RU2674354C1 - Set of equipment for vibration wave impact on hydrocarbons containing formation - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to the oil and gas industry, and specifically to the filtration pressure waves generation devices for the hydrocarbon containing formation vibration wave treatment, and can be used to intensify the oil and gas production from productive formations. Set of equipment for vibration wave impact on the hydrocarbon-containing formation includes a central short-wave hydrodynamic generator, located in the well at the perforation interval level on the tubing string, through the wellhead interconnected with a discharge line and connected to the distribution unit by the working fluid discharge line, equipped with interconnected with the control module test-measuring elements, information connected to the reservoir parameters control elements, and interconnected to the resonator-converter long-wave hydrodynamic generator. In the discharge line between the distribution unit and the wellhead fittings a bypass is installed. Long-wave hydrodynamic generator is connected to the discharge line parallel to the bypass and is made in the form of in series installed on the distribution unit side check valve, hydro-pneumatic accumulator and a shut-off and control device. Resonator converter is the tubing string. Set contains at least one additional short-wave hydrodynamic generator, equipped with a switching device, located in the adjacent well at the perforation interval level on the tubing string and hydraulically connected to the equipped with a switching device central short-wave hydrodynamic generator.

EFFECT: enabling restoration of the reservoir design filtration properties in the wells continuous operation process with the expansion of the vibration wave impact zone on the well cluster area and simplification of the design, increase in the ease of operation and reducing time costs.

3 cl, 1 dwg

Description

The invention relates to the oil and gas industry, and in particular to devices for generating pressure filtration waves for vibrating a hydrocarbon-containing formation and can be used to intensify the extraction of oil and gas from productive formations.

The closest analogue of the invention is a set of equipment for vibrating a hydrocarbon-containing formation (RU, No. 2478778 C2, MPK - Е21В 43/25, Е21В 28/00 (2006.01), including a jet pump installed under the packer on the tubing string (Tubing), interconnected through wellhead valves with a discharge line and connected to the distribution unit by a line for pumping working fluid, equipped with control and measuring and control elements interconnected with the control module in the form of a station with data and control, informationally associated with the control parameters of the formation parameters.In the well at the level of the perforation interval on the tubing string there is a hydraulic hammer device as a central short-wave hydrodynamic generator, made in the form of a housing with inlet channels, inside of which cylinders with central transfer channels equipped with locking elements and located under the packer and hydraulically connected to the discharge line through the transfer the packer channel is a long-wave hydrodynamic generator, the output of which is interconnected with a resonator-transformer made in the form of a pipe and installed with a lower end at the level of the perforation interval.

A well-known set of equipment ensures the restoration of the filtration properties of the formation by means of the vibration microwave effect; sequential processing of sections of the zone of the wellbore, while the microwave action is distributed within the bottom-hole zone of one well in the form of an annular section around it. The restoration of the design filtration properties of the formation within the bottomhole zone of even one well is achieved by the well-known set, which is characterized by the complexity of the design, inconvenience in operation and requires significant time and material costs for its production and use.

Expanding the microwave exposure to process the next section of the well cluster zone requires interrupting the well operation process and reinstalling this operating set of equipment in the next well to affect its bottom-hole zone, or installing a new set of equipment in this well, which leads to an additional increase in financial and time costs. In this case, before installing a set of equipment in the next well, it is necessary to carry out labor-intensive work to prepare for impact on the bottom-hole zone of the well: planning the territory for arranging equipment, pumping units, laying communications, checking the technical condition of the well, reservoir and filtration parameters of the formation, flow profiles, water intake intervals. They carry out all other work required by the regulation, select and prepare the necessary working fluids and chemical agents, equip the wellhead with the required equipment, computer measuring and analytical complexes, after which they install equipment for the bottomhole and process the bottomhole zone of the well.

The basis of the invention is the task of improving the set of equipment for vibrating exposure to a hydrocarbon-containing formation, which due to design features ensures the restoration of design filtration properties of the formation during continuous operation of wells with expanding the zone of vibrating exposure to the wellbore zone, while simplifying the design and improving ease of use , and reducing time and material costs.

The problem is solved by the fact that in the set of equipment for vibrating the hydrocarbon containing formation, including a central short-wave hydrodynamic generator, located in the well at the level of the perforation interval on the tubing string, interconnected via wellhead fittings with a discharge line and an injection line connected to the distribution unit working fluid equipped with control and measuring elements interconnected with the control module, information related with elements for controlling the parameters of the formation, and a long-wave hydrodynamic generator interconnected with a resonator-transducer, according to the invention, a bypass is installed in the discharge line between the distribution unit and wellhead fittings, the long-wave hydrodynamic generator is connected in the discharge line parallel to the bypass and is made in the form of series-installed from the distribution node check valve, hydropneumatic accumulator and shut-off and control device, and resonator-pre The caller is a tubing string, the kit comprising at least one additional short-wave hydrodynamic generator equipped with a switching device located in a neighboring well at the level of the perforation interval on the tubing string and hydraulically connected to the central short-wave hydrodynamic generator, equipped with a switching device.

