RU2002123257A - METHOD FOR PROCESSING A FLUID AND A DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (2)

1. A method of processing a fluid, including forming a fluid stream in the form of N jets of plane-parallel shape by passing the stream through a diaphragm with inlet nozzles, introducing under the influence of excessive pressure the formed jets with hydrodynamic vibrations excited therein into the treatment zone, in which opposite to each of the formed jets placed flexible with a frontal edge on the free end, cantilevered obstacle to its movement in the form of a package of N parallel elastic plates for implementation their collisions, and the excitation of vibrations of flexible obstacles when jets flow on them, the simultaneous increase in the amplitude of vibrations of each flexible obstacle under resonance with hydrodynamic vibrations of the fluid with the formation of a cavitation zone, and the withdrawal of the treated fluid from the treatment zone, characterized in that when the flow is formed fluid in the form of N jets, each of them twice passing through the diaphragm changes the shape and cross-sectional area, while the formed jets are introduced into the zone of working in such a way that the longitudinal axis of each injected jet is in the same plane with the front edge of the flexible obstacle, the introduction of the formed jets into the processing zone is performed under the influence of excessive pressure, which ensures the speed of the jet flowing onto the flexible obstacle from 3.9 m / s to speed, which causes the onset of supercavitation in the medium to be treated, said fluid being supplied to the treatment zone as a continuous stream. 2. A device for processing a fluid containing a housing having an inlet and an outlet installed in the inlet of a diaphragm having N nozzles, each of which in length consists of sections of different shapes and sections, located opposite the diaphragm and a cantilever fixed package of N elastic parallel plates, with each plate placed opposite the corresponding nozzle and has at its free end facing the nozzle side a corresponding sharp frontal edge, which is formed by bilateral bevels made according to the thickness of each plate, characterized in that each nozzle in length consists of two sections, the first of which has a conically converging shape, turning into a second section, made slit-like, the front edge of each plate is located opposite the longitudinal axis of the corresponding nozzle and they are located in the same plane, and the two-sided bevels of the front edges of each plate are made of equal length and form an acute angle, while the body and plates are made of material with the same magnetic properties and.