RU2682409C1 - Impulsive hydraulic fracturing method - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to mining and can be used to develop and restore the flow rate of production wells, that has decreased as a result of the wall packing of the borehole zone of the asphalt-resin-paraffinic formations and mechanical impurities. Technical essence lies in the fact that, applying the method of performing pulsed fracturing, including the injection of liquid into the well cavity, formation of periodic pressure pulses in the wellbore zone in the form of a wave moving through the cavity of a well, which is formed during a periodic increase in pressure in the well by connecting to the first and second sources of fluid under pressure using the first and second valves, during hydraulic fracturing, the time of movement of the fluid mass moving from the wellhead to the bottomhole zone and the duration of expansion and closure of formation cracks are estimated in advance; the initial pressure is established in the cavity of the well, in which the fractures of the reservoir are closed, open the first valve, raise the pressure in the bottomhole zone sufficient to open the fractures of the reservoir, then open the second valve for the time necessary for the shock wave to reach the bottomhole zone, penetration into the open cracks of the reservoir and their development and branching, then both valves are closed for the period of pressure reduction in the well to the initial value, hydropneumatic accumulators are connected to the lines connecting the valves topping up the fluid with sources of the fluid under pressure, the volume of which is determined by the flow rate of the well fluid as it flows into the formation, the first source contains fluid under pressure sufficient to open the fractures, the second under the pressure required for fracturing.EFFECT: object of the invention is to transfer the shock wave to the reservoir massif to the maximum possible distance from the well bore through existing cracks.1 cl

Description

The present 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 bottomhole zone with asphalt-resin-paraffin formations and solids.

A known method of completing a well and a device for its implementation (patent No. 2271441, publ. 2006.03.10), comprising launching a selective cumulative perforator containing sections with a separate cumulative charge in each section, creating a cut in the rock with the formation of a channel fan in the formation in the plane perpendicular to the axis of the well by sectionally combining the cumulative charges with the plane of the pit and sequentially firing them. Produce pulsed hydraulic fracturing.

However, for the implementation of pulsed hydraulic fracturing, it is necessary to use a cumulative perforator and additional perforation.

The method of processing the bottom-hole zone of the well (patent No. 2344281, publ. 2007.05.14), including the formation of a depression of the pressure difference 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, while previously connecting the wellhead with a receiver filled with gas, the fluid drain valve is opened when the borehole fluid moves from the bottom to the mouth with a frequency that ensures the buildup of its mass in resonance mode.

However, a receiver filled with gas is used to reciprocate the column of well fluid. The receiver is not designed for energy storage and shock wave formation.

A known method of processing the near-wellbore zone of the formation (patent No. 2392425, publ. 2010.06.20), during the implementation of which the time of movement of the fluid mass wave from the mouth to the bottom-hole zone and the duration of expansion and closure of the formation cracks are preliminarily estimated, the initial pressure is established in the well cavity, at where the formation cracks are closed, then, the fluid filling valve is opened for a time during which the wave of fluid mass movement reaches the bottomhole zone and acts on the formation cracks, then the valve is closed willow fluid and open the valve drain fluid to reduce pressure in the well to the original value.

However, since the pump unit is most often used as the source of pressure, when the valve is opened, the pressure in the well drops sharply after a short high-pressure pulse. The wave of movement of the borehole fluid upon reaching the bottom does not have time to open and deform the formation cracks.

A known method of hydraulic fracturing of an impermeable underground reservoir (patent No. 2402679, publ. 2010.04.20), which includes pumping a hydraulic fracturing fluid containing proppant particles through a well into a fracture created in an underground reservoir, during the injection process provides a turbulent flow of fluid in the fracture by injection fracturing fluid with a viscosity of less than 0.01 Pa⋅s with an injection rate of at least 8 m ³ / min.

However, to create a high injection speed, a large number of pumping units with a total capacity of at least 22,000 hp are required. The method is uneconomical.

