RU2511167C1 - Treatment method for bottomhole zone of well equipped with bottom-hole oil pump - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention refers to mining and can be used for development and rejuvenation of producing oil and gas wells yield, reduced as a result of mudding of a bottomhole zone with asphalt-tar-paraffin formations and mechanical additives. Treatment method for bottomhole zone includes pumping of liquid into borehole cavity, formation of differential pressure between bottomhole zone and borehole cavity by generating periodic pressure pulses in bottomhole zone. Herewith at the first stage bottomhole zone is treated by generated pressure pulses in the form of wave moving through the borehole cavity. At the second stage bottomhole zone is treated by oscillation of well fluid mass with working fluid pumped into the well due to resonant movement of its mass. At the third stage bottomhole zone is treated by oscillation of well fluid mass with periodicity providing resonant movement of its mass and circulation for backwash of the well. At that the first and second stage of treatment are made through annular space with tubing string closed at the well-head. The third stage of treatment is made in intervals between the first and second stages; for this purpose circulation is made through annular space, bottom-hole oil pump and tubing string to remove colmatants, unreacted fluid and reaction products.

EFFECT: increasing efficiency of bottomhole zone treatment without pulling and running operations and retrieving of bottom-hole oil pump.

Description

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

A known method of processing a productive formation (patent No. 2258803, CL. EV 43/25), in which the wells are washed sequentially and periodic depressive-repression effect with washing at the stage of circulation or spout. 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, insufficient 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 installation for its implementation (patent No. 2275495, CL ЕВВ 37/06), in which the active liquid medium containing a mixture of aliphatic and aromatic hydrocarbon solvents, crushed into the reservoir, carry out exposure to for 12-24 hours and is removed from the bottom-hole zone with wave unloading of the well by a pulse-wave depressive effect, then a hydro-pulse interval treatment of the bottom-hole zone with the process fluid is carried out with a flat polar jets at the level of the reservoir, 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 and device for the development and cleaning of the bottom-hole zone of wells by pulsed drainage (patent No. 2272902, CL ЕВВ 43/25), including the formation of a depressive differential pressure between the bottom-hole zone of the reservoir and the cavity of the tubing by injecting fluid into the borehole space when creating a given the pressure in the receiver during the time T1 and bleed to a predetermined pressure, which is produced when the control valve is opened during the time T2 through the receiver and the cavity of the annulus, while yes Leniye monitored by the sensor and wellhead pressure sensor bottom zone.

However, the method is intended for processing wells, in which the tubing must be free for the passage of shock waves.

A known method of processing the borehole zone of the formation (patent No. 2266404, class ЕВВ 43/25), including 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 borehole formed when the borehole is periodically opened at the wellhead using valves, one of which connects the well cavity with a drain tank, the second - with a source of liquid under pressure.

However, the method is intended for processing wells, in which the tubing must be free for the passage of shock waves.

A known method of processing the borehole zone of the formation (patent No. 2344281, class ЕВВ 43/25), including the formation of a depression of the pressure differential 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 wave moving along the cavity of the well, the fluid drain valve is opened when the well fluid moves from the bottom to the mouth with a frequency that ensures the buildup of its mass in resonance mode.

However, the method is intended for processing wells, in which the tubing must be free for the passage of shock waves.

A known method of processing the bottom-hole zone of the well (patent No. 2349747, class ЕВВ 43/25), adopted 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 borehole, which occurs when the borehole is periodically opened at the wellhead with the use of spout and topping valves, in the first stage, the bottom-hole zone is treated with the creation of periodic pressure pulses, in the second stage, the working agent is circulated into the bottom-hole zone and processed by pumping it aces wellbore fluid, the third stage treatment is conducted bottom zone buildup mass wellbore fluid with a periodicity which provides movement of its mass in resonance mode and circulating backwash wells.

However, the method is intended for treatment of injection wells, in which the tubing must be free for the passage of shock waves.

The objective of the invention is the washing and regular deformation of the fractures of the reservoir due to the creation of periodic pressure pulses in the near-well zone of the producing well, including the use of a working agent without tripping and extraction of the sucker rod pump.

The problem is solved in that, using a method for processing the bottom-hole zone of a well equipped with a rod pump, which includes pumping liquid into the cavity of the well, creating a depressive differential pressure between the bottom-hole zone and the well cavity by creating periodic pressure pulses in the bottom-hole zone in the form of a wave moving across the well cavity, formed during the periodic opening of the well cavity at the mouth for leakage of well fluid under pressure and its closure using a valve her, opening and closing the well cavity 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 the well cavity with a source of fluid under pressure, by opening the valve topping up the fluid, and at the first stage bottom-hole the zone is treated with the creation of periodic pressure pulses in the form of a shock wave moving along the well cavity, which is formed when the well cavity is periodically opened at the wellhead For leakage and topping up of the borehole fluid, in the second stage, the bottom-hole zone is processed by pumping the borehole fluid mass with the working agent pumped into the borehole by opening the drain and fill-up valves with a frequency that ensures fluid mass movement in resonance mode; the mass of the borehole fluid by opening the fluid drain valve and the fluid filling valve with a frequency that ensures the movement of the fluid mass in resonance and compass mode July for backwash the well, stop the sucker rod pump, connect the drain and top-up valves to the annulus, the first and second stages of processing are carried out through the annulus with a tubing blocked at the wellhead, the third stage of processing is carried out in the intervals between the first and second stages why open the tubing and in the process of processing the bottom-hole zone circulate through the annulus, the valves of the rod pump and the tubing a pipe to remove colmatants, unreacted agent and chemical reaction products.

