RU2479712C2 - Simulation method of oil extraction from oil well - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: extraction method involves the change of scavenge pump parameters. Opening of the pump inlet valve is performed with a delay as the space above the valve becomes free. A short-term reduced pressure zone is created above the valve, i.e. negative pressure zone. Then, opening of the inlet valve of the pump is performed and a sudden pressure drop is provided in the well from high pressure zone to lower pressure zone. Thus, forced suction due to formation of short-term vacuum and increase in capacity of the formation per cycle is provided per the value equal to the volume of the created vacuum space. Repetition of those actions contributes to creation of wave action on the formation, which provides the increase in its permeability due to removal of loose rocks from the bottom-hole zone of the perforated formation, which results in increase of the bottom-hole zone permeability and cross-section area of channels, via which oil is supplied to the well.

EFFECT: increasing the coefficient of the formation oil recovery owing to providing the removal of loose rocks and release of colmataged passages.

Description

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

To assess the novelty and technical level of the invention, we consider a number of technical means known to the applicant for a similar purpose, characterized by a combination of features similar to the invention, known from information that has become generally available before the priority date of the invention.

A known method of processing the bottom-hole zone of a producing well by injection into the formation of an acidic microemulsion containing acid. After a technological pause, the solvent and the hydrocarbon solution of the hydrophobizing surfactant are pumped sequentially with the volume ratio of the acid microemulsion, the water-solvent and the hydrocarbon solution of the hydrophobizing surfactant (0.28-0.32) :( 0.95-1), see RF patent No. 2023143.

The disadvantage of this method is the low efficiency due to a slight increase in phase permeability for oil and rapid waterlogging of wells due to a significant increase in phase permeability in the water-saturated zone of the formation under conditions of highly permeable reservoirs, which contributes to an insufficient increase in the coefficients of oil displacement and reservoir coverage. In addition, the possibility of applying the method only in production wells and only with the permeability of reservoir reservoirs to 0.4 μm ² limits the scope of the method.

A known method for extracting oil by injecting into the formation rims of an acid composition containing acid and a composition containing a surfactant and a liquid hydrocarbon according to the invention, the acid composition further comprises a moderator of the reaction with the formation rock — either zeolite, or crumb synthetic zeolites, or syenitic concentrate Alkaline alkali, or technical lignosulfonates, or carboxymethyl cellulose - KMTs, or Polycell KMTs of the KMTs-9N, KMTs-9S brand, or alumochloride, or aluminum hydrochloride, with the following the ratio of the components, wt.%: acid 97.5-99.9, the specified moderator 0.1-2.5, the acid composition is injected before or at the same time as the composition containing surfactants and liquid hydrocarbons at their ratio, wt.%: Surfactant 5-16, liquid hydrocarbon 84-95, with a ratio of its volume to the volume of the acid composition from 2 to 4, see RF patent No. 2295635. The method can be carried out simultaneously on production and injection wells.

It is known that in the field of oil and gas production wave (mechanical, electromagnetic, acoustic, etc.) effects on the fluid are caused, which is caused by a number of its advantages: a high degree of controllability, the manifestation of the effect in the short time after the start of the impact, the ability to carry out the impact simultaneously with the main production process, discouraging him and others.

A known method of influencing the fluid of oil fields during oil production, including the creation of 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 to 10 ⁹ Hz, or acoustic waves in the frequency range from 17 Hz to 20 kHz, which modulate with information signals, resonant hydrocarbons of the processed oil fluid, and form standing waves, see RF patent No. 2281387. The directional standing waves are generated by a resonant-wave device (generator) immersed in the well, and the resonant, standing waves are controlled by an antenna field located on the surface, which includes moving resonant modules, waveguides, etc.

Using the known method of resonant-wave action on the fluid allows you to reanimate the wells and significantly extend the life of fields characterized by low flow rate, waterflooding, heavy oils, etc., by increasing the oil recovery coefficient, its quality and rheological properties, while reducing the water content in the pumped fluid , reduce costs and terms of field development by reducing the number of wells drilled with increasing distance between them. With the obvious effectiveness of the known method, it, however, has a significant drawback, which is that the wave resonance effect on the gas-liquid mixture is carried out 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 carried out by creating a depression on the reservoir by reducing the dynamic level of the borehole fluid in the casing of the well. Thus, the known method does not use the full potential of the resonance-wave action.

A known method of intensifying oil production and resuscitation of idle wells, in which using resonant wave generators located on the surface or submerged in the well, create electromagnetic vibrations in the reservoir, which superimpose on the natural frequency of vibrations of the hydrocarbons of the processed fluid, forming resonant electromagnetic vibrations, and control resonance vibrations using the equipment located on the surface, according to the proposed create a module in the reservoir The electromagnetic waves of the same frequency, directed counterclockwise from the producing well and from the nearest neighboring well or a group of the nearest neighboring wells, are then formed using resonant electromagnetic waves placed on the surface of the control equipment and the receiver-generator by superimposing the processed fluid on the natural vibration frequency of the hydrocarbons and directing each from the emerging peak resonances of oscillations in the direction of the producing well with repeated runs, for which the first Initially, the wave flow from the producing well is set to a power significantly exceeding the power of each of the oncoming wave flows taking into account attenuation coefficients, and subsequently, the power of the oscillating flow from the producing well is gradually reduced with a simultaneous proportional smooth increase in the power of each of the oncoming oscillating flows, while the peak occurrence zone resonance at the beginning of the process is localized near each of the nearest neighboring wells, then moving it in a forced controlled press directly to the producing well, or, in the case of resuscitation of idle wells, at the point where the fluid blocked by the formation water is located at a point farthest from the producing well, forcing the molecules and atoms of the hydrocarbon fluid to vibrate with a peak resonance amplitude in a vertical, horizontal or other plane, moving to the producing well during collisions with the skeleton of the collector when moving the peak resonance by repeated runs in a controlled mode by analogy with the operation of the vibrator rotor conveyor, see RF patent No. 2379489.

