RU2263237C1 - Method for borehole jet plant operation during gas production from gas-condensate well - Google Patents

Abstract

FIELD: borehole jet plants, particularly for gas production.

SUBSTANCE: method involves mounting inlet funnel, packer and jet pump having body with inlet channels for gaseous medium and medium to be pumped, as well as through-pass channel with seat arranged between stages; lowering above assembly into well so that inlet funnel is arranged above perforation roof of productive formation; removing packer; lowering well-logging device suspended to borehole cable in productive formation zone through through-pass channel, wherein the well-logging device is lowered along with sealing unit preliminary connected to borehole cable; installing sealing unit on seat in through-pass channel of jet pump so that borehole cable may reciprocate through the sealing unit; recording geophysical parameters of production formation within interval defined between inlet funnel and well bottom; creating differential pressure drawdown by supplying high-pressure gaseous medium in active nozzle through hole annuity; draining well within 4-10 hours along with liquid medium pumping out from the well bottom; recording geophysical parameters within interval defined by well bottom and inlet funnel when jet pump is in its working state; lifting well-logging device and borehole cable from the well; lowering rock drill or device, which applies acoustic action on the formation, connected to borehole cable into production formation interval and secondarily penetrating in the formation or cleaning well bore zone by applying acoustic action in drawdown mode or by providing hydraulic action on formation in which drawdown is alternated with overbalance when jet pump is in its working state; removing rock drill or device which applies acoustic action on the formation along with removing borehole cable and installing insert for recording change of formation pressure buildup having independent manometer and channel for medium to be produced from the well, wherein the channel is provided with check valve; creating differential pressure drawdown by supplying gaseous medium into active nozzle of jet pump; stopping gaseous medium supply into the active nozzle after formation drainage termination to separate well spaces above and under the packer by closing check valve of the insert; recording change of formation pressure buildup in well space under the packer by manometer; removing the insert and manometer from the well; isolating pipe string interior from hole annuity by installing blocking insert with through-pass channel in through-pass channel and bringing the well into flush operation mode through jet pump. The described method is used in the case of well yield reduction.

EFFECT: increased operational reliability and output from gas-condensate wells.

Description

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

A known method of operating a jet downhole installation, comprising supplying an active liquid medium to a nozzle of a jet apparatus through a tubing string, entraining a passive medium with it and mixing it with a mixture of mediums from a well to the surface (see RU 2059891 C1, F 04 F 5 / 02, 05/10/1996).

This method of operating a downhole jet installation allows pumping out various produced media, for example oil, from a well while processing the produced environment and the near-wellbore zone of the formation, however, in this method, the working medium is supplied to the nozzle of the jet apparatus through a pipe string, which in some cases narrows the area of use this installation.

The closest to the invention in technical essence and the achieved result is a method of operating a downhole jet installation, including installing tubing strings with a jet pump and a packer in the well, unpacking the packer, lowering the well into the well through the passage channel on the cable of the emitter and receiver-converter of physical fields together with a sealing unit, installing the latter on a seat in the passage channel, placing the emitter and receiver-converter of physical fields above the roof su- reservoir and supplying fluid under pressure to the active nozzle of the jet pump with the creation of pressure drawdown and recording parameters of the fluid flowing from the reservoir (see. Patent RU 2106540 C1, cl. F 04 F 5/02, 10.03.1998).

This method of operation of a downhole jet installation allows for various technological operations in the well below the installation level of the jet pump, including by creating a pressure differential above and below the sealing unit. However, this method of operation does not allow full use of the capabilities of a downhole jet unit due to the lack of operations to increase the flow rate of a productive formation by repeated perforation.

The technical result, the achievement of which the present invention is directed, is to increase the reliability and productivity in the operation of gas condensate wells.

