in the under-packer space of the well.

At the end of the work, the logging tool 20 is removed from the well together with a flexible smooth pipe 19 and the internal string of pipes 2 and then the external pipe string 1 are successively lifted together with the jet pump 3, after which, after processing the received information, a decision is made to conduct further research of the well or transfer its operational mode.

The present invention can be used in the oil and gas industry in the development of horizontal wells after drilling or in their overhaul.

Claims (1)

A downhole jet installation comprising an outer and inner pipe string, with an jet pump and a packer mounted on the outer pipe string, an active nozzle and a mixing chamber with a diffuser coaxially mounted in the jet pump housing, and a passage channel with a seating seat and a feed channel for pumping out of the well are made the medium communicated below the landing seat with the passage channel, the diffuser on the outlet side of it is in communication with the annulus of the outer pipe string, the active nozzle is communicated with the outer pipe string the seat saddle, while the passage channel is made coaxially with the outer pipe string and connected with it, the supply channel for the medium pumped out from the well is made with a check valve and a limiter for moving up the shut-off element of the check valve, for example, a ball relative to the check valve seat, the inner pipe string is made with a sealing a node at its lower end, located in the landing seat of the passage channel, the inner pipe string being installed to form rings above the landing seat with the outer pipe string a channel for supplying a working medium to the active nozzle, through the inner pipe string and the bore channel, a flexible smooth pipe with a logging tool mounted at its lower end is passed into the under-packer space of the well with the possibility of axial movement, while the inner diameter Do of the inner pipe string is at least 0 , 30 from the outer diameter D5 of the jet pump housing and not less than 1.15 times the outer diameter D3 of the flexible smooth pipe, the inner diameter D2 of the outer pipe string is not less than 1.15 larger than the outer the diameter D1 of the inner pipe string, and the inner diameter D4 of the production casing of the well in the interval from the wellhead to the installation site of the jet pump in it is not less than 1.05 times the outer diameter D5 of the jet pump body.