RU2241820C2 - Method for liquidation of asphalt-resin-paraffin deposits in a well - Google Patents

Abstract

FIELD: mining industry.

SUBSTANCE: method includes lowering cleaning device on cable, which includes pump, down to deposit surface, moving cleaning devices through asphalt-resin-paraffin deposit under effect from gravity, pumping liquid through cleaning device in direction towards place of asphalt-resin-paraffin deposit destruction with alternating strength and use of impact effect from well liquid jet. Cleaning device additionally contains pneumatic hydraulic accumulator filled with gas placed in impenetrable cover, connected by channel through ball valve to pump. Below hydraulic pneumatic accumulator pressure valve is serially placed. High pressure and low loss pump is used. Pumping of well liquid through cleaning device towards place of asphalt-resin-paraffin deposit destruction with alternating strength and use of impact from well liquid jet is performed by pumping it into hydraulic pneumatic accumulator, compressing it by gas pressure in it and blowing out by compressed gas pressure to asphalt-resin-paraffin deposit to be destroyed when pressure valve operates.

EFFECT: higher efficiency.

1 dwg

Description

The invention relates to mining and can be used to restore the production rate of production wells, decreased due to sticking on the walls of the tubing of the asphalt-resin-paraffin (AFS) deposits.

The well-known “Method of thermal destruction of the hydrate plug in the well” (Kurtov VD, Patent No. 1796010, Е 21 В 37/00), including the descent of a hollow column equipped with a check valve into the tubing string, heating the flushing fluid, pumping it into the hollow a column equipped with a hydraulic monitor tip.

However, the heating of the washing liquid is carried out on the surface and requires considerable power to maintain the required temperature at the place of destruction of hydrated deposits.

The well-known “Method for the elimination of asphalt-resin-paraffin-hydrate plugs in a well” (Shalaev G.Kh., Fataliev E.Sh., Patent No. 1816849, Е 21 В 37/00), including the descent on the cable of the heating device to the surface of the plug, filling the well with liquid with hydrophobic additives , sealing the mouth, heating the cork, advancing the heating device until the cork is completely destroyed.

However, the method does not provide for the use of the kinetic energy of the liquid when heating the plug and there is no fluid circulation around the heating device.

A known method of cleaning a well or a channel from gas hydrates (PCT patent WO 98/54440, U 21 V 37/00, 36/04, 37/06), comprising introducing a heater into the well, moving it by gravity to melt the hydrate plug, pumping fluid through the heater towards the fracture site of the hydrate plug with the possibility of circulation of fluid along the circuit inside and outside the heater.

However, the liquid coming from the lower part of the heating device rises up along the heater body, slightly penetrating the hydrate thickness; there is no effect of mechanical erosion by a fluid stream, in addition, the laminar motion of the liquid along the heater body does little to clean the walls of the well.

There is a method of cleaning a wellbore (Andrianov NI, Patent No. 2168603, E 21 V 21/00, E 21 V 37/00), using which, with the help of a hydraulic monitor with a slit nozzle, deflated to the lower boundary of the cleaned interval, an inextricable a stream from the flow of washing liquid in the direction of the axis of the pipe string between the outer surface of the hydraulic motor and the wall of the well.

However, when rock is destroyed, a drill string is required to supply flushing fluid from the surface.

A known method of opening a productive formation of a flowing mineral (Babichev N.I., Klochko S.A., Serov S.A. et al., Patent No. 2180699, E 21 B 43/114), which carries out the destruction and removal of rocks of a productive formation of high pressure a liquid stream with an abrasive supplied through the jet-forming nozzles of a downhole hydraulic monitor. In this case, the abrasive is separated from the pulp for its reuse in the well.

However, when rock is destroyed, a drill string is required to supply flushing fluid from the surface.

A known method of eliminating asphalt-resin-paraffin deposits (AFS) in a well (Shipulin A.V., Kozhemyakin Yu.D., Patent No. 2186200, Е 21 В 37/00), taken as a prototype, including descent on a heater cable to the surface of deposits, pumping downhole liquid through the heater in the direction of the AFS destruction site with the possibility of circulation along the circuit inside and outside the heater with a variable pressure and using the shock effect of the liquid jet.

