RU2349747C1 - Method of treatment of well bottomhole zone - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention can be implemented for development and build up of production rate of producing wells when flow rate has been reduced due to mudding of bottomhole zone with asphalt-resin-paraffin formations and mechanical impurities. The method of treatment of well bottomhole zone consists in generating depressive pressure difference between the bottomhole zone and a borehole cavity. Then in the bottomhole zone there are produced periodic pressure pulses in form of a wave motion in the cavity; the said wave is created by means of periodic opening of a pump-compressor pipe (PCP) at a head for draining well fluid under pressure and by means of closing PCP with valves. One of the valves is the valve of fluid draining; it connects PCP with a drained capacity, while the other valve is the valve of fluid refilling which connects PCP with a source of fluid under pressure. Opening and closing of the well cavity at the well head for draining well fluid under pressure is performed by the fluid draining valve. By means of opening the fluid refilling valve and connecting PCP with the fluid source pressure is periodically built up in the well. Via the valve PCP is connected with a receiver filled with gas. Then the second refilling valve is installed which connects the source of fluid under pressure with an annular space. At the first stage the valve connecting PCP with the receiver is shut. The bottomhole zone is subject to periodic pressure pulses. At the second stage the valve connecting PCP with the receiver is opened. By means of circulation a working agent is pumped into the bottomhole zone. The bottomhole zone is treated by stepping-up well fluid mass due to opening the fluid drain valve with frequency providing mass motion in a resonance mode. If necessary, pressure in the borehole cavity is built up by means of opening the first valve of fluid refilling. At the third stage when the valve connecting PCP with the receiver is opened there is performed treatment of the bottomhole zone by stepping-up mass of well fluid due to opening the fluid drain valve and the second valve of fluid refill with frequency providing its mass motion in the resonance mode and providing its circulation for reverse well flushing out.

EFFECT: applying different by shape and power periodic pressure pulses in formation bottomhole zone for each alternating stages of well treatment.

Description

The invention relates to mining and can be used to develop and restore the production rate of production wells, decreased as a result of mudding of the bottom-hole zone with asphalt-resin-paraffin formations and solids.

A known method of processing the bottom-hole zone of the injection well (Ibragimov N.G., Zakirov A.F., Nikitin V.N., Ozheredov E.V. Patent No. 2258134, class E21B 43/18), in which a bath is organized in the perforation interval a working agent by selling it in a pulsed drainage mode with technological exposure.

However, the method does not allow the creation of hydraulic waves for various stages of the treatment of the bottom-hole zone with an adjustable speed and frequency of pressure change.

A known method of processing the bottom-hole zone of the wellbore (Gubar V.A., Gubar D.V. Patent No. 2262591, class E21B 43/18), comprising hydraulically cleaning the perforation zone of the productive formation, injecting a chemical reagent into the bottom-hole zone, flushing the well and subsequent high-energy gas-pulse impact on the bottom-hole zone of the wellbore with a pressure at the front of the shock wave equal to or greater than the rock pressure in the treatment zone.

However, the method does not allow the creation of hydraulic waves for various stages of the treatment of the bottom-hole zone with an adjustable speed and frequency of pressure change.

A known method of processing a low permeable reservoir (Takhautdinov R.Sh., Kurochuan B.M., Magalimov A.A. et al. Patent No. 2283946, class Е21В 43/18), in which the tubing string is lowered into the well (Tubing) with a hydro-pulsator to the zone of the reservoir, pumping the calculated volume of acid into the well, pumping it into the treated reservoir under pressure, creating hydraulic pulses using the hydro-pulser and flushing the well.

However, the hydro-pulsator creates pulses of low power, not sufficient for the periodic opening and closing of the formation cracks and its active washing.

A known method of treating a productive formation (Dyblenko V.P. Tufanov I.A. Patent No. 2258803, class ЕВВ 43/25), in which the wells are washed in succession and periodic depressive and repressive treatment is washed with washing at the stage of circulation or outflow. Then the processed interval of the formation is isolated by the packer and a cyclic change in pressure is carried out, followed by pumping of the working fluid during the oscillatory action of the emitter installed opposite the processed interval of the productive formation.

However, the emitter creates pulses of low power, not sufficient for the periodic opening and closing of the formation cracks and its active washing.

A known method of reagent-pulse impact on the well and the reservoir and the installation for its implementation (Kononenko P.I., Boguslaev V.A., Kvitchuk K.K. et al. Patent No. 2275495, class Е21В 37/06), in wherein the active liquid medium containing a mixture of aliphatic and aromatic hydrocarbon solvents is squeezed into the formation, held for 12-24 hours and removed from the bottom-hole zone with wave unloading of the well by a pulse-wave depressive effect, then the pulse-wise interval treatment of the bottom-hole is carried out th process fluid zone flat fan jet formation on the level, after which the process liquid is removed from the reservoir zone.