It is advisable to make the long-wave hydrodynamic generator removable.

It is advisable to provide a reset line with a locking and regulating device interconnected with the control module.

The invention is illustrated in the figure, which schematically shows a set of equipment for vibrating exposure to an oil-containing formation.

A set of equipment for vibrating a wave on an oil-containing formation contains a central short-wave hydrodynamic generator 1 located on a tubing string 2 in an injection well at the level of the perforation interval. The tubing string 2 is interconnected through wellhead fittings 3 with the working fluid injection line 4, which is connected to the distribution unit 5, and the discharge line 6.

In the discharge line 4 between the distribution unit 5 and the wellhead valve 3 there is a bypass 7 consisting of an inlet valve 8, a bypass valve 9, an output valve 10 included in line 4. In parallel with bypass 7, a long-wave hydrodynamic generator 11 is connected to column 2 tubing, which serves as a resonator-transducer. The long-wave generator 11. is made in the form of a check valve 12 of a hydropneumatic accumulator 13 of variable volume with an electric drive and a shut-off and control device 14, made in the form of a low-inertia plug valve with an electric drive, installed sequentially from the side of the distribution unit 5. The long-wavelength generator 11 is removable.

The set of equipment also contains one additional short-wave hydrodynamic generator 15 located in the adjacent producing well of the bush at the level of the perforation interval on the tubing string 16, hydraulically connected through the reservoir medium to the central short-wave generator 1. The short-wave generators 1 and 15 are equipped with switching devices 17 and 18, respectively.

If there are several producing wells in the bush, an additional short-wave generator 15 is installed on the tubing string 16 of each producing well in the bush.

The discharge line 4 is equipped with control and measuring elements 19 in the form of sensors for monitoring the parameters of the working fluid (pressure, temperature, etc.) installed on the wellhead 3, c; a hydropneumatic accumulator 13 and in the discharge line 6, which is equipped with a shut-off and regulating device 20 in the form of a low-inertia plug valve with an electric drive.

The set of equipment contains a control module 21, which is two information-related blocks: control unit 22 for microwave oscillators 11, 1, 15 and control unit 23 for submersible electric pump 24 of the producing well. Block 22 is associated with a locking and regulating device 14, control and measuring elements 19, locking and regulating device 20 and information. associated with the elements 25 of the control of reservoir parameters of the reservoir, installed, for example, at the wellhead and / or bottom hole.

A set of equipment works as follows.

When operating in the normal mode of the injection and production wells, the shut-off and control device 14 installed in the injection line 4 is fully open. The working fluid passes through the inlet valve 8 of the bypass 7, the inlet check valve 12, the hydropneumatic accumulator 13, the shut-off regulating device 14, the outlet valve 10 of the bypass 7. The bypass valve 9 and the shut-off-regulating device 20 installed in the discharge line 6 are closed. The working fluid through the wellhead valve 3 and the tubing string 2 is fed to the inlet of the central short-wave hydrodynamic generator 1. Under the action of the high-pressure head of the flow of the supplied fluid, the switching device 17 blocks the flow of the working fluid into the short-wave generator 1 and the entire flow; working fluid is directed through the end elements of the tubing string 2 and the bottom of the injection well into the oil-containing formation, providing the necessary reservoir pressure. Under the influence of reservoir pressure and rarefaction created at the inlet of the submersible electric pump 24 of the producing well, the project production rate is ensured. Under the action: the high-pressure head of the product flow by switching device 18, the product flow to the additional short-wave generator 15 is blocked and the entire product flow is directed through the tubing string 16 to the inlet of the submersible electric pump 24, thereby ensuring normal operation of the well wells.

With a decrease in filtration properties in the bottomhole zone of the injection well, its injectivity decreases. The flow rate of the working fluid at the inlet of the switching device 17 and the velocity head are reduced, and when the pressure reaches the maximum permissible value, the switching device 17 ensures the flow of the working fluid through the central short-wave generator 1, which generates high-frequency short-wave elastic vibrations of the fluid, providing a microwave effect on the bottom-hole zone of the discharge wells. After restoration of the filtration properties of the formation to design values, the high-pressure head of the working fluid increases and the switching device 17 blocks the flow of working fluid into the central short-wave generator 1, and the injection well goes into normal operation.

With a decrease in the filtration properties in the bottom-hole zone of the producing well, its flow rate decreases, while the pressure at the intake of the submersible electric pump 24 drops, and when a value equal to or less than the minimum allowable pressure in the well is reached, the sensor of the submersible electric pump 24 transmits a signal to the submersible electric pump control unit 23, changing the operation mode of the electric pump 24 with a lower feed rate. The flow rate of products at the input of the switching device 18 is reduced, the value of the pressure head falls below the maximum permissible. The switching device 18 ensures the flow of products through an additional short-wave generator 15, which generates high-frequency short-wave elastic vibrations of the product, providing a microwave effect on the bottom-hole zone of the producing well. After restoration of the filtration properties of the formation to design values, the production head is increased and the switching device 18 blocks the flow of products into the additional short-wave generator 15, putting the production well into normal operation.