Known methods for optimizing the process of extracting oil from the reservoir. When constructing systemic optimization of oil field development, the tasks of optimizing the process of extracting oil from the reservoir are posed and solved. The task of monitoring this process during operation is very relevant, because in addition to monitoring the process of extracting oil from the reservoir, it is the information base of the reservoir management system.

A known method of operating submersible centrifugal pump units, in which the maintenance and restoration of the nominal mode of extraction of produced products is carried out by changing the parameters of the pump units using a variable frequency drive, see RF patent No. 2050472. The definition of the nominal selection regime consists in setting the analytical dependences of all the main technological and economic indicators of the main parameters of oil reservoirs, fluids filtered through them, the development systems used and the dynamics of technical measures. The economic and mathematical model is built on the basis of accounting for oil reserves in the reservoirs of a particular field, data on the physical and geological properties of the rocks and the necessary set of measures taken during the opening and subsequent operation of the reservoir (the choice of the method of waterflooding, oil production intensification, the required number of wells, drilling network, etc. .d.). The disadvantages of this method include:

- the applied methods based on analytical calculations do not adequately reflect the behavior of the reservoir-well-pump system in actual use and do not provide the selection of submersible equipment with the accuracy necessary for optimal operation;

- the lack of real analytical relationships between the main parameters of producing wells does not allow an objective assessment of the effectiveness of the measures taken to increase oil recovery, reduce water cut and reduce unrecoverable reserves.

A known method of reducing energy consumption for the production of a unit of production while increasing the coefficient of oil recovery.

Achieving the goal is carried out due to the precise (precise) regulation of the flow of production and water injection, based on measuring the optimal parameters of oil recovery from the reservoir, namely, a method for optimizing the process of oil recovery from the reservoir involves controlling the flow of production and water injection during field development, for whereby the pump of each production well is equipped with a frequency-controlled drive, they achieve stable operation of production and injection pumps by fixing the m generality, determine product yield, production rate of oil and its water content, and then change the frequency of the supply voltage via the VFD and optimize the operation of each of the production well at the minimum value of water content and / or maximum oil production rate, cm. Russian patent №2240422.

It should be noted that the goal can be achieved only with stable operation of production and injection pumps.

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

The objective of the invention is to increase the coefficient of oil recovery by ensuring the removal of weakly cemented rocks and the release of sealed channels.

The invention as a technical solution is expressed in the following set of essential features, sufficient to achieve the above technical result provided by the invention.

A method of intensifying oil production from an oil well, which includes changing the parameters of the pump out, namely, that the opening of the inlet valve of the pump is delayed as the space above the valve is freed up, while a short-time vacuum zone is formed above the valve, then the inlet valve is opened and provided this sharp pressure drop in the well from the high pressure zone to the low pressure zone, and the repetition of these actions create a wave effect on the reservoir, echivayuschee increase its permeability.

This is the totality of essential features that provides a technical result in all cases to which the requested amount of legal protection applies.

The technical result achieved when using the invention is that the wave action on the formation leads to the removal of weakly cemented rocks and the release of the sealed channels, which allows to increase the oil recovery coefficient.

The cyclic mode of operation is carried out due to the fact that the movement of the pump rod occurs at different speeds, since it is associated with a rocker (sucker rod pump). In the initial phase, at a small speed of the rod, the opening of the pump inlet valve is delayed, i.e. the ball opens the suction chamber, but does not move further due to the high hydraulic resistance of the incoming stream. The volume of the suction medium is small. In the second phase, when the speed of the rod increases, a short-term vacuum zone is formed above the valve, which provides a sharp opening of the valve (the ball rises up) and a sharp pressure drop. Hydroresistance to the flow of the medium decreases sharply and the volume of the absorbed medium also sharply increases. By repeating these actions create a wave effect on the reservoir, providing an increase in its permeability.

The method is implemented as follows.

Opening the inlet valve of the pump is delayed as space is released above the valve. In this case, a short-term zone of reduced pressure is formed above the valve, i.e. rarefaction zone. Then, the pump inlet valve is opened and a sharp pressure drop in the well from the high pressure zone to the low pressure zone is provided. This ensures forced absorption due to the formation of a short-term vacuum and an increase in the return of the formation in one cycle by an amount equal to the volume of the created vacuum space. By repeating these actions, they create a wave effect on the formation, providing an increase in its permeability due to the removal of weakly cemented rocks from the bottomhole zone of the perforated formation, which entails an increase in the permeability of the bottomhole zone due to the release of sealed channels and an increase in the cross-sectional area of the channels through which oil enters the well. As a result, the oil recovery coefficient increases at the same reservoir pressure. It should be noted that the existing design of the pump due to the peculiarities of the execution of their chambers and seals provide the ability to pump released by the claimed technology of impurities and bring them to the surface.

The possibility of industrial application of the claimed technical solution is confirmed by the known and described in the application means and methods by which it is possible to carry out the invention in the form described in the claims. 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 method of intensifying oil production from an oil well, comprising changing the parameters of the pump out, characterized in that the opening of the inlet valve of the pump is delayed as the space above the valve is freed up, while a short-time discharge zone is formed above the valve, then the inlet valve is opened and they are provided a sharp pressure drop in the well from the high pressure zone to the low pressure zone, and the repetition of these actions creates a wave effect on the reservoir, ensuring a significant increase in its permeability.