RU2001118336A - A method of obtaining a disinfectant solution and installation for its implementation - Google Patents

Claims (17)

1. A method of obtaining a disinfectant solution, including processing the initial aqueous solution of alkali or alkaline earth metal chloride in the cathode chamber of a diaphragm electrochemical reactor, withdrawing part of the solution processed in the cathode chamber and processing the main flow of the solution in the anode chamber of the diaphragm electrochemical reactor with controlling the flow rate of the treated solution through the anode chamber, characterized in that the processing is carried out in a block of electrochemical reactors containing 2, 3 or 4 pe actors, the treatment is carried out with a single flow of the solution through the cathode chambers of the reactors, the removal of part of the solution processed in the cathode chambers is carried out during processing in a sealed flotation reactor with the output of sludge, and the main stream is sequentially processed in the anode chambers of the reactors, and the flow rate of the treated solution through the anode chambers reactors are 2-4 times higher than the speed of its flow through the cathode chambers. 2. The method of obtaining the disinfectant solution according to claim 1, characterized in that as the initial solution of alkali or alkaline earth metal chloride, a solution of sodium chloride with a concentration of 0.2-3.0 g / L is used. 3. The method of obtaining the disinfectant solution according to claim 1, characterized in that the initial solution of sodium chloride is used with a concentration of 50-100 g / l, and before processing in the cathode chambers of the reactors, the initial solution is mixed with fresh water to a concentration of 0.2-3.0 g / l 4. The method of obtaining the disinfectant solution according to claim 1, characterized in that the initial solution is used with a concentration of 50-250 g / l, and after processing in the cathode chambers of the reactors, the treated solution is mixed with fresh water to a concentration of 0.2-3.0 g / l 5. The method of obtaining the disinfectant solution according to claim 1, characterized in that the initial solution is used with a concentration of 50-250 g / l, and after processing in the cathode chambers of the reactors, flotation reactor and the first anode chamber along the stream, before processing in each of the following In the anode chambers of the reactors, the treated solution is mixed with fresh water, lowering its concentration, and at the entrance to the last anode chamber along the processed solution, the concentration of the treated solution is 0.2-3.0 g / L. 6. A method of obtaining a disinfectant solution according to claim 1 to 4 or 5, characterized in that the treatment is carried out when the pressure in the anode chambers of the reactors is exceeded, in comparison with the cathode ones. 7. A method of obtaining a disinfectant solution according to claim 1 to 4 or 5, characterized in that the treatment is carried out when the pressure in the cathode chambers of the reactors is exceeded, in comparison with the anode ones. 8. The method of obtaining a disinfectant solution according to claim 6 or 7, characterized in that the treatment is carried out with a pressure drop in the electrode chambers of the reactors of at least 0.3 atm. 9. A method of producing a disinfectant solution according to any one of claims 1 to 8, characterized in that after processing in a flotation reactor, before being fed into the anode chambers, the solution is passed through a catalyst bed, for example, aluminosilicate, oxide-zirconium, oxide-niobium. 10. Installation for producing a disinfectant solution by electrochemical treatment of an initial aqueous solution of alkali or alkaline earth chloride chloride, containing at least one electrochemical diaphragm reactor, a feed pipe for supplying an initial aqueous solution of alkali or alkaline earth chloride chloride connected to the inlet of the reactor cathode chamber, line the flow of the treated solution, connecting the output of the cathode chamber with the input of the anode chamber of the reactor, with a fixture installed on the flow line for the removal of part of the solution treated in the cathode chamber, and the discharge pipe of the obtained disinfectant solution connected to the outlet of the anode chamber of the reactor, characterized in that the diaphragm electrochemical reactors are connected into blocks of 2, 3 or 4 reactors, the installation contains one or more blocks connected in parallel moreover, all the cathode chambers of the reactors of the block or blocks are hydraulically connected in parallel, the inputs of all the cathode chambers of the reactors are connected to the feed pipe of the initial solution, the outputs of all the bottom of the reactor chambers are combined with a common collector, and the anode chambers of the reactors in each block are hydraulically connected in series, the device for draining part of the solution processed in the cathode chambers is made in the form of a sealed flotator with nozzles for the output of the slurry and part of the treated solution, the inlet of the flotator is connected to a common collector, liquid the output of the flotator is connected to the input of the anode chamber of the first downstream processed reactor solution in a block or in blocks, the output of the anode chamber of the first downstream processed emogo solution reactor unit connected to the inlet of the anode chamber of the next downstream unit processed reactor solution and the anode chamber outlet downstream of the last reactor solution processed block or blocks connected to the pipeline outlet prepared disinfectant solution. 