The specified technical result is achieved due to the fact that the method of operating a well jet device during the operation of gas condensate wells consists in installing a bottom-up input funnel with a liner, a packer and a jet pump, in the housing of which there is a channel for supplying a gaseous medium and a channel for supplying pumped out wells of the medium, a stepped passage channel with a seat between the steps, lower this assembly on the pipe string into the well, while the inlet funnel is located above the roof of the product perforation of the reservoir, then unpack the packer and then lower the logging tool together with the sealing assembly, which is previously placed on the logging cable and installing the sealing assembly on the seat in the passageway of the jet housing, through the passageway channel of the jet pump body into the well into the zone of the reservoir on the wireline cable pump with the possibility of reciprocating movement of the logging cable through the sealing unit, during the descent, the geophysical parameters of the productive formation in the interval from the input funnel to the bottom of the well, then by supplying a gaseous medium into the active nozzle of the jet pump through the annulus under pressure of the jet pump, create a depression on the formation and drain the well for 4-10 hours, pumping out the liquid medium from the bottom of the well then, when the jet pump is running, the geophysical parameters of the reservoir are recorded in the interval from the bottom of the well to the inlet funnel, the logging tool is removed from the well together with the logging cable and a sealing unit to the surface, and then a perforator or device for acoustic impact on the reservoir in the interval of the reservoir is lowered into the well on the logging cable, and when the jet pump is operating, the reservoir is re-perforated or its borehole is cleaned by acoustic exposure in the depressed mode or in the hydraulic mode impact on the reservoir: depression + repression, then remove the perforator or device for acoustic impact from the well with a logging cable to the surface and an insert is installed on the seat of the passage channel for recording reservoir pressure recovery curves (HPC) with an autonomous pressure gauge and a channel for passage of the medium pumped out of the well into which the check valve is pre-installed, by creating a gaseous medium into the active nozzle of the jet pump depression on the reservoir, and at the end of the drainage of the reservoir, the supply of gaseous medium to the active nozzle of the jet pump is stopped and thereby disconnect above the under-packer space of the well as a result of automatic closure of the insert check valve to register formation pressure recovery curves, after which the autonomous pressure gauge records the recovery pressure curve of the reservoir pressure in the under-packer space of the well, and then the insert for registering the pressure-measuring device with the autonomous pressure gauge is removed to the surface, and then the internal the cavity of the pipe string and the annulus of the well by installing a blocking insert in the stepped passage channel with a through channel and start the well into operation in a fountain way through a jet pump, while the above-described cycle of research and processing of the borehole zone of the reservoir is repeated in case of a decrease in the flow rate of the well.

After installing a blocking insert, it is possible to carry out acid treatment and / or hydraulic fracturing of a reservoir by pumping an acid solution and / or hydraulic fracturing fluid through a pipe insert through a blocking insert, followed by removing the reaction products and / or hydraulic fracturing fluid from the reservoir by pumping them with a jet pump.

With hydrodynamic effects on the formation, it is preferable that the depression time over the repression time is less than 1.5 times, and the absolute value of the depression should be no less than the absolute value of the repression on the formation.

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 sequence of actions during the operation of wells, in this case, gas condensate wells.

It was found that the above sequence of actions allows the most efficient use of a downhole jet unit when carrying out work to intensify gas production from gas condensate wells by increasing the flow of gas from the reservoir. Due to the creation of depression in the under-packer zone, temperature anomalies are created along the wellbore within 4-10 hours, the registration of which allows us to evaluate the technical condition of the well and, in combination with other methods of well research, allows us to determine their productivity. With the created depression, the jet pump removes the above particles and media from the reservoir, which are transported to the surface through the inner cavity of the pipe string at high speed, and using the logging tool and insert to record the reservoir pressure recovery curve, a study is made of the reservoir mode of operation, in particular gas flow dynamics. At the same time, it is possible to visually control the magnitude of the depression, receiving information via a logging cable. Additional opportunities for stimulation of the inflow are provided due to the possibility of carrying out acid treatment of the reservoir, hydraulic fracturing of the reservoir and combined effects on the reservoir in the depression + repression mode. It should be noted that all these works can be carried out without removing the pipe string with the jet pump to the surface, which significantly reduces the idle time of the well for the time of stimulating the inflow from the reservoir. In addition, during the formation testing, it is possible to adjust the pumping mode by changing the pressure of the gaseous medium supplied to the active nozzle of the jet pump. During the study, it is possible to move the logging tool along the well, and the study can be carried out at any operating mode of the jet pump. The overlapping blocking insert of the channels connecting the jet pump with the in-pipe space allows you to directly communicate the in-pipe space of the pipe string with the sub-packer zone and the reservoir. Thus, this method of work allows you to effectively carry out activities to intensify the flow rate of the well during its operation, while conducting a comprehensive study of the well. It should be noted that the sequence of actions described in the invention allows to constantly monitor the progress of work to intensify the influx of gaseous medium extracted from the reservoir. In particular, the recovery pressure curves obtained at various stages of the implementation of the described method of operation, allow to obtain an objective picture of the state of the reservoir, depending on the work carried out to increase the permeability of the reservoir.