This method allows the first step to clean the bottom-hole zone of the well from salt and hydrocarbon deposits, the second step allows the resonant reciprocating movement of the column of well fluid with the injected working agent to penetrate the bottom-hole zone of the reservoir due to the mass and inertia of the well fluid, the third stage - to carry out resonant reciprocating motion of a column of well fluid with simultaneous backwashing of the well with the removal of residues of unreacted the former working agent and the products of its chemical reaction with the formation rock. All stages are carried out without stopping the well for overhaul and carrying out tripping operations with the extraction of the sucker rod pump.

The method is implemented as follows. Stop the sucker rod pump, close the tubing. At the wellhead, valves are installed, of which: a drain valve connects the annulus of the well with a drain tank, a topping valve connects the annulus with a source of fluid under pressure, for example, a fluid line designed for injection into injection wells or the CA-320 unit. The annulus is filled with liquid to a technologically permissible pressure.

At the first stage, the drain valve is opened, the well fluid is poured into the drain 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 liquid drain valve is closed and the moving fluid flow is interrupted, a high pressure region is formed at the mouth, which can be increased by connecting the annulus through the topping valve with a source of liquid under pressure. A high-pressure wave moves from the wellhead to the bottom of the well and forms a repression pulse in the bottomhole zone. Periodic opening and closing of the drain and topping valves leads to the regular passage of pressure and rarefaction waves through the annulus.

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 the 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.

Before carrying out the second stage for pumping a working agent (acid solution, distillate or other solvents), open the tubing and circulate the fluid through the annulus, sucker rod pump and tubing. If the circulation is carried out by the pump from the surface, the valves of the sucker rod pump during reverse circulation open under the pressure of a moving fluid. It is possible to circulate by turning on the booster pump.

By alternating the opening of the drain and top-up valves, the well fluid is brought into a state of vertical reciprocating vibrations. The movement of the multi-ton mass of fluid through the annulus contributes to the creation of significant pressure drops in the near-wellbore zone and the regular expansion and closure of formation cracks. The resonance of the oscillations is supported by the periodic opening of the valves in time with the natural oscillations of the mass of the well fluid.

The regular movement of fluid through the bottom-hole zone of the formation facilitates its washing, separation of adsorption deposits from the walls of the pore channels and cracks, loosening and chipping of low-permeable fragments of the skeleton of the formation, more uniform distribution of the working agent in the bottom-hole zone, acceleration of the chemical reaction, erosion of the hydrocarbon film on the walls of the fractures of the formation.

To remove residues of unreacted working agent and products of its chemical reaction with the formation rock, the third stage of bottomhole treatment is carried out. The well is flushed back through the annulus and the tubing. The flushing of the well cavity is combined with the buildup of the liquid column and flushing of the bottomhole formation zone.

The rate of pressure change is limited by the conditions for maintaining the integrity of the casing string and the health of the sucker rod pump.

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 processing a bottomhole zone of a well equipped with a rod pump, including pumping a fluid into a well cavity, forming a depressurized pressure differential between the bottom hole zone and the well cavity by creating periodic pressure pulses in the bottom hole in the form of a wave generated during the periodic opening of the well cavity on wellhead for leakage of well fluid under pressure and its closure using valves, opening and closing the cavity and wells at the wellhead for the outflow of well fluid under pressure, carry out a fluid drain valve, periodically increase the pressure in the well by connecting the well cavity with a source of fluid under pressure by opening the fluid adding valve, and at the first stage, the bottom-hole zone is treated with periodic pulses pressure in the form of a shock wave moving along the cavity of the well, which is formed during periodic opening of the well cavity at the wellhead for outflow and topping up of the well in the second stage, the bottom-hole zone is processed by pumping the mass of the wellbore fluid with the working agent pumped into the well by opening the drain and topping-up valves with a periodicity that ensures the movement of the mass of fluid in resonance mode; opening the fluid drain valve and fluid filling valve with a frequency that ensures the movement of the mass of fluid in resonance mode and circulation for backwashing the well characterized in that the sucker-rod pump is stopped, drain and fluid filling valves are connected to the annulus, the first and second stages of processing are carried out through the annulus with a tubing blocked at the wellhead, the third processing stage is carried out in the intervals between the first and second stages, why open the tubing and during the processing of the bottom-hole zone circulate through the annulus, the valves of the sucker rod pump and tubing for colmatant remove unreacted agent and reaction product.