RU97107521A - WELL-EQUIPMENT FOR PROCESSING THE BOTTOM-HOLE ZONE AND A HYDRODYNAMIC EXPENDITURE GENERATOR FOR IT - Google Patents

Claims (18)

Downhole equipment for processing the bottom-hole formation zone, comprising a jet pump with a housing mounted on a packer on a pipe string, including a mixing chamber, a nozzle chamber with a passage through a packer and a filter sleeve, inside which a relay valve and a flow or pressure regulator are installed, and a hydrodynamic emitter installed under the packer on the pipe string at the level of the perforation interval, characterized in that the valve relay is equipped with a time relay and installed between the pressure regulator and the emitter, in parallel with the valve -rele the overflow channel is formed, and a hydrodynamic transducer is designed as a self-oscillating low-frequency oscillator flow fluctuations.  2. Downhole equipment according to claim 1, characterized in that the time relay is made with separate lines for adjusting the opening and closing times.  3. Downhole equipment according to claim 1, characterized in that the transfer channel is adjustable, and a check valve is installed on the suction line of the jet pump.  4. Downhole equipment according to claim 1, characterized in that a hydraulic time relay is used as a time relay.  5. Downhole equipment according to claim 1, characterized in that a hydraulic differential valve relay is used as a valve relay, and a hydraulic flow or pressure regulator is used as a flow or pressure regulator.  6. Downhole equipment under item 1, characterized in that the jet pump is made in the form of a jet pump with a pulsed supply of passive fluid into the mixing chamber.  7. Downhole equipment according to claim 1, characterized in that an aerator is installed on the supply line in front of the nozzle chamber of the jet pump, and a separator is installed at the outlet of the mixing chamber.  8. Downhole equipment according to claim 1, characterized in that the hydrodynamic self-oscillating low-frequency flow generator is made in the form of a flow generator based on the interaction of vortex flows with additional control flows.  9. Downhole equipment according to claim 1, characterized in that the parameters of the hydrodynamic flow oscillation generator, downhole equipment and downhole system are selected consistent.  10. Downhole equipment in paragraphs. 1 and 4, characterized in that the oscillator of the flow rate is matched with a half-wave resonator-converter, made in the form of a pipe installed at the output of the generator with slots and a reflector, for example, with holes, in the middle part.  11. Downhole equipment according to paragraphs. 1 and 4, characterized in that the flow oscillation generator is hydraulically connected to the air-gas cavity and is consistent with the frequency of its own vibrations.  12. Downhole equipment according to paragraphs. 1, 4 and 5, characterized in that the flow oscillation generator is additionally consistent with the acoustic parameters of the well fluid and the distance from the packer to the slots of the resonator transducer.  13. Downhole equipment according to paragraphs. 1, 4 and 5, characterized in that the oscillator flow rate is additionally consistent with the compressibility of the wellbore fluid, the volume of the under-packer space, the length and diameter of the perforation channels of the well.  14. A hydrodynamic oscillation generator, comprising a housing, a flow chamber located therein with swirl channels and a main nozzle, a central body installed in the flow chamber with a gap relative to its side wall, a pressure manifold connected to the swirl channels and an additional manifold connected to the discharge manifold through the flow limiter and communicated with the main nozzle through the gap between the Central body and the wall of the flow chamber, characterized in that the flow chamber is equipped with an additional nozzle located opposite the main nozzle, and the input cavity of the main and additional nozzle is made common.  15. The hydrodynamic generator according to claim 14, characterized in that the additional nozzle is made in the central body.  16. The hydrodynamic generator according to claim 14, characterized in that it is provided with an elastic cavity communicated with an additional line.  17. The hydrodynamic generator according to claim 14, characterized in that the outputs of both nozzles are interconnected.  18. The hydrodynamic generator according to claim 14, characterized in that the additional line is communicated by an additional channel with the output of the generator, while the additional channel is made in the central body and is equipped with an additional flow limiter.