RU2014147294A - METHOD FOR PROCESSING WATER AND AQUEOUS SOLUTIONS AND INSTALLATION FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method of treating water and aqueous solutions, including adjusting the pH by repeatedly decreasing the pressure of a high-pressure liquid when it is recirculated to a value at which cavitation occurs, followed by a pressure increase to a value at which cavitation ceases, characterized in that the liquid to be treated comes from feed pump through a filter to a cavitation reactor, in which at least two cavitators of different operating principles are separated in series, separated by intermediate chambers Allowing to introduce the required ingredients, catalysts, surfactants and perform additional preliminary activation and separation of the treated liquid, and in the last cavitator configured as a cyclone, performs the final separation zhidkosti.2 treated. Installation for processing water and aqueous solutions, containing a cavitation reactor with cavitators installed in it, intermediate chambers connected to the inlet and outlet of the reactor, a feed pump and pipelines, characterized in that the reactor is made in the form of a tank with a lid with at least two installed in series connected cavitators of various operating principles, separated by intermediate chambers, the first of which, made of a cylindrical shape and mounted horizontally, with axial placement at ejector foot for supplying additional ingredients, electrodes are introduced for performing a high-voltage pulsed electro-hydraulic discharge with a voltage supply of 35 kV to 50 kV at a pulse frequency of 0.1 Hz to 20 Hz, with a chamber volume V of

Claims (2)

1. A method of treating water and aqueous solutions, including adjusting the pH by repeatedly decreasing the pressure of a high-pressure liquid when it is recirculated to a value at which cavitation occurs, followed by a pressure increase to a value at which cavitation ceases, characterized in that the liquid to be treated comes from feed pump through a filter to a cavitation reactor, in which at least two cavitators of different operating principles are separated in series, separated by intermediate chambers Allowing to introduce the required ingredients, catalysts, surfactants and perform additional preliminary activation and separation of the treated liquid, and in the last cavitator configured as a cyclone, performs the final separation of liquid to be treated. 2. Installation for treating water and aqueous solutions, containing a cavitation reactor with cavitators installed in it, intermediate chambers connected to the inlet and outlet of the reactor, a feed pump and pipelines, characterized in that the reactor is made in the form of a tank with a lid with installed inside two series-connected cavitators of different operating principles, separated by intermediate chambers, the first of which, made of a cylindrical shape and mounted horizontally, with axial placement on onyshke ejector for supplying additional ingredients introduced electrodes for the electro-discharge pulse high feed voltage from 35 kV to 50 kV pulses at a frequency of 0.1 Hz to 20 Hz, with a volume V _K of the chamber defined by the relation (V _K = (G _H Δ1000) / 3600f, l, where G _H is the pump capacity, m ³ / h; f is the pulse frequency of the high-voltage spark gap, Hz), and the liquid from the first cavitator flows tangentially into this chamber, and is discharged through a pipe installed through bottom axis, opposite ozhnogo ejector and coupled to the input of the second intermediate chamber installed therein an ultrasonic transducer, ultrasonic waves with a frequency of 30-98 kHz and intensities above 10 ⁵ W / m ^2, and the last cavitator connected to the output of the second intermediate chamber is a vortex-type cavitator mounted vertically, containing an input device in the form of a nozzle with a tapering spiral cochlea, or a nozzle with a tangential supply of fluid to the confuser body with a narrowing angle from 0 to 10 °, the output device, with reg valve, connected by a pipeline to the drain pipe of the first intermediate chamber and supplying liquid through an automatically cleaned filter, for example, FIBOS, through an adjustment and shut-off valve, to the suction line of the pump, and an additional outlet pipe of this cavitator, connected to the lower end bottom, along the axis case, has a diameter of (0.35-0.40) of the average diameter of the body of the vortex cavitator, connected to pipelines and shut-off and control valves, allowing circulation of samples liquid being pumped through a pump and a cavitation reactor or, through an additional filter with an automatic cleaning system and drainage removal, its direct-flow movement from the inlet tank (reservoir) to the receiver tank of the purified liquid consumer.