RU2579838C1 - Method of long-wave affecting on oil deposit and device for its realization - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: group of inventions relates to oil and gas industry and can be used in oil production, including late stages of operation, to increase oil recovery factor, increasing reservoir recovery and reduction of deposits of paraffin substances. Method of long-wave action on oil deposit includes pumping of hydrocarbons from the internal elastic pipeline of coaxial type production well and space between internal elastic and external made from solid material, pipelines of the well. Inner flexible pipeline wall thickness of which is selected so that the flexible pipe was not subject to collapsing, is provided with check valves of ball type and internally with spiral cord. Maintained in pipelines identical hydrostatic pressure. Generating elastic shock waves. Long-wave elastic seismic waves by means of throttle valves from diameter of holes of which depends on the value of energy effecting on productive formation and on the internal elastic pipeline. Note here that is resonance frequency of elastic waves and oscillations delay are controlled to provide optimum amplitude of oscillations of the internal elastic tube. One performs pulse pumping of hydrocarbons from the internal elastic pipeline and from the space between internal elastic and external pipelines.

EFFECT: higher reservoir recovery, intensified oil inflow and reduction of paraffin deposits.

2 cl, 1 dwg

Description

The invention relates to the oil and gas industry and can be used in oil production, including in the late stages of operation, to increase the oil recovery coefficient, increase oil recovery and reduce deposits of asphalt-resinous-paraffin substances.

A known method of long-wave exposure to an oil deposit and a device for its implementation (RF patent 2325504, CL ЕВВ 28/00, ЕВВ 43/25). According to the invention, an elastic shock wave is generated at the wellhead filled with the working fluid by pulsed injection of an additional dosed volume of fluid. Form long-wave elastic seismic waves irradiating the oil reservoir. The device includes an energy carrier, a mobile pumping unit with a capacity for the working fluid and a hydraulic shock mechanism made in the form of a hydraulic cylinder with a rodless piston dividing it into two cavities, one of which is connected to the well cavity and to the mobile pumping unit, and the other is connected to the energy carrier.

The disadvantage of this method is that there is a loss of energy of shock waves due to the gradual attenuation of elastic shock waves on the walls of the pipeline.

A known method of pulsed exposure of a reservoir and a device for its implementation (RF patent 2107814, class ЕВВ 43/25, ЕВВ 28/00), including the transfer of molecular-wave vibrations from the emitter of a hydraulic hammer installed on the mouth, along the tubing string (Tubing) through its upper end and along a column of fluid in the well through its upper level to the reservoir. Simultaneously with the transmission of molecular-wave oscillations in the well, the pressure is increased by supplying fluid from a pump with a pressure accumulator connected to the wellhead by the inlet to the tubing, and hydraulic shock is created in the fluid column in the well by periodically blocking the pump inlet with a hydraulic hammer emitter while transmitting molecular wave oscillations on the tubing and a column of fluid in the well. The device includes a hammer with a hammer and an emitter elastically connected to the body of the hammer in the form of a converter of pulse loads into molecular wave vibrations, made in one piece with transmitters of molecular wave vibrations to the upper end of the tubing and to the upper level of the liquid column in the well.

The disadvantage of this method is the destructive effect of shock waves on a rigid metal pipe and welded joints.

Closest to the claimed invention are a method and apparatus for the development of oil and oil and gas fields (RF patent 2502865, CL EV 43/25, EV 28/00). According to the invention, the long-wave effect on the oil reservoir is ensured by filling the working fluid of the entire borehole space and maintaining pressure therein, while an elastic shock wave is generated at the wellhead by pulsed injection of an additional dosed volume of fluid, while maintaining oscillations of the fluid column in the borehole while maintaining vibrational energy parameters process and form long-wave elastic seismic waves irradiating the oil reservoir at all horizons production wells. When transmitting elastic shock waves, a coaxial pipeline consisting of two pipelines is used to reduce energy losses, in which the inner pipe of a smaller diameter is made of an elastic material, such as thermoplastic elastomer, and the outer pipe of a larger diameter is made of a solid material, such as rolled metal, while elastic waves are generated by pulse injection of an additional dosed volume of the working fluid into the internal elastic pipeline, in addition, using circulating pump pumps carry out stationary pumping of the working fluid into the internal pipeline and into the space between the internal and external pipelines so that the average hydrostatic pressure in the internal pipeline and between the internal and external pipelines is maintained approximately the same at all horizons of the injection well.

