RU2007130763A - METHOD AND DEVICE FOR COLD DESCRIPTION, ACTIVATION AND PURIFICATION OF WATER FROM ANY NATURAL SOURCE - Google Patents

Claims (2)

1. The method of cold desalination, activation and purification of water from any natural source to drinking water of the highest quality or active water and / or industrial water, when exposed to electromagnetic fields, dispersion, ozonolysis, cavitation, filtration and electromechanical separation, characterized in that water is excited at the molecular level by the combined, simultaneous and independent action of a constant and alternating electromagnetic field with the application of a pulsed microwave field, dispersed to a submicron level in an excess flow of ozone-containing gas and applying a pulsed electromagnetic field with the formation and further maintenance of a two-phase gas-water mixture-emulsion with ensuring its disinfection, in the course of water it is subjected to repeated ozonation in succession, it is subjected to hydromechanical cavitation with simultaneous application of electrohydrodynamic shock from it spark discharge in an aqueous medium, support the dispersion of the medium by acoustic waves of a certain frequency, on porous filters in the presence of ozone-containing gas with the removal of salts and organic impurities, after which they are sprayed in a strong pulsed electromagnetic field, followed by separation of aerosols in electrostatic fields of constant and variable intensity, the number of fields being determined by the number of components released from the water, they are used to power the chemotronic distiller and the entire plant source of pulsed voltage and current with independent adjustment of output parameters, pulse frequency to create electric fields upon excitation, repeated cavitation, vortex and separation of the treated water, the necessary intermolecular bonds of water clusters are selected from the resonance conditions, upon excitation and separation, a whole system of radial pulsed fields is created with an inhomogeneous distribution of the intensity vector along the exposure height, and the separation centrifugation parameters are selected from the separation conditions from a finely dispersed aqueous mixture of heavy drops with a high content of salts, hydroxides and insoluble sediment from pure water, section Leniye aerosol into fractions is effected by changing only the electrical system parameters: magnitude of voltage pulse amplitude and / or current and / or shape of the current pulse, i.e., the length of the front, the duration of the pulse and / or the pulse repetition rate, while the removal of impurities from water is carried out repeatedly with an excess of ozone-containing gas, as in the process of cavitation, separation and purification of impurities during filtration. 2. A device for cold desalination, activation and purification of water from any natural source, containing a molecular exciter located in series along the path of the purified water and connected by pipelines in crossed electromagnetic fields with the application of a pulsed microwave field, an inkjet apparatus, a cavitator, a labyrinth of filters typical porous, fine separator, chemotronic distiller, as well as an ozone generator and high voltage pulse voltage sources, characterized in that the pathogen is made n in the form of a dielectric pipe with built-in electrodes in the form of narrow plates, an inductor connected to a high-voltage pulse current generator with independent adjustment of the output voltage level and current amplitude is placed on top of the pipe, the exciter output is connected to the ejector of the jet apparatus made of metal and a grounded Laval input nozzle, which has a critical cross section and a diffuser with an angle of divergence of not more than 14 °, the nozzle is closed by a cap with a number of holes that ensure the separation of the flow into the thinnest streams, ozone the torus is connected with the internal cavity of the jet apparatus body, the bell of the jet apparatus is connected to the positive pole of the high-voltage power supply unit, the housing of the jet apparatus is made of dielectric, the output of the jet apparatus is directly connected to the cavitator inlet, made in the form of a conventional Laval nozzle with a body from an insulator, into the wall of which in a critical section, a metal shell electrode is inserted, connected to the negative high-voltage electrode of the power supply system, in the center of the Laval nozzle a grounded conical fairing, the rim of which forms a discharge gap with the nozzle shell, the cavitator body behind the critical section has an opening and cylindrical pockets for collecting part of the impurities separated from the water, the cavitator exit is connected to the labyrinth inlet, made in the form of a pipe, the internal volume of which is uniformly divided by flat disk diaphragm-membranes with perforation, forming during the transition from one diaphragm to another a helical line with a given step, the internal cavity of the labyrinth is connected with the gene an ozone generator, on the inner surfaces of the cavitator and the labyrinth are placed electrohydroshock flotator-dischargers connected to a high-voltage pulse current generator with independent adjustment of the output voltage and current pulse shape, the labyrinth output is associated with typical porous and gravity adsorption filters, the water output of the filters is connected to the input of the electrodynamic a separator-filter of ultra-pure purification and activation of water, which is made in the form of a cylindrical body, closed with a lid of insulating material, on the cover there is an electric motor giving 6000 rpm with the possibility of adjustment, the grounded motor shaft passes inside the separator, it contains a centrifuge disk or a series of disks that are surrounded by a high-voltage perforated or mesh electrode made in the form of a truncated funnel cone, docked at the bottom with a cylindrical body, the electrode through the input on the cover is connected to the negative input of the power source with an adjustable voltage level, the input of the ozone-containing mixture and the input of of prepared water, one or more auxiliary perforated electrodes are installed between the high-voltage mesh electrode and the casing between the high-voltage mesh electrode and the casing; a cylindrical electrode dividing the working volume into two cavities is located near the wall; a pocket is located near the bottom for collecting fully purified drinking water behind the cylindrical mesh electrode water outlet through the pipe to the consumer, for drainage of incompletely purified water, additional nozzles are located on the bottom for water drainage to the inlet of the separator or industrial water pipe.