RU2005135582A - METHOD FOR HYDROCAVITATION TREATMENT OF PRODUCTIVE STRESSES AND FILTERS AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (16)

1. The method of hydrocavitation treatment of reservoirs and filters, comprising supplying a working agent under pressure to the supply line and converting the jet of the working agent by means of a cavitation pathogen into a pulsed acoustic jet stream, which effect the surface being treated, characterized in that the frequency and amplitude characteristics of the oscillations are regulated hydrodynamic pressure of a pulsed acoustic jet stream to the maximum degree of cavitation development. 2. The method of hydrocavitation treatment of reservoirs and filters according to claim 1, characterized in that the frequency and amplitude characteristics of the oscillations of the hydrodynamic pressure of the jet stream are controlled in the range from several hertz to ultrasound by changing the input pressure of the jet of the working agent (P ₀ ) and / or the amount the flow rate of the working agent, while the cavitation coefficient χ is taken equal to P _k / P _o , where P _k is the pressure in the flooded area outside the cavitation zone. 3. The method of hydrocavitation treatment of reservoirs and filters according to claim 1, characterized in that the frequency and amplitude characteristics of the fluctuations of the hydrodynamic pressure of the jet stream are controlled by changing the pressure ratio in the inlet region of the cavitation pathogen (P _o ) and in the flooded cavity of its body outside the zone cavitation (P _to ). 4. The method of hydro-cavitation treatment of reservoirs and filters according to claim 1, characterized in that the frequency and amplitude characteristics of the fluctuations in the hydrodynamic pressure of the jet stream of the working agent are controlled by changing the geometric parameters of the elements of the cavitation pathogen and the distances between them. 5. The method of hydrocavitation treatment of reservoirs and filters according to claim 1, characterized in that the frequency and amplitude characteristics of the fluctuations in the hydrodynamic pressure of the jet stream of the working agent are controlled by changing the distance from the outlet of the cavitation pathogen to the surface of the impact on the surface to be treated. 6. The method of hydro-cavitation treatment of reservoirs and filters according to claim 1, characterized in that the frequency and amplitude characteristics of the fluctuations of the hydrodynamic pressure of the jet stream are controlled by changing the geometric parameters of the elements of the cavitation pathogen and / or the distance between them. 7. The method of hydrocavitation treatment of reservoirs and filters according to one of claims 2-6, characterized in that the surface is treated in the range of the maximum degree of cavitation development by selecting the input pressure parameters (P _o ), pressure in the flooded cavity (P _to ) and relative distance

from the cavitation pathogen to the exposure surface according to

Where

χ = P _to / P ₀ , d ₀ - the smallest diameter of the diffuser of the cavitation pathogen, l is the distance from the cut of the cavitation pathogen to the surface of the impact; χ is the cavitation coefficient. 8. The method of hydro-cavitation treatment of reservoirs and filters according to claim 1, characterized in that the flow of the working agent in the cavity of the cavitation pathogen is exposed to additional acoustic disturbance. 9. A device for hydro-cavitation treatment of reservoirs and filters, including a high-pressure pump, a supply line and a cavitation exciter, consisting of a diffuser and a confuser, connected by a connecting element, characterized in that it is equipped with a housing in which the cavitation exciter is located, and a vibration resonator, placed in the cavity of the connecting element, which is an expander and made in the form of a body of revolution, the diameter of which is chosen more than the diameter of the smallest passage holes of the diffuser, while the cavitation pathogen is installed in the housing with the possibility of axial movement. 10. The device according to claim 9, characterized in that the diameter of the connecting element is 18-20 times the diameter of the smallest passage of the diffuser. 11. The device according to claim 9, characterized in that the cavitation pathogen is interchangeable. 12. The device according to claim 9, characterized in that the resonator is made in the form of a flexible plate with a hole and is installed with the possibility of free movement in the expander along the axis of the pathogen. 13. The device according to claim 9, characterized in that the cavitation pathogen at the input is equipped with a flow damper of the working agent installed in the housing with the possibility of axial movement. 14. The device according to p. 13, characterized in that the flow damper of the working agent is made in the form of a chamber with an outlet confuser, in the cavity of which there are three tubes fixed in perforators, two of which have a common inlet channel connected to the pump outlet pipe, and the third tube is placed between the first two and is connected by the output end to the inlet of the output confuser of the damper, the outlet of which is associated with the inlet of the diffuser of the cavitation pathogen 15. The device according to claim 8, characterized in that it is equipped with a tip containing a divider and at least two output nozzle nozzles. 16. The device according to p. 15, characterized in that the nozzle nozzles are made in the form of additional cavitation pathogens.