11. Installation for producing a disinfectant solution according to claim 10, characterized in that the diaphragm electrochemical reactors of the blocks are each made of one modular diaphragm electrochemical cell or of several modular diaphragm electrochemical cells, the electrode chambers of which are connected in parallel in the reactor. 12. Installation for producing a disinfectant solution according to claims 10 and 11, characterized in that it further comprises a container with a catalyst having an input in the upper part and an output in the lower one and installed on the liquid output of the flotation reactor before the first block reactor is fed into the anode chamber or blocks. 13. Installation for producing a disinfectant solution according to claims 10-12, characterized in that it contains a fresh water supply line, a container with a concentrated chloride solution and a device for preparing the initial solution located on the pipeline for supplying the initial solution before entering the cathode chambers of the block reactors or blocks, made, for example, in the form of a water-jet pump connected to a tank and a fresh water supply line. 14. Installation for producing a disinfectant solution according to claims 10-12, characterized in that it contains a fresh water supply line, a container with a concentrated chloride solution and a mixer, made, for example, in the form of a water-jet pump to create excess pressure, and a container with concentrated the chloride solution is connected to the feed pipe of the initial solution, the mixer is installed on the line connecting the output of the cathode chambers of the reactors of the block or blocks, and the mixer is also connected to the fresh water supply line. 15. Installation for producing a disinfectant solution according to claims 10-12, characterized in that it contains at least one unit consisting of two electrochemical diaphragm reactors, a container with a concentrated solution of chloride, a fresh water supply line, at least two mixers, made, for example, in the form of water-jet pumps, and a pressure regulator, and a container with a concentrated chloride solution is connected to the feed pipe of the initial solution, the pressure regulator is installed on the fresh water supply line, the last connected to two mixers, of which the first is installed on the line connecting the output of the cathode chambers of the block reactors in front of the sealed flotation reactor, the second is installed between the exit from the anode chamber of the first block reactor to be processed along with the inlet of the second block reactor. 16. Installation for producing a disinfectant solution according to claims 10-12, characterized in that it contains at least one unit consisting of three electrochemical diaphragm reactors, a container with a concentrated chloride solution, a fresh water supply line, at least three mixers, made, for example, in the form of water-jet pumps, and a pressure regulator, and a container with a concentrated chloride solution is connected to the feed pipe of the initial solution, the pressure regulator is installed on the fresh water supply line, the last connected to three mixers, of which the first is installed on the line connecting the output of the cathode chambers of the block reactors in front of the hermetic flotation reactor, the second is installed between the exit from the anode chamber of the first block reactor to be processed along with the inlet of the second block reactor, and the third is installed between the exit from the anode chamber of the second reactor unit and the entrance to the anode chamber of the third reactor. 17. Installation for producing a disinfectant solution according to claim 10 or 11, characterized in that it contains at least one unit consisting of four electrochemical diaphragm reactors, a container with a concentrated chloride solution, a fresh water supply line, at least four mixers, made, for example, in the form of water-jet pumps, and a pressure regulator, and a container with a concentrated chloride solution is connected to the supply pipe of the initial solution, the pressure regulator is installed on the fresh water supply line, the latter is connected to four mixers, of which the first is installed on the line connecting the output of the cathode chambers of the block reactors in front of the hermetic flotation reactor, the second is installed between the exit from the anode chamber of the first block reactor being processed along with the inlet of the second block reactor, and the third the exit from the anode chamber of the second reactor of the block and the entrance to the anode chamber of the third reactor, and the fourth is installed between the exit from the anode chamber of the third reactor of the block and the entrance to dnuyu fourth reactor chamber.