Thus, the achievement of the task is achieved - improving the reliability and performance during research and hydraulic fracturing of the reservoir.

Figure 1 shows a longitudinal section of a downhole jet unit for implementing the described method of working with a sealing unit and a logging tool installed in it, Figure 2 shows a longitudinal section of a downhole jet unit with a sealing unit and a perforator installed in it, and Fig. 3 is a longitudinal section of the installation with the insert for recording the recovery curve of reservoir pressure and figure 4 is a longitudinal section of the installation with a blocking insert.

The downhole jet installation comprises an inlet funnel 2 with a liner 3 mounted on a pipe string 1 from bottom to top, a packer 4 with a central channel 5 formed therein, and a jet pump 6, in the housing 7 of which an active nozzle 8 and a mixing chamber 9 are coaxially mounted, and are also made a channel 10 for supplying a gaseous medium, a channel 11 for supplying a medium pumped out from the well and a step-through passage channel 12 with a seat 13 between the steps. In the stepped passage channel 12, it is possible to install a sealing assembly 14, which is movably placed on the logging cable 15 above the tip 16 for connecting the logging tool 17, and inserts: blocking 18 with a through passage channel 19, and an insert 20 for recording formation pressure recovery curves (CVD) ) in the under-packer space of the well, together with an autonomous pressure gauge 21 and a channel 22 for passage of the medium pumped out of the well, in which the check valve 23 is pre-installed. To the logging cable 15, a perforator 24 or device for acoustic impact on the reservoir 25 can also be connected. The output of the jet pump 6 is connected to the inner cavity of the pipe string 1 above the sealing assembly 14, the nozzle 8 of the jet pump 6 is connected to the annulus of the well through the supply channel of the gaseous medium 10 ( the pipe string 1) and the channel 11 for supplying the medium pumped out from the well is connected to the internal cavity of the pipe string 1 below the sealing assembly 14, while the inserts 18 and 20 can be made in the upper part with a fitting leniem 26 for installation and removal from the well.

The method of operation of a downhole jet installation during the operation of gas condensate wells consists in mounting an inlet funnel 2 with a liner 3, a packer 4 and an jet pump 6, in the casing 7 of which a channel 10 for supplying a gaseous medium and a channel 11 for supplying are mounted on the pipe string 1 from the bottom up. pumped out of the well medium, a stepped passage channel 12 with a seat 13 between the steps. This assembly is lowered on the pipe string 1 into the well, while the inlet funnel 2 is located above the perforation roof of the reservoir 25. Next, the packer 4 is unpacked and then lowered through the passage 12 of the housing 7 of the jet pump 6 into the well into the zone of the reservoir 25 on the logging cable 15, the logging tool 17 together with the sealing assembly 14, which is preliminarily placed on the logging cable 15 and the sealing assembly 14 is mounted on the seat 13 in the passage channel 12 of the housing 7 of the jet pump 6 with the possibility of the reciprocating motion of the logging cable 15 through the sealing unit 14.

During the descent, the geophysical parameters of the reservoir 25 are recorded in the interval from the input funnel 2 to the bottom of the well. Then, by feeding through the annulus under the pressure of the gaseous medium into the active nozzle 8 of the jet pump 6, a depression is created on the formation 25 and the well is drained for 4-10 hours, while pumping out the liquid medium from the bottom of the well. Next, when the jet pump 6 is operating, the geophysical parameters of the reservoir 25 are recorded in the interval from the bottom of the well to the inlet funnel 2. Next, the logging tool 17 is removed from the well together with the logging cable 15 and the sealing unit 14 to the surface. After that, a perforator 24 or a device for acoustic impact on the reservoir 25 in the interval of the reservoir 25 is lowered into the well on a logging cable 15, and when the jet pump 6 is operating, the perforated reservoir 25 is re-perforated or its borehole is cleaned by acoustic exposure in the depressed mode or in the mode hydraulic impact on the reservoir 25: depression + repression. Next, a perforator 24 or a device for acoustic impact with a wireline cable 15 is removed from the well to the surface and a insert 20 is installed on the seat 13 of the passage channel 12 for recording reservoir pressure recovery curves (HPC) with an autonomous pressure gauge 21 and channel 22 for passage of the medium pumped out of the well in which the check valve 23 is pre-installed. By supplying a gaseous medium to the active nozzle 8 of the jet pump 6, a depression is created on the formation 25. At the end of the drainage of the reservoir and 25 stop the flow of gaseous medium into the active nozzle 8 of the jet pump 6 and thereby disconnect the above- and under-packer space of the well as a result of automatic closing of the check valve 23 of the insert 20 for recording the formation pressure recovery curves, and then register the formation pressure recovery curve with an autonomous pressure gauge 21 in the sub-packer space of the well. After registering the reservoir pressure recovery curve, an insert 20 is removed for registering the HPC with an autonomous pressure gauge 21 to the surface, and then the internal cavity of the pipe string 1 and the annulus of the well are disconnected by installing a blocking insert 18 with a through passage channel 19 in the stepped passage channel 12 and the well is launched into work in a fountain way through the jet pump 6, while the above-described cycle of research and processing of the borehole zone of the reservoir 25 is repeated when the flow rate of the well falls, For example due to the accumulation at its bottom a liquid medium.