The disadvantage of this method is that during pulsed injection of an additional dosed volume of the working fluid into the internal elastic pipe, the collapse of the elastic tube and its destruction can occur. In addition, this method, the technical task of which is to increase oil recovery by reducing the energy loss of shock waves, is not suitable for hydrocarbon production.

The technical task of the invention is to increase oil recovery and intensification of oil flow due to the impact of shock waves on the reservoir by installing a shock wave generator in the bottom of the production well. According to the method, the long-wave effect on the oil reservoir includes pumping hydrocarbons from the internal pipeline of the production well and the space between the internal and external pipelines of the well, maintaining the same hydrostatic pressure in them, generating elastic shock waves, generating long-wave elastic seismic waves, pulsed pumping of hydrocarbons from the internal elastic coaxial pipeline type and from the space between the internal elastic and external pipelines and differs from zvestna processes in that the long-wave impact on the producing formation is carried out through a valve with metering holes and wherein the selected resonant frequency of the elastic waves produced and regulation quantities jitter for optimum oscillation amplitude of the elastic tube.

The problem is solved due to the fact that the method of long-wave exposure to the oil reservoir ensures that the working fluid is filled with the entire borehole space and that pressure is maintained in it, while in the bottom hole generate an elastic shock wave using a shock wave generator, while long-wave elastic seismic waves are generated affecting the oil reservoir.

The technical result is achieved by the fact that for the impact on the reservoir by elastic shock waves when generating elastic waves, a shock wave generator is used located in the bottom of the production well. To control the impact energy of shock waves, the well is equipped with throttle valves, the diameter of the openings of which determines the magnitude of the impact energy on the reservoir and on the pipeline. With an increase in the diameter of the throttle valve openings, the magnitude of the impact energy on the reservoir increases, while the impact energy on the elastic pipe decreases, and vice versa.

The technical result is also achieved through the use of a device for long-wave exposure to an oil reservoir, including a shock wave generator, circulation pumps, a pipeline for transmitting a working fluid, non-return valves, a coaxial pipeline consisting of an internal elastic pipe of a smaller diameter made of elastic material and an external pipe a larger diameter made of a solid material that differs from known devices in that the bottom of the well is supplied with a throttle spiral valves, on the diameter of the openings of which the magnitude of the energy of influence on the reservoir and on the pipeline depends, while inside the elastic pipeline, the wall thickness of which is selected so that the elastic pipe does not sob, a spiral cord is installed, the internal elastic pipeline is equipped with ball-type check valves and a polymer elastic layer is applied to the inner wall of the external pipeline.

In addition, when solving the technical problem of increasing oil recovery, it was found that the proposed method and device allow to obtain a result of reducing asphalt-resin-paraffin deposits on the walls of the producing well due to elastic vibrations of the internal pipeline of the coaxial pipeline using a shock wave generator in the bottom of the producing well.

The reduction of asphalt-resinous-paraffin deposits is also achieved due to the fact that in oil production the coaxial pipeline consists of two pipelines, where the inner pipeline of a smaller diameter is made of elastic material, such as thermoplastic elastomer, and the outer pipe of a larger diameter is made of hard material, such as metal, at the same time, a polymer elastic layer is applied to the inner wall of the external pipeline to soften the contacts of the external and internal pipelines when the internal th elastic pipeline. The polymer elastic layer can be made of foamed microporous oil and petrol resistant rubber. In addition, with the help of circulation pumps, stationary pumping of hydrocarbons from the internal pipeline and from the space between the internal and external pipelines is carried out in such a way that the average hydrostatic pressure in the internal pipeline and between the internal and external pipelines is maintained approximately the same at all horizons of the injection well. In this case, the wall thickness of the elastic pipe is selected so that the elastic pipe does not sob and at the same time that the elastic pipe plays, i.e. the pipe walls fluctuated, and no deposits of asphalt-resinous-paraffin substances occurred. To do this, a spiral cord is installed inside the elastic pipe in the form of a spring, and to prevent the fluid from moving back into the borehole, the inner pipeline is equipped with ball-type check valves.

To achieve the best effect of reducing deposits on the walls of the producing well by means of long-wave exposure, the resonant frequency of elastic waves is selected. The regulation of the value of the delay oscillations provides the optimal amplitude of the oscillation of the elastic pipe for effective cleaning of pipes from ASPO.

The device is shown in FIG. 1 and includes circulation pumps 1 and 2, a shock wave generator 3, a pipe for transmitting a working fluid 4, check valves 5, a coaxial pipe consisting of an internal elastic pipe 6 and an external pipe 7, cord 8, a production well 9, a butterfly valve 10.