A known method of implementing a pulse fracturing (patent No. 2586693, publ. 2016.06.10), including the formation of pressure drops between the bottomhole zone and the cavity of the well by creating moving along the cavity of the borehole waves of movement of the mass of fluid, in which the time of movement of the wave of motion of the mass of fluid from the wellhead to the bottomhole zone and the duration of expansion and closure of the formation cracks, set the initial pressure in the well cavity at which the formation cracks are closed, then, the valve topping up the fluid open for a time during which the wave of motion of the mass of fluid reaches the bottomhole zone and acts on the fractures of the formation, then close the valve topping up the fluid and open the valve to drain the fluid to reduce the pressure in the well to the original pressure, to the line connecting the valve topping up the fluid and the fluid source, Under pressure, a hydraulic accumulator is connected, the volume of which is determined by the flow rate of the injected fluid.

However, when processing deep wells, a powerful impulse is required for pressure on the bottom of the wells and its duration sufficient to deform the formation cracks.

A known method of implementing a pulse fracturing (patent No. 2644368, publ. 2018.02.09), taken as a prototype, including the formation of periodic pressure pulses in the bottomhole zone in the form of a wave moving along the cavity of the borehole, generated during periodic increase in pressure in the borehole by connecting with the first and second sources of fluid under pressure using the first and second valves, when conducting hydraulic fracturing, preliminarily evaluate the time of movement of the wave of motion of the mass of fluid from the mouth to the bottom of the formation zone and the duration of expansion and closure of the formation cracks, set the initial pressure in the well cavity at which the formation cracks are closed, then the valves are opened sequentially after a period of time providing the formation of the total pressure pulse at the bottom of the well, then the valves are closed for the period of pressure decrease in the well to the value of the source, hydropneumatic accumulators are connected to the lines connecting the valves topping up the liquid with the sources of liquid under pressure, the volume of which is determined by by the flow of the borehole fluid when it flows into the reservoir.

However, the geometrical sum of pressure pulses acts on the formation, which affects only the surface of the array. Creating a network of cracks is more effective when a shock wave penetrates deep into a reservoir through existing cracks.

The objective of the invention is the transmission of the shock wave to the array of the formation at the maximum possible distance from the wellbore through the existing existing openings.

The problem is solved in that, using a method of implementing hydraulic fracturing, which includes pumping fluid into the cavity of the well, generating periodic pressure pulses in the bottomhole zone in the form of a wave moving along the cavity of the well, which is generated by periodic increase in pressure in the well by connecting to the first and second sources of fluid, under pressure using the first and second valves, when carrying out hydraulic fracturing, the time of movement of a wave of motion of a mass of liquid is preliminarily evaluated from the mouth to the bottomhole zone and the duration of expansion and closure of the formation cracks, set the initial pressure in the well cavity at which the formation cracks are closed, then open the valves for a time during which the wave of fluid mass movement reaches the bottom zone and acts on the formation cracks, then close valves for the period of reducing the pressure in the well to the initial value, hydropneumatic accumulators are connected to the lines connecting the valves for adding liquid to the sources of liquid under pressure, the volume of which is determined by the flow rate of the borehole fluid when it flows into the formation, open the first valve, increase the pressure in the bottomhole zone to the magnitude of the opening of the formation cracks, then open the second valve for the time necessary to reach the bottom-hole zone by the shock wave, penetrate the opened formation cracks and their development and branching, then both valves are closed, the first hydro-pneumatic accumulator contains liquid under pressure sufficient to open cracks, the second - under pressure necessary for hydraulic fracturing.

This method allows you to first generate a pressure impulse, which by physical parameters contributes to the maximum opening of existing formation cracks in the near-wellbore zone, then generate a second impulse, which by its physical parameters serves to penetrate the formation array through open fractures and form new cracks.

The hydropneumatic accumulator is a metal cylindrical body filled with gas (usually nitrogen placed in an elastic balloon). When pumping liquid into the hydropneumatic accumulator, the gas is compressed, due to which the hydropneumatic accumulator can serve as an energy storage device.

