RU98105083A - METHOD OF INFLUENCE ON BOTTOMFLILLING ZONE OF THE LAYER AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (6)

A method of influencing the bottom-hole zone of a productive formation, including the excitation using an acoustic emitter installed in a well of oscillatory processes of cavitation origin at the expiration of an oil-containing working agent stream injected into the radiator and accelerated therein with simultaneous movement of the emitter across the productive formation, characterized in that the destructive oil-containing working stream the agent is accelerated at the emitter output to a speed of 330-350 m / s and direct it parallel to the tangent d, drawn to the middle line of the section of the formation from the point of intersection on this section of the mentioned middle line of section of the formation with the vertical axis of the well, while the emitter is moved twice down-up or twice up-down over the entire thickness of the formation at a speed of 0.008-0.01 m / s, after which they stimulate the flow of oil into the well due to the ejecting effect of the destructive flow of the working agent exiting the emitter into the annulus of the well and directed upward to its mouth, and the ejecting effect is carried out until becoming steady state oil recovery through this hole.  2. A device for influencing the bottom-hole zone of the formation, comprising a body having a body in the form of a body of revolution that is lowered into the well and having a central vertical channel closed from below, communicating with a channel closed from below, and communicating with lateral cylindrical channels made in the body wall with output diffusers, and a swirler, communicating at the outlet with a pipe connected to the discharge line of the working agent, and at the exit, with the central channel of the housing, characterized in that the swirl is made in the form of a screw with a perforated helical surface, placed in a cylindrical shell, coaxially connected at the inlet with the pipe end and the specified central channel of the cylindrical body - from the outlet side of the swirl, the axis of the side channels are located in the diametrical planes of the cylindrical body, installed in the central cylindrical channel with the possibility of movement spring-loaded bottom and top piston-flow switch, made in the form of a glass open from the top with a bottom, having a side wall in its side etru, a series of radial holes made with the possibility of combining them when moving the piston with the corresponding inlet openings of the side channels for communicating the supra-piston part of the central channel through the intra-piston cavity open from above with the indicated side channels during the excitation of oscillatory processes in the formation, while the side channels with output diffusers placed in interchangeable threaded heads screwed radially into the housing, with the axial or angular direction in them of the mentioned channels and associated with it diffusers relative to the axis of the heads to change the orientation of the axes of these channels with diffusers depending on the orientation of the formation relative to the surface of the Earth, and L-shaped channels are additionally made above the lateral channels in the body, having radial inlet portions turning into vertical portions mating with the output diffusers this is the distance between the cross sections of the housing passing through the centers of the row of inlets of the l-shaped channels and the centers of the downstream row of inlets of the side channels casing, less than the distance from the surface of the upper end of the piston-switch to a cross section passing through the lower points of the radial holes from the piston wall.  3. The device according to claim 2, characterized in that a central bore is made in the bottom of the piston-switch through which a fixed axial rod with a diameter smaller than that of the bore is passed, the upper end rigidly connected to the swirl, and the lower end inserted into the recess, available in the support perforated disk mounted under the piston in the lower part of the central channel, while the ring, which is worn on the rod and spring-loaded from above, which functions as a shut-off element of the non-return valve, fits snugly against the surface of the piston bottom bottom, under the perforated base plate, is screwed into the central channel open-topped glass, the bottom of which has a central opening closed by a spring-loaded top shut-off element.  4. The device according to p. 2, characterized in that the pitch of the helical surface of the swirler decreases from top to bottom in the direction of flow of the working agent. 5. The device according to claim 2, characterized in that the angle of the outlet diffusers, conjugated with the side channels in the wall of the housing, is 46-50 ^o .  6. The device according to claim 2 or 3, characterized in that the flow piston is spring-loaded from above by a spring installed in the supra-piston part of the central channel, the upper end of this spring being pressed by elastic force to the lower end of the swirler, and the lower to the surface of the ring in contact with the surface of the bottom of the piston-switch, while the bottom of the piston-switch is spring-loaded, the lower end pressed against the supporting perforated disk.