The device operates as follows. Pumps 1 and 2 begin to pump fluids from the formation so that in the borehole space maintain the same pressure between the internal elastic pipe 6 and the external pipe 7. At the same time, the shock wave generator 3, which generates a shock wave in the bottom of the production well 9. Shock wave generator 3 creates increased pressure in the internal elastic pipe 6 and leads to oscillations of the internal elastic pipe 6. The elastic shock wave generated by the generator of shock waves 3, acting to the reservoir 11.

The shock wave generator can be a membrane, which is impacted by a mechanical pusher, which is driven by an eccentric on a shaft rotated by an electric motor. To control the impact energy of shock waves, the well is equipped with throttle valves 10. When the diameter of the holes of the throttle valves increases, the impact energy on the reservoir increases, while the impact energy on the elastic pipe decreases, and vice versa. Using a circulation pump 1, stationary fluid is pumped out from the space between the internal and external pipelines 6 and 7, respectively. The circulation pump 2 pumps out oil from the internal pipeline to the pipeline for transferring the working fluid 4. The internal pipeline is equipped with a cord 8, which prevents the pipeline from collapsing.

A polymer elastic layer is applied to the inner wall of the external pipe 7 to soften the contacts of the external and internal pipelines during oscillation of the internal elastic pipe. The polymer elastic layer can be made of foamed microporous oil and petrol resistant rubber. To prevent the reverse movement of fluid into the borehole space, the inner pipeline is equipped with ball check valves 5.

The proposed method and device allows to increase oil recovery and intensification of oil flow due to the long-wave effect on the oil reservoir and to reduce asphalt-resin-paraffin deposits on the walls of the production well pipeline due to the impact method and construction of the coaxial pipeline, consisting of an internal elastic pipe and an external pipe. Unlike the prototype, a pulsed hydrocarbon is pumped out in the internal elastic pipeline, and the wall thickness of the elastic pipeline is selected so that the elastic pipe does not collapse, does not lose its elastic properties and the pipe walls vibrate so that deposits of asphalt-resin-paraffin substances do not occur. To control the impact energy of shock waves, the well is equipped with throttle valves, the diameter of the openings of which determines the magnitude of the impact energy on the reservoir and on the pipeline. With an increase in the diameter of the throttle valve openings, the magnitude of the impact energy on the reservoir increases, while the impact energy on the elastic pipe decreases, and vice versa. Inside the elastic pipe, a spiral cord is installed in the form of a spring, and to prevent the fluid from moving back into the borehole, the internal pipeline is equipped with check valves, for example ball valves. To achieve the best effect of reducing deposits on the walls of the producing well by the long-wave exposure, a resonant frequency of elastic waves is selected. The regulation of the value of the delay oscillations provides the optimal amplitude of the oscillation of the elastic pipe, providing effective cleaning of pipes from ASPO. An additional condition for maintaining the elastic properties of the pipeline is the pumping of hydrocarbons from the space between the internal and external pipelines and maintaining the same average hydrostatic pressure in the internal pipeline and in the space between the internal and external pipelines.

Claims (2)

1. The method of long-wave exposure to an oil reservoir, including pumping hydrocarbons from the internal pipeline of the production well and the space between the internal and external pipelines of the well, maintaining the same hydrostatic pressure in them, generating elastic shock waves, generating long-wave elastic seismic waves, pulsed pumping of hydrocarbons from the internal elastic pipeline coaxial type and from the space between the internal elastic and external pipelines, characterized it that the long-wave impact on the producing formation is carried out through valves with metering holes and wherein the selected resonant frequency of the elastic waves produced and regulation quantities jitter for optimum oscillation amplitude of the elastic tube. 2. A device for long-wave exposure to an oil reservoir, including a shock wave generator, circulation pumps, a pipeline for transmitting a working fluid, non-return valves, a coaxial pipeline, consisting of an internal elastic pipe of a smaller diameter made of elastic material and an external pipe of a larger diameter made from solid material, characterized in that the bottom of the well is equipped with throttle valves, the magnitude of the impact energy n depends on the diameter of the holes reservoir and the conduit, wherein the resilient conduit inside wall thickness which is selected so that the elastic tube does not vskhlopyvalas is set coiled cord, elastic inner conduit equipped inverse ball type valve and the inner wall of the outer pipe is applied a resilient polymeric layer.