After installing the blocking insert 18, it is possible to carry out acid treatment and / or hydraulic fracturing of the reservoir 25 by pumping through the pipe string 1 through the blocking insert 18 an acid solution and / or hydraulic fracturing fluid, respectively, followed by removing the reaction products and / or hydraulic fracturing fluid from the reservoir 25 by pumping jet pump 6.

With hydrodynamic effects on the reservoir 25, it is preferable that the depression time over the repression time is less than 1.5 times, and the absolute value of the depression should be no less than the absolute value of the repression on the reservoir.

The present invention can be used in the gas industry for the development of gas condensate wells after drilling and during their operation.

Claims (3)

1. The method of operation of a well jet device during the operation of gas condensate wells, which consists in installing an inlet funnel with a liner, a packer and a jet pump from the bottom up, in the housing of which there is a channel for supplying a gaseous medium and a channel for supplying a medium pumped out of the well, a step-through passage channel with a seat between the steps, lower this assembly on the pipe string into the well, while the inlet funnel is located above the roof of the perforation of the reservoir, then the packer is unpacked and then with the logging device is put into the well through the passage channel of the jet pump housing into the well of the reservoir on the wireline cable with a sealing assembly, which is previously placed on the wireline cable, and the sealing assembly is placed on a seat in the passage channel of the jet pump housing with the possibility of reciprocating motion logging cable through the sealing unit, during the descent process, the geophysical parameters of the reservoir are recorded in the interval from the input funnel to the bottom of the well, then by feeding through the annulus under the pressure of a gaseous medium into the active nozzle of the jet pump, a depression is created on the formation and the well is drained for 4-10 hours, pumping out the liquid medium from the bottom of the well, then when the jet pump is running recording the geophysical parameters of the reservoir in the interval from the bottom of the well to the inlet funnel, the logging tool is removed from the well together with the logging cable and the sealing unit to the surface, and then lowered into the perforator or device for acoustic impact on the reservoir in the interval of the reservoir and when the jet pump is operating, re-perforate the reservoir or clean its near-well zone with acoustic impact in the depressed mode or in the hydraulic stimulated reservoir mode: depression + repression, then a perforator or device for acoustic impact with a wireline cable is removed from the well to the surface and set to fit In place of the passage channel, an insert for recording reservoir pressure recovery curves (HPC) with an autonomous pressure gauge and a channel for passing the medium pumped out of the well into which the check valve is pre-installed, by depressing the gaseous medium into the active nozzle of the jet pump, creates a depression on the formation, and at the end drainage of the reservoir stop the supply of gaseous medium to the active nozzle of the jet pump and thereby disconnect the above- and sub-packer spaces of the well as a result of automatic the closure of the insert check valve to record the reservoir pressure recovery curves, after which the reservoir pressure recovery curve is recorded by the stand-alone pressure gauge in the under-packer space of the well, and then the insert for registering the pressure control valve with the stand-alone gauge is removed to the surface, after which the internal cavity of the pipe string and the annulus are separated wells by installing a blocking insert with a through channel in the stepped through passage and start the well into operation annym way through the jet pump, wherein the series of studies described above and processing the near-producing formation zone is repeated in case of a fall well production. 2. The method according to claim 1, characterized in that after installing the blocking insert, acid treatment and / or hydraulic fracturing of the reservoir are carried out by pumping through the pipe string through the blocking insert, respectively, an acid solution and / or hydraulic fracturing fluid, followed by removal of the reaction products and / or fracturing fluid from a reservoir by pumping out by a jet pump. 3. The method according to claim 1, characterized in that with hydrodynamic effects on the formation, the time of depression exceeds the time of repression by less than 1.5 times, and the absolute value of depression is not less than the absolute value of repression on the formation.

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