RU2000112967A - METHOD FOR PROCESSING BOTH ZONE OF THE PRODUCTIVE LAYER AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (8)

1. The method of processing the bottom-hole zone of the reservoir, which consists in sealing the well with a tubing string and a perforated reservoir in it, supplying the working fluid to the well, creating excessive static pressure in the well, effecting a hydraulic shock at the top of the string, transferring it through liquid column, deviation at the exit of the tubing string and sequential discrete movement of its lower end along the well to the next section of the perforated production area and after processing the previous one, characterized in that the supply of the working fluid to the well is carried out continuously in a volume greater than the current injectivity of the formation, the magnitude of the generated static pressure is changed from the minimum value that ensures constant pressure transmission of the hydraulic shock to the shock body to the maximum value, the value which does not exceed the pressure of repression, taking into account the pressure of the liquid column, a hydroblow is imposed on an alternating static pressure, rejected during acoustic waves, direct the action vectors of the waves to the side surface of the well and into the depth of the perforation cracks, while controlling the magnitude of the change in the intensity of vibrations of the sound waves and the flow rate of the working fluid supplied to the well, with the same intensity of vibrations of the sound waves moving the lower end of the column at a distance equal to the projection onto the vertical axis of the well of at least one minimum distance between the two nearest perforation slots, and again repeat the action water shock, by changing the intensity of sound vibrations and a subsequent increase in the flow rate of the working fluid, one judges the location of at least one equilibrium zone balancing the rock pressure around the well within the limits of the impact of the shock, when such a zone is detected, it is subjected to the force load of the shock to a sharp increase in flow working fluid.  2. The method according to p. 1, characterized in that the created maximum variable static pressure is 0.3-0.5 MPa / s. 3. The method according to p. 1, characterized in that upon detection of at least one zone of equilibrium, balancing the rock pressure around the mine, the impact on it is carried out until the formation has absorbed the working fluid in an amount of at least 10 m ³ . 4. The method according to p. 1, characterized in that the pulses of water hammer generate with a frequency equal to 25 s ^-1 - 30 s ^-1 .  5. The method according to p. 1, characterized in that any incompressible fluid is used as the working fluid, for example: limiting kerosene, degassed oil, acid, alkali solution, produced water.  6. A device for treating the bottom-hole zone of a reservoir containing a column of sealed tubing, above which a shock generator is installed, with the possibility of transmitting the impact into the depths of the column, and a deflecting device, a reservoir with working fluid, a pump, the input of which is installed in the lower part connected to the reservoir, and the outlet with the cavity of the column, a means of sealing the well, a means of sealing the upper part of the column, characterized in that it contains means for communicating the floor borehole with a reservoir, and the deflecting device is made in the form of a hollow body of revolution, inside the cavity of which a conical reflector is installed in the lower part, and longitudinal, through grooves are made on the lateral surface, the length of which is equal to the projection onto the vertical axis of the borehole of the minimum distance between two nearest slots perforation.  7. The device according to p. 6, characterized in that the body of revolution is a hyperbolic paraboloid, the radius of curvature of which ensures the focusing of acoustic waves in the depths of the perforation slots.  8. The device according to p. 6, characterized in that the body of revolution is a cylinder.