RU121296U1 - DEVICE FOR IMPACT ON THE BOTTOMFLOUR - Google Patents

Abstract

A device for influencing the bottomhole formation zone, including a casing pipe and a pump, characterized in that the pump is lowered into the bottomhole formation zone and is sealed against the casing walls, while providing the possibility of wave action on the bottomhole zone of a perforated well limited by the seal.

Description

    Device for impacting the bottomhole formation zone

The utility model relates to the oil industry, in particular to methods for developing oil fields to enhance oil recovery at any stage of development.

A device is known for influencing the bottom-hole zone of a formation, which makes it possible to create an oscillatory process directly in the processed oil fluid by carrying electromagnetic waves in the frequency range from 3 * 10 ^-5 to 3 * 10 ¹⁴ Hz or ultrasonic waves in the frequency range from 1.5 * 10 ⁴ up to 10 ⁹ Hz, or acoustic waves in the frequency range from 17 Hz to 20 kHz, and its modulation by information signals, resonant hydrocarbons of the processed oil fluid, and the formation of standing waves, see RF patent No. 2281387. The formation of directed standing waves is provided by a resonant-wave device (generator) immersed in the well. The control of resonant, standing waves is provided by an antenna field located on the surface, which includes moving resonant modules, waveguides, etc.

Using the known device allows to reanimate wells and significantly extend the life of fields characterized by low flow rates, waterfloods, heavy oils, etc., by increasing the oil recovery coefficient, its quality and rheological properties, while reducing the water content in the pumped fluid, to reduce costs and development time deposits by reducing the number of drilled wells with increasing distance between them. With the obvious effectiveness of the known device, it, however, has a significant drawback, which lies in the fact that the wave resonance effect on the gas-liquid mixture is provided only in the bottomhole zone, and this only leads to an increase in the hydrodynamic properties of the produced fluid at its location in the reservoir. The movement of the excited fluid from the reservoir to the production well is traditionally provided by creating a depression on the reservoir by reducing the dynamic level of the borehole fluid in the well casing. Thus, the known device does not use the full potential of the resonance-wave action.

A device for intensifying oil production and resuscitation of idle wells is known, in which using resonant wave generators located on the surface or submerged in the well, it is possible to create electromagnetic vibrations in the reservoir, superimpose them on the natural frequency of hydrocarbon vibrations of the processed fluid, and form resonant electromagnetic vibrations and controlling resonant vibrations using the equipment located on the surface. At the same time, it is possible to create modulated electromagnetic waves of the same frequency in the reservoir, directed counterclockwise from the producing well and from the nearest neighboring well or a group of nearest neighboring wells, forming resonant electromagnetic waves using superimposed on the surface of the control equipment and generator-receiver by superimposing on the natural frequency vibrations of hydrocarbons of the processed fluid and the directions of each of the emerging peak resonances of vibrations in side of the producing well with repeated runs. To this end, it is initially envisaged that a wave flow from a producing well be supplied with a power significantly exceeding the power of each of the oncoming wave flows taking into account attenuation coefficients. It is further envisaged that the power of the oscillatory flow from the producing well be smoothly reduced with a simultaneous proportional smooth increase in the power of each of the oncoming oscillatory flows. The zones of peak resonance occurrence at the beginning of the process are planned to be localized near each of the nearest neighboring wells, then moved in a forced controlled mode directly to the production well, or, in the case of reanimation of idle wells, at the point where the fluid blocked by formation water is located at its point farthest from the production well , causing the molecules and atoms of the hydrocarbon fluid to oscillate with a peak resonance amplitude in a vertical, horizontal or other plane, move Jaś to the production well during collisions with the skeleton when moving collector resonance peak repetitive runs in a controlled manner by analogy with Vibrating see. Russian patent №2379489.

The disadvantage of all known devices is that an increase in the oil recovery coefficient becomes almost impossible under conditions of filling the bottomhole zone with weakly cemented rocks, which leads to the clogging of all channels through which oil enters the well.

The technical result of the utility model is to increase the oil recovery coefficient for by ensuring the removal of weakly cemented porol and the release of the colmatized channels by providing pressure pulsations in the bottomhole zone.

The required technical result is achieved in that the device for acting on the bottom-hole formation zone includes a casing and a pump, the pump being lowered into the bottom-hole zone of the formation and sealed relative to the walls of the casing, allowing wave action on the bottom-hole zone of the perforated well bounded by the seal.

The technical result achieved using the utility model consists in the fact that the effect created by the device on the formation leads to pressure pulsations in the near-wellbore zone that are sufficient for the removal of weakly cemented rocks and the liberation of the clogged channels, which allows increasing the oil recovery coefficient.

The device operates as follows. A pump is lowered into the bottomhole zone and sealed relative to the walls of the casing. This seal is designed with a degree of reliability sufficient to remove the inertia of the "formation - formation fluid column in the casing. This made it possible to carry out a wave action on the bottom-hole zone of the perforated well bounded by compaction.

This wave action on the confined bottomhole zone can be carried out in various ways. It can be implemented by changing the pump parameters by changing the volume of the formation fluid pumped out by the pump, sufficient for pressure pulsations to occur in the bottomhole zone of the well. The wave effect on the bottom-hole zone limited by the seal can be carried out by placing a vibrator in it, which can be equipped with an autonomous power source or receive power from an electric submersible centrifugal pump, in the case of this type of pump, or from a sucker rod pump drive in the case of using a mechanical vibrator.

The time of wave action is provided from the condition of not involving water from the downstream water layers in the bottomhole zone.

The possibility of industrial application of the claimed technical solution is confirmed by the known and described in the present application application by means of which it is possible to implement a utility model in the form described in its formula. Using the claimed solution in comparison with all known means of a similar purpose provides a simplified design and increased productivity of the device.

Claims (1)

A device for influencing the bottom-hole zone of the formation, including a casing and a pump, characterized in that the pump is lowered into the bottom-hole zone of the formation and sealed relative to the walls of the casing, while it is possible to wave impact on the bottom-hole zone of the perforated well bounded by the seal.