RU2164499C2 - Installation for treating water with electric current discharges - Google Patents

Abstract

FIELD: equipment for cleaning water, for aftercleaning and disinfecting preliminarily clarified drainage, for destruction of pesticides, herbicides and other toxic chemicals. SUBSTANCE: installation includes pump 1, system of concentric electrodes 2,3 connected with source of high-voltage pulses 4. High-voltage electrode 2 is connected with high-voltage terminal of pulse source, outer electrode 3 is connected with ground. Electrode 2 is insulated with the aid of dielectric tube 6 and it is mounted on insulator 5. In gap between electrodes 3 and 2 there is dielectric insert 7 having working nozzle 8 separating space between electrodes 2, 3 by two ducts: air duct 9 and water duct 10. Receiving chamber 11 is joined with mixing chamber 12 whose inner surface is provided with dielectric coating-barrier 13. The whole space between electrodes 2,3 in zone of mixing chamber 12 and diffuser 14 serves as electric discharge chamber 15. Outlet opening of electric discharge chamber is joined with pipeline 17 connected with filtration system 18. EFFECT: enhanced efficiency of treating water, high quality of treated water. 1 dwg

Description

 The invention relates to the purification by electric discharges of natural waters, the purification and disinfection of pre-clarified effluents, the destruction of pesticides, herbicides and pesticides.

A device for wastewater treatment by ozonation (as USSR AS N 1495310, IPC ⁶ C 02 F 1/78, publ. 07.23.89), consisting of an ozone generator, a pump, an ejector-mixer and a liquid filtration system. Water is pumped to the ejector-mixer, where it is treated with ozone, after which the treated water is supplied to the filtration system.

 The disadvantage of this device is a high degree of complexity and a rather low efficiency of water treatment.

Partially this drawback was eliminated in the installation for wastewater treatment by ozonation (RF patent N 2006485, IPC ⁶ C 02 F 1/78, publ. 30.01.94), which is selected as a prototype and contains an ozone generator, a pump, an ejector-mixer, and a liquid filtration system, wherein the ozone generator and ejector are arranged coaxially and sequentially in one housing. The ozone generator is made of a high voltage, containing a concentric system connected to a high voltage power source, including an internal low voltage and an external high voltage electrodes with a dielectric barrier separating them. The inner electrode is made tubular, while one end is connected to the pump, and the other is equipped with a working nozzle that enters the mixing chamber of the ejector, the inlet of which communicates with the interelectrode space of the ozonizer. The dielectric barrier, the housing of the mixing chamber of the ejector and the diffuser of the ejector are made at the same time in the form of a dielectric pipe of variable cross section.

 The disadvantage of this device is the low efficiency of water treatment due to the fact that the processing is carried out only by mixing the ozone-air mixture with water.

 The main technical task is to increase the efficiency of water treatment due to the fact that a comprehensive treatment of the air-water emulsion in the entire volume by an electric field, barrier microdischarges, ultraviolet (UV) radiation and chemical oxidizing disinfectants formed in the discharge: ozone, atomic oxygen, hydrogen peroxide and hydroxyl radicals. At the same time, the quality of water purification and disinfection is significantly increased due to the mutual strengthening of certain types of impacts (a synergistic effect is manifested). Insoluble particles (both those found in water and those formed from those dissolved in the process of oxidation and destruction) are activated due to the complex effect on them and acquire the properties of an adsorbent, in the future many impurities are sorbed on them.

 The specified technical problem is achieved in that in the installation for water treatment by electric discharges containing a source of high voltage pulses, a water pump and an ejector device made in the form of coaxial electrodes, the outer of which is connected to the conductive body of the mixing chamber, and the inner surface of the mixing chamber is provided with a dielectric coating , according to the proposed solution, the water pump is connected to an external grounded electrode, the internal high-voltage electrode is made in the form a rod, the working end of which is located in the mixing chamber, and a dielectric tube is put on the internal high-voltage electrode, and a tubular dielectric insert is installed in the gap between the external grounded electrode and the internal high-voltage electrode, the nozzle of which is located in the receiving chamber, the mixing chamber and the internal high-voltage electrode, covered with dielectric barriers form an electric discharge chamber.