The method is implemented as follows. At the wellhead, valves are installed, the first of which connects the well cavity with the first hydro-pneumatic accumulator, the second - the cavity of the well with the second hydro-pneumatic accumulator. Each hydro-pneumatic accumulator has a volume that meets its purpose. Both hydropneumatic accumulators have the ability to be independently filled with liquid to a predetermined pressure. The well is filled with fluid to the level of the initial pressure at which the formation cracks are closed. Hydropneumatic accumulators are necessary to maintain fluid pressure in the well for a given period of time.

At the moment of opening the first valve, liquid under pressure begins to flow from the first hydro-pneumatic accumulator into the well. At the mouth, a high-pressure region forms, which moves to the bottom-hole zone and drives the well fluid.

Under the influence of pressure applied at the wellhead, the velocity of the mass of the well fluid increases. Upon reaching the sump of the well, the wave of fluid movement increases the pressure in the perforation zone and expands existing fractures in the formation. The magnitude and rate of increase in fluid pressure in the bottomhole zone is selected according to the conditions for maximum expansion of cracks. From these conditions, the volume of the first hydro-pneumatic accumulator, the pressure of the liquid contained in it and the hydraulic resistance of the first valve are selected.

After a calculated period of time open the second valve. A new high-pressure region forms at the mouth, which moves to the bottomhole zone and drives the well fluid. The formed shock wave reaches the sump and increases the pressure in the perforation zone. The second valve is opened with the expectation that the newly formed pressure wave reaches the formation cracks at the moment of their maximum opening from the influence of the previous wave.

The magnitude and rate of increase in fluid pressure in the bottomhole zone is selected according to the conditions of maximum penetration of the pressure wave into the fractures of the formation. From these conditions, choose the volume of the second hydro-pneumatic accumulator, the pressure of the liquid contained in it and the hydraulic resistance of the second valve. A rapid increase in pressure inside the formation massif leads to rock deformation, stress concentration until critical values are reached, and the formation skeleton is destroyed with the formation of new cracks.

After a period of time sufficient for the formation of new formation cracks, the valves are closed, which is accompanied by a decrease in pressure in the bottomhole zone. When the initial pressure is reached, the formation cracks close. The operation of the pulse increase in pressure in the bottom-hole zone is repeated as many times as necessary. With regular deformation, cracks develop due to fatigue failure.

The movement of the mass of fluid in the bottom-hole zone with a periodic change in pressure contributes to its washing, separation of the 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.

The technology of pulsed hydraulic fracturing allows you to create a network of cracks in the near-wellbore zone of the formation, diverging from the trunk of the cracks. The main result is an increase in the effective radius of the well, involvement in the development of the entire thickness of the formation, inclusion of the maximum number of productive layers and remote areas. With pulsed hydraulic fracturing, the fluid flow is small. Creating a network of cracks contributes to uniform "loosening" of the borehole zone of the formation.

Well fluid may contain chemicals for more productive processing. The method can be applied in conjunction with other types of bottom-hole treatment: acid, thermal, acoustic, etc.

Claims (1)

A method of implementing hydraulic fracturing, including pumping fluid into a well cavity, generating periodic pressure pulses in the bottomhole zone in the form of a wave moving along the well cavity, which is generated by periodically increasing the pressure in the well by connecting to the first and second sources of fluid under pressure using the first and of the second valves, when carrying out hydraulic fracturing, the time of movement of the wave of motion of the mass of liquid from the mouth to the bottom-hole zone is preliminarily evaluated and In order to expand and close the formation cracks, set the initial pressure in the well cavity at which the formation cracks are closed, then open the valves for a time during which the wave of fluid mass movement reaches the bottomhole zone and acts on the formation cracks, then close the valves for a period of pressure decrease well to the value of the source, hydropneumatic accumulators are connected to the lines connecting the valves topping up the fluid with sources of fluid under pressure, the volume of which is determined by the flow rate of the well another fluid when it flows into the formation, characterized in that the first valve is opened, the pressure in the bottomhole zone is increased to the extent of formation crack opening, then the second valve is opened for the time necessary to reach the bottomhole zone by the shock wave, penetration into the open formation cracks and their development and branching, then both valves are closed, the first hydro-pneumatic accumulator contains liquid under a pressure sufficient to open cracks, the second - under the pressure necessary for hydraulic fracturing.