When information is automatically received from the elements 25 of monitoring reservoir-reservoir parameters of the formation, the control unit 22 of the microwave oscillators 11, 1, 15 provides: monitoring the development of filtering processes of the formation within the zone of the wellbore, determining the area of the microwave exposure, the necessary characteristics of low-frequency long-wave elastic oscillations generated by the long-wave generator 1 in the injection well, control of the parameters of the long-wave generator 1. To start the long-wave generator 1 at the command of the control unit 22, the shutoff-regulating device 14 sharply shuts off the flow of injected working fluid, as a result of which a water hammer is initiated in the discharge line 4 (positive before the shutoff-regulating device 14, behind the shutoff-regulating device 14 - negative). Thus, in front of the locking and regulating device 14, a high pressure front appears, which propagates with the speed of sound to the hydropneumatic accumulator 13, and behind the locking and regulating device 14, a low pressure front, which propagates with the speed of sound in the liquid column of the tubing string 2. The kinetic energy of the flow of the working fluid located in the discharge line 4 between the shut-off and regulating device 14 and the distribution unit 5 is accumulated in the hydropneumatic accumulator 13, increasing the pressure in it thanks to the inlet check valve 12, which closes as soon as the pressure in the hydropneumatic accumulator 13 exceeds the value pressure in line 4. The volume of the hydropneumatic accumulator 13 is determined and set by the control unit 22 depending on the length of the ground part of line 4, as well as pressure and scab hydraulic fluid flow for which data is received from the control-measuring element 19 mounted in the hydropneumatic accumulator 13.

The moment of occurrence of the low pressure front is recorded by the control element 19 mounted on the wellhead 3, the information from which is supplied to the control unit 22. At. when the front of the low pressure of the end elements of the tubing string 2 is reached, the first stage of negative hydroblow in the liquid column of the tubing string 2 is completed. At the second stage of negative hydraulic shock, the pressure in the end elements of the tubing string 2 increases, due to which a front of increased pressure is formed, which moves with speed of sound along the string 2 of the tubing towards lower pressure. Having reached the mouth of the injection well, it is registered by the control and measuring element 19 mounted on the wellhead 3, the information from which is transmitted to the control unit 22. By the time interval between the signals received by the control unit 22, the operation parameters of the locking and regulating devices 14 and 20 are set, in which due to the pressure fluctuations arising in the liquid column during hydraulic shock, the liquid column in the tubing string 2 enters into longitudinal resonance, which ensures the transmission of elastic vibrations with high energy through the bottom of the injection well to the required section of the zone of the microwave exposure.

If it is necessary to increase the amplitude of elastic vibrations for a more effective vibrating effect on the formation, simultaneously with the shutoff of the shut-off and control device 14, the shut-off and control device 20 is opened for a predetermined period of time by the signal of the control and measuring element 19 installed in line 6, the pressure in line 4 locking and regulating device 14 is reduced.

This set of equipment allows you to set the characteristics of the vibration microwave treatment process: change the injectivity of injection and production debit wells, start and turn off short-wave and long-wave hydrodynamic generators, change the frequency and amplitude of elastic vibrations of the working fluid and formation medium, and determine the place of the microwave action.

Thus, the operation of the proposed set of equipment. a simple design ensures the restoration of the design filtration properties of the formation, without interrupting the process of operating the wells, providing the maximum total debit of the producing wells of the cluster and the design injectivity of the injection wells of the cluster while reducing time and material costs.

Claims (3)

1. A set of equipment for vibrating a hydrocarbon-containing formation with a microwave, including a central short-wave hydrodynamic generator located in the well at the level of the perforation interval on the tubing string, interconnected through wellhead fittings with a discharge line and connected to the distribution unit with a working fluid injection line equipped with a control -measurement elements interconnected with the control module, informationally connected with elements of control of the parameters of the place This and a long-wave hydrodynamic generator, interconnected with a resonator-converter, characterized in that a bypass is installed in the discharge line between the distribution unit and the wellhead valve, a long-wave hydrodynamic generator is connected in the discharge line parallel to the bypass and is made in the form of a check valve installed in series on the side of the distribution node , a hydropneumatic accumulator and a locking and regulating device, and a pump-comp column serves as a resonator-converter essornyh pipes, the kit comprises at least one additional shortwave hydrodynamic generator equipped with a switching device disposed in the offset well at the perforated interval in the column tubing and fluidically connected to the central short-hydrodynamic generator provided with a switching device. 2. The kit according to claim 1, characterized in that the long-wave hydrodynamic generator is removable. 3. The kit according to p. 1, characterized in that the discharge line is equipped with a locking and regulating device interconnected with the control module.

Images