 The analysis of the prior art by the applicant made it possible to establish that there are no analogs characterized by sets of features identical to all the features of the claimed device. Therefore, the claimed invention meets the condition of patentability "novelty."

 Search results for known solutions in this and related fields of technology in order to identify features that match the distinctive features of the prototype of the claimed invention have shown that they do not follow explicitly from the prior art.

 From the prior art determined by the applicant, the influence of the transformations provided for by the essential features of the invention on the achievement of the indicated technical result is not known. Therefore, the invention meets the condition of patentability "inventive step".

 The drawing shows the design of the installation for the treatment of water by electric discharges.

 The installation consists of a pump 1, a system of concentric electrodes 2 and 3, connected to a source of high-voltage pulses 4. In this case, the internal high-voltage electrode 2 is connected by a shielded cable to the high-voltage output of the source of high-voltage pulses 4, and the external grounded electrode 3 is connected to ground. The internal high-voltage electrode 2 is installed on the insulator 5, made in the form of a flat ring. The internal high-voltage electrode 2 is made in the form of a rod, and a dielectric barrier tube 6 sealed on one end is put on it. In the gap between the external grounded electrode 3 and the internal high-voltage electrode 2, a dielectric insert 7 is installed, having a working nozzle 8, dividing the space between the electrodes 2 and 3 into two channels: air 9 and water 10. The receiving chamber 11 is connected to the mixing chamber 12, the inner surface which is equipped with a dielectric coating-barrier 13. The entire volume between the electrodes 2 and 3 in the area of the mixing chamber 12 and the diffuser 14 is simultaneously an electric discharge chamber 15. The outlet of the electric discharge chamber 16 is connected ineno with a pipe 17 going to the filtration system 18.

 The device operates as follows.

 The processed liquid is pumped into the water channel 10 with the help of pump 1. Water flows out at a high speed from the working nozzle 8 to the receiving chamber 11, entraining a large amount of air entering through the air channel 9, after which the flow enters the mixing chamber 12 and the diffuser 14 . In the mixing chamber 12, air and water are intensively mixed, forming a highly dispersed water-air emulsion. When the source of high-voltage pulses 4 is turned on in the electric discharge chamber 15 between the electrodes 2 and 3 separated by dielectric barriers, an electric field appears that generates barrier microdischarges in the entire volume of the air-water emulsion, with the formation of UV radiation, ozone, hydroxyl radicals, hydrogen peroxide, atomic oxygen. Thus, the entire volume of the water-air emulsion is treated with an electric field, barrier microdischarges, ozone and other chemical oxidizing agents - disinfectants in the presence of UV radiation. At the same time, the synergistic effect is fully used, which significantly increases the efficiency of water purification and disinfection.

From the outlet 16 of the electric discharge chamber 15, through the pipeline 17, the treated water enters the filtration system 18. High efficiency of water treatment at the proposed installation was obtained with the following main parameters: at an amplitude of high voltage pulses of 20 kV, a pulse supply frequency of 1000 imp / s, and plant performance 0.5 m ³ / h. To achieve high efficiency of plants with different capacities, the optimal parameters were selected experimentally.

Claims (1)

 Installation for water treatment by electric discharges, containing a source of high voltage pulses, a water pump and an ejector device made in the form of coaxial electrodes, the outer of which is connected to the conductive housing of the mixing chamber, the inner surface of the mixing chamber provided with a dielectric coating, characterized in that the water pump is connected to the external grounded electrode, the internal high-voltage electrode is made in the form of a rod, the working end of which is located in the mixing chamber, Rich the inner high voltage electrode worn dielectric tube and the gap between the outer and the inner ground electrode high voltage electrode is installed tubular dielectric insert, the nozzle of which is arranged in the receiving chamber, wherein the mixing chamber and the high voltage electrode is coated with dielectric barrier, form electric discharge chamber.