However, the force of impact of the liquid is ineffective for erosion and removal of deposits.

The objective of the invention is to increase the energy of the impact of the fluid to wash the paraffin deposits, improving the quality of well cleaning.

The problem is solved in that when applying the method for eliminating paraffin in a well, including descent into the well to the surface of the paraffin deposit on a load-bearing cable of a cleaning device including a pump, moving the cleaning device through the paraffin by gravity, pumping the wellbore fluid through the cleaning device toward the fracture site AFS with a variable pressure and using the shock effect of a jet of well fluid, use a cleaning device that additionally contains a hydropneumatic accumulator filled in a gas-tight shell, connected by a channel through a ball valve to the pump, and a pressure valve sequentially located below the hydro-pneumatic accumulator, using a high-pressure and low-flow pump, pumping the wellbore fluid through a cleaning device towards the fracture point of the AFS with a variable pressure and using the impact effect of the jet the borehole fluid is pumped into a hydropneumatic accumulator, compressed by its gas pressure in it and ejected by compressed gas pressure to destructible paraffin deposits achieving pressure relief valve opening pressure.

Such a device allows you to apply the principle of operation of the hydro-pulsator-drive used in the mining and coal industries.

A device for implementing the proposed method is illustrated in the drawing, in which: 1 - tubing, 2 - load-bearing cable, 3 - pump, 4 - ball valve, 5 - channel; 6 - hydro-pneumatic accumulator; 7 - pressure valve; 8 - hydraulic nozzle. Arrows indicate the direction of fluid circulation.

The method is implemented as follows.

A cleaning device is lowered into the well 1 by means of a load-carrying cable 2, which includes a pump 3, to which a hydraulic accumulator 6 filled with gas is connected through a ball valve 4 and channel 5. Below the hydropneumatic accumulator 6, a pressure valve 7 and a hydraulic nozzle 8 are sequentially placed in the device. The pump 3 is supplied with power through a load-carrying cable and the borehole fluid is pumped through the ball valve 4 and channel 5 into the hydropneumatic accumulator 6. The gas in the hydropneumatic accumulator 6 is compressed by the pressure of the borehole fluid. when the response pressure of the pressure valve 7 is reached, the liquid by the pressure of the compressed gas through the nozzles of the jet nozzle 8 is discharged to the destructible paraffin deposits. At the time of the ejection of fluid from the hydraulic accumulator, the ball valve is blocked by the oncoming fluid flow.

AFS particles are destroyed, washed out by the impacts of the borehole fluid and, having a small specific gravity in comparison with water, rise to the top of the well.

The penetration rate into the underlying AFS layers depends on the velocity of the well fluid. The shock force of the jet creates a turbulent movement of the wellbore fluid over the entire cross section of the tubing and contributes to the erosion of paraffin on its walls, and the quality of well cleaning from paraffin is improved.

Since the method is based on the periodic accumulation of potential energy, a high pressure pump and a low flow rate are used as the energy source.

To eliminate the dissolution of the gas of the hydropneumatic impulse in the well fluid under pressure, it is placed in an elastic impermeable shell.

To enhance the effect of a liquid stream on the AFS, it is possible to include a heater in the composition of the device for implementing the method.

The described method for eliminating paraffin can effectively use the power of the pump due to the pulsed concentrated use of its energy.

Claims (1)

A method for eliminating asphalt-resin-paraffin deposits (AFS) in a well, including descent into the well to the surface of the AFS on a load-bearing cable of the cleaning device, including a pump, moving the cleaning device through the AFS under gravity, pumping the borehole fluid through the cleaning device in the direction of the AFS fracture variable pressure and using the shock effect of the jet of well fluid, characterized in that they use a cleaning device, additionally containing a hydropneumatic accumulator, filled a pressure valve placed in an impermeable sheath, connected by a channel through a ball valve to a pump, and a pressure valve sequentially located below the hydro-pneumatic accumulator, use a high-pressure and low-flow pump, pumping the wellbore fluid through a cleaning device in the direction of the AFS destruction place with a variable pressure and using the shock effect of the jet of the borehole fluid is carried out by its injection into the hydropneumatic accumulator, by compressing it with the gas pressure in it and expelling the compressed gas to destructible paraffin after reaching the set pressure of the pressure valve.