RU158602U1 - DEVICE FOR WAVE IMPACT ON DEPOSIT - Google Patents

Abstract

A device for wave action on the reservoir, including a rocking machine connected by a rope to the rod, a plunger pump for pumping fluid from the well, comprising a housing in the form of a pipe deflated into the well, inside of which there is a plunger connected to the rod with an internal cavity hydraulically connected to the in-tube space a pump, a ball valve mounted on the lower end of the plunger, a pressure pulse generator and pressure sensors for recording the amplitude of the waves, characterized in that it further comprises cylin a drum casing fixed to the outer surface of the pump casing, a bump stop that tightly covers the lower end of the tubular pump casing, and through holes in the pump casing and casing above the bump, and a plunger connected to the rocking machine and the pump in-between the through holes and bump, while pressure sensors are installed on the pump casing above these holes and on the bump, respectively.

Description

The device relates to mining and can be used to develop and restore the production rate of production wells, in particular for the intensification of inflows of formation fluids.

It is known to use a device for wave action on a reservoir for treating entire sections of fields covering areas up to several square kilometers.

(RF Ganiev Wave machines and technologies. (Introduction to wave technology) M .: “Scientific and publishing center“ Regular and chaotic dynamics ”, 2008. - p. 138).

In this case, the generator is installed in one of the wells of the selected area of the field, and the effect is on the surrounding wells.

A device for wave action on the reservoir, including a rocking machine, connected by a rope with a rod, a plunger pump for pumping fluid from the well, containing a housing in the form of a pipe lowered into the well, inside which is placed, connected to the rod, a plunger with an internal cavity hydraulically connected with an in-tube space of the pump, a ball valve mounted on the lower end of the plunger, a pressure pulse generator and pressure sensors for recording wave amplitudes.

(R.F. Ganiev, L.E. Ukrainian. Nonlinear wave mechanics and technology. - M.: Scientific and Publishing Center “Regular and Chaotic Dynamics”, 2008. - 712 p.).

In this device, the formation fluid is pumped out of the well by a plunger pump, and the pressure pulse generator installed in the well below the plunger pump operates from an autonomous energy source, regardless of the operation of the rocking machine and plunger pump.

This device is the closest analogue of the proposed technical solution.

However, the effectiveness of this device cannot be considered satisfactory.

The technical result of the development is to increase the efficiency of the device for intensifying inflows of formation fluids.

The specified technical result is achieved by the fact that the device for wave action on the reservoir, including a rocking machine, connected by a rope to the rod, a plunger pump for pumping fluid from the well, containing a housing in the form of a pipe lowered into the well, inside of which there is a plunger connected to the rod with an internal a cavity hydraulically connected to the pump’s in-pipe space, a ball valve mounted on the lower end of the plunger, a pressure pulse generator and pressure sensors for recording wave amplitudes, d additionally contains a cylindrical casing fixed on the outer surface of the pump casing, a chipper, tightly closing the lower end of the tubular pump casing, and through holes in the pump casing and casing above the chipper, and serves as a pressure pulse generator connected to the rocking machine, a plunger and an in-tube space a pump between said through holes and a chipper, while pressure sensors are mounted on the pump casing above these holes and on the chipper, respectively.

In this device, a shock wave is generated as a result of liquid penetrating through holes in the plunger pump housing and falling onto the chipper under the influence of gravity. The efficiency of the generator is improved by using the shock power of a multi-meter column of formation fluid contained in the well.

In FIG. 1 shows a General view of the device.

In FIG. 2 shows a diagram of the wave action on the reservoir.

A device for wave action on the reservoir includes a rocking machine 1 (Fig. 1), connected by a rope to the rod 2, a plunger pump for

pumping fluid from the well, comprising a housing 3 in the form of a pipe lowered into the well, inside of which is located a plunger 4 connected to the rod with an internal cavity 5, hydraulically connected to the pump in-pipe space: above the upper end of the plunger are openings 6, and under the lower end of the plunger is a ball valve 7, a cylindrical casing 8 mounted on the outer surface of the pump casing, the chipper 9 tightly closing the lower end of the tubular pump casing, and through holes 10 in the casing and the pump casing above the chipper, while in achestve pressure pulse generator is connected to the pumping unit, the plunger and the tube side of the pump 11 between said through holes and the baffle, the pressure sensors 12, 13 are mounted on the pump housing above these openings and bump, respectively.

The device operates as follows.

When the rocking machine 1 is turned on and the rod 2 moves downward inside the pump housing 3, the plunger 4 connected to it lowers to the bump 9, displacing the fluid located in the cavity 11, which, under the action of its own pressure, opens the ball valve 7 at the lower end of the plunger and enters it the internal cavity 5, and then through the holes 6 in its upper end into the in-tube space of the pump. When the plunger moves upward, a vacuum is created in the in-pipe space 11 of the pump, by which the ball valve closes. Through the openings 10 in the housing, a column of formation fluid L bursts under pressure into the pump tubing and hits the bump. The resulting shock wave W propagates into the reservoir. In this case, the casing 8 of the pump dampens the vibrations of its housing. The displaced fluid is discharged from the well. The frequency of the generated oscillations is regulated by the drive of the rocking machine. The pressure on the walls of the pump casing and on the bump is fixed by sensors 12 and 13, the readings of which determine the amplitude of the generated waves.

When a wave is applied to the reservoir using a generator located in well A (Fig. 2), additional fluid flows appear as arrows D between the producing well B and injection well C, which positively affects the formation productivity indicators.

The use of the proposed device for the intensification of reservoir fluid inflows makes it possible to increase the yield of productive hydrocarbon reservoirs by 10-15% under complicated field development conditions.

Claims (1)

A device for wave action on the reservoir, including a rocking machine connected by a rope to the rod, a plunger pump for pumping fluid from the well, comprising a housing in the form of a pipe deflated into the well, inside of which there is a plunger connected to the rod with an internal cavity hydraulically connected to the in-tube space a pump, a ball valve mounted on the lower end of the plunger, a pressure pulse generator and pressure sensors for recording the amplitude of the waves, characterized in that it further comprises cylin a drum casing fixed to the outer surface of the pump casing, a chipper that tightly covers the lower end of the tubular pump casing, and through holes in the pump casing and casing above the chipper, and a plunger connected to the rocking machine and the pump in-between the through holes and bump, while pressure sensors are installed on the pump casing above these holes and on the bump, respectively.

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