However, the active liquid medium is crushed into the reservoir at a constant speed, which does not allow it to penetrate into small cracks; when holding in the thickness of the reservoir, the active liquid medium is in a stationary state, which does not contribute to its active reaction with reservoir elements.

A known method of processing the borehole zone of the formation (Shipulin A.V. Patent No. 2266404, class ЕВВ 43/25), taken as a prototype, which includes the creation of periodic pressure pulses in the borehole zone of the formation in the form of a shock wave moving along the cavity of the well, which is generated during periodic opening well cavities at the wellhead using valves, one of which connects the well cavity to a drain tank, the second to a source of pressurized fluid.

However, the method does not allow for the creation of hydraulic waves with variable speed and frequency of pressure change for various stages of the treatment of the bottom-hole zone, as well as actively flushing the near-well zone of the formation.

The objective of the invention is the use of different in shape and power of periodic pressure pulses in the bottomhole formation zone for each of the alternating stages of well treatment.

The problem is solved in that, using a method for processing the bottom-hole zone of a well, including pumping a liquid into the cavity of the well, forming a depressive differential pressure between the bottom-hole zone and the cavity of the well by creating periodic pressure pulses in the bottom-hole zone in the form of a shock wave moving along the cavity of the well, which is generated during periodic opening the well cavity at the mouth for leakage of well fluid under pressure and closing it using valves, one of which is a valve to drain the fluid - connects the well cavity with a drain tank, the second - the valve topping up the fluid - with a source of pressurized fluid, opening and closing the well cavity at the mouth for leakage of the pressurized well, carry out a fluid drain valve, periodically increase the pressure in by connecting the wellhead with a source of liquid under pressure by opening the valve topping up the liquid, the tubing through the valve is connected to a receiver filled with gas, and the second at the first stage, the valve connecting the tubing to the receiver is closed, the bottom-hole zone is treated with the creation of periodic pressure pulses in the form of a shock wave moving along the cavity of the borehole, which is formed by periodically opening the tubing to wellhead for leakage of well fluid under pressure and its closure using a drain valve connecting the tubing to the drain tank, and a fluid adding valve, at the second stage, open the valve connecting the tubing to the receiver, circulate the working agent into the bottomhole zone and process it by pumping the borehole fluid mass by opening the fluid drain valve with a frequency that ensures its mass movement in the mode resonance, if necessary, increase the pressure in the cavity of the well by opening the valve topping up the fluid connecting the tubing to the source of fluid under pressure in the third stage with an open vent The sludge connecting the tubing to the receiver conducts treatment of the bottom-hole zone by pumping the borehole fluid mass by opening the fluid drain valve and the fluid filling valve connecting the annulus to the fluid source under pressure, with a frequency that ensures its mass movement in resonance mode and circulation for backwash wells.

This method allows you to: at the first stage to clean the bottom-hole zone of the well from salt and hydrocarbon deposits; at the second stage, with the injected working agent, carry out a resonant reciprocating movement of the column of well fluid, which acts on the bottom-hole zone by inertia of its mass and ensures the penetration of the working agent into expanding fractures of the formation; at the third stage - to carry out resonant reciprocating motion of a column of well fluid, which acts on the bottom-hole zone by inertia of its mass and at the same time backwash the well with the removal of residues of unreacted working agent and products of its chemical reaction with the formation rock.

The method is implemented as follows. At the wellhead, valves are installed, of which: a drain valve connects the tubing cavity to the drain tank, a topping valve connects the tubing cavity to a source of fluid under pressure, for example, a fluid line designed for injection into injection wells, or CA-320, a second valve topping - annulus with a source of fluid under pressure. The tubing cavity is connected to a receiver containing an inert gas safe for work. The fluid is pumped into the annulus to a technologically permissible pressure.

At the first stage, the drain valve is opened, the borehole fluid is poured into the drainage tank, the fluid pressure at the wellhead drops sharply to atmospheric pressure, a rarefaction wave forms, which moves from the wellhead to the bottom of the well and generates a depression impulse in the bottomhole zone. When the fluid drain valve is closed and the moving fluid flow is interrupted, a high pressure region is formed at the wellhead, which moves from the wellhead to the bottom of the well and generates a repression pulse in the bottomhole zone. Periodic opening and closing of the drain valve leads to the regular passage of pressure waves and rarefaction along the tubing cavity.

