RU2001121664A - A method of obtaining a disinfectant solution and device for its implementation - Google Patents

Claims (5)

1. A method of obtaining a disinfectant solution, including processing the initial aqueous solution of sodium chloride in the cathode chamber of the main diaphragm electrochemical reactor, dividing the flow of the treated solution into two parts, one of which is removed from the treatment cycle, and the other is fed to the anode chamber of the same reactor, characterized in that after processing in the cathode chamber of the main reactor and before separation, the flow is sequentially processed in the cathode and anode chambers of an additional diaphragm electrochemical reactor, and when processing in the primary and secondary reactors, the solution to be treated in the cathode chambers moves forward or countercurrent with respect to the direction of movement of the solution in the anode chambers. 2. The method for producing a disinfectant solution according to claim 1, characterized in that when the primary and secondary reactors are processed, the solution to be treated in the cathode chambers moves in direct flow relative to the direction of the solution in the anode chambers, the concentration of sodium chloride in the initial solution is 2.0– 5.0 g / l, while the part of the stream withdrawn from the treatment cycle is 2-5%. 3. The method for producing the disinfectant solution according to claim 1, characterized in that when the primary and secondary reactors are processed, the solution to be treated in the cathode chambers moves countercurrently with respect to the direction of the solution in the anode chambers, the concentration of sodium chloride in the initial solution is 0.2– 2.0 g / l, while part of the flow output from the treatment cycle is 0.5-3.0%. 4. A device for producing a disinfectant solution containing a main electrochemical reactor with electrodes and a diaphragm installed therein, dividing the interelectrode space into the anode and cathode chambers, a feed line for supplying the initial solution connected to means for introducing the solution into the cathode chamber of the main reactor, an overflow line connecting the means solution withdrawal from the cathode chamber of the main reactor with means for introducing the solution into the anode chamber of the main reactor, a device for enabling the separation of the flow of the treated solution into two parts and the withdrawal of one part from the treatment cycle, installed on the flow line, and the output line of the obtained disinfectant solution, connected to the solution withdrawal means, from the anode chamber of the main reactor, characterized in that the device contains an additional electrochemical reactor with installed it contains electrodes and a diaphragm that separates the interelectrode space into the anode and cathode chambers, and an additional reactor is installed on the overflow line in front of the by separating the flow so that the means for withdrawing the solution from the cathode chamber of the main reactor are connected to the means for introducing the solution into the cathode chamber of the additional reactor, the means for withdrawing the solution from the anode chamber of the additional reactor are connected to the device for separating the flow into parts, and the additional reactor is provided with an additional line a flow connecting the output of the cathode chamber of the additional reactor with the input of the anode chamber of the additional reactor. 5. The device for producing a disinfectant solution according to claim 4, characterized in that the primary and secondary electrochemical reactors are made of each of one or more vertical electrochemical flow-through modular elements with coaxial cylindrical electrodes and a cylindrical diaphragm separating the interelectrode space into the anode and cathode chambers, means for introducing the solution and outputting the solution of the anode and cathode chambers of the main and additional reactors are made in the form of a patrol bk, and either the input pipes of the anode and cathode chambers are located in the lower part of the modular element, and the output pipes in the upper part, or the input pipe of one of the electrode chambers is located in the lower part of the modular element, and the input pipe of the counter-electrode chamber is in the upper one, and accordingly, the outlet pipes of these chambers are located in the upper and lower parts.