The pressure and rarefaction waves, moving along the well cavity from the wellhead to the bottom and back, create shocks, including in the bottomhole zone, and contribute to the separation of adsorption deposits from the walls of pore channels and cracks, destruction of the formation skeleton. Pulses of depression contribute to the extraction of colmatants from the pores and fractures of the formation, their output into the cavity of the well for subsequent removal by spout or flushing.

At the moment of opening the drain valve, the borehole fluid begins to pour into the drain tank with increasing speed. When the drain valve is closed abruptly, due to the inertia of its mass, the well fluid fills the receiver and compresses the gas. After maximum compression, the gas expands and expels the fluid from the mouth to the bottomhole zone. The well fluid is brought into a state of vertical reciprocating vibrations. The moving mass of liquid is reflected from above by compressing gas, from below - by expanding and closing fractures of the formation. The resonance of the oscillations is supported by the periodic opening of the drain valve and the acceleration of the liquid due to its outflow.

At the second stage, a valve is opened that connects the tubing to a receiver containing an inert gas safe for work, and a working agent (acid solution, distillate, or other solvents) is delivered to the bottomhole zone by circulation.

At the moment of opening the drain valve, the borehole fluid begins to pour into the drain tank with increasing speed. When the drain valve is suddenly closed, the well fluid, due to the inertia of its mass, fills the receiver and compresses the gas. After maximum compression, the gas expands and expels the fluid from the mouth to the bottomhole zone. The well fluid is brought into a state of vertical reciprocating vibrations. The moving mass of liquid is reflected from above by compressing gas, from below - by expanding and closing fractures of the formation. The resonance of the oscillations is supported by the periodic opening of the drain valve and the acceleration of the liquid due to its outflow.

The movement of several tons of fluid in the tubing contributes to the creation of significant pressure drops in the near-wellbore zone, as well as its flushing, separation of adsorption deposits from the walls of the pore channels and cracks, as well as loosening and chipping of low-permeable fragments of the formation skeleton.

In connection with the regular outflow of fluid during the treatment of the bottom-hole zone, the fluid filling valve is periodically opened and the pressure in the well cavity is increased to a technologically acceptable level. Topping up the fluid through the tubing prevents the working agent from moving upward and spilling out of the well during processing.

In the third stage, the treatment of the bottom-hole zone is carried out by driving the mass of the borehole fluid described above, topping up the fluid to increase the pressure is done through the second topping valve connecting the annulus to the source of fluid under pressure. When topping up the fluid, it circulates through the annulus and tubing, that is, backwashing with spilling through the tubing of the residues of the unreacted working agent and the products of its chemical reaction with the formation rock. The flushing of the well cavity is combined with the buildup of the liquid column and flushing of the borehole zone of the formation.

In the course of processing the well, the steps alternate as necessary in the sequence determined by the geological conditions, the degree of mudding, the technical condition of the pipe string, the technological work plan, etc.

Claims (1)

A method of treating a bottomhole zone of a well, including pumping a liquid into a cavity of a well, forming a pressure drop between the bottom hole and a cavity of the well by creating periodic pressure pulses in the bottom hole in the form of a shock wave moving through the cavity of the well, which is generated by periodically opening the tubing (tubing) ) at the mouth for the outflow of well fluid under pressure and its closure using valves, one of which is a fluid drain valve connects the tubing to the drain tank, the second - the valve topping up the fluid - with a source of fluid under pressure, opening and closing the tubing at the mouth for the flow of well fluid under pressure, carry out the valve drain fluid, periodically increase the pressure in the well by connecting tubing to a source of fluid under pressure, by opening the valve topping up the liquid, characterized in that the tubing through the valve is connected to the receiver filled with gas, set the second valve topping up the liquid, connect at the first stage, the valve connecting the tubing to the receiver is closed, the bottom-hole zone is treated with the creation of periodic pressure pulses in the form of a shock wave moving along the cavity of the borehole, which is formed when the tubing is periodically opened at the wellhead for leakage of the borehole fluid under pressure, and closing it using a drain valve connecting the tubing to the drain tank, and a fluid topping valve connecting the tubing to the fluid source, under pressure, at the second stage, open the valve connecting the tubing to the receiver, circulate the working agent into the bottomhole zone and process it by pumping the mass of the well fluid by opening the fluid drain valve with a frequency that ensures its mass moves in resonance mode, increase the pressure if necessary in the well cavity by opening a valve topping up the fluid connecting the tubing to a source of fluid under pressure in the third stage with an open valve connecting the tubing to the receiver, etc. lead processing bottomhole zone buildup mass wellbore fluid by opening the fluid drain valve and the topping up liquid valve, connecting annular space with a source of fluid under pressure, with a periodicity which provides movement of its mass in resonance mode and circulating backwash wells.