RU2010142472A - METHOD AND STATION FOR WATER TREATMENT AND DISINFECTION - Google Patents

Abstract

 1. A method of water purification and disinfection of water, comprising treating water with a solution of a chlorine-containing coagulant, previously subjected to electrochemical treatment in an electrolysis unit with insoluble electrodes, and supplied to the water to be purified, characterized in that the resulting coagulant of higher basicity and chlorine or chlorine water are separately sent for treatment and water disinfection. ! 2. The method according to claim 1, characterized in that to obtain a highly effective coagulant containing active chlorine, and separately chlorine or chlorine water, chlorine-containing coagulants of low basicity up to metal chloride salts and components that prevent the passivation of electrodes are used. ! 3. The method according to claim 2, characterized in that the basicity of the resulting coagulant is adjusted for a specific water of a local water source using an automated process control system (ACS TP), which optimizes its composition in terms of water quality at the outlet of the water treatment and disinfection station . ! 4. The method according to claim 3, characterized in that the dosing of chlorine or chlorine water in the purified water is regulated by an automated process control system (ACS TP) or manually by changing the costs of the reagents and voltage and current in the electrolysis unit, and the electrolysis is carried out at lower voltage compared to existing methods. ! 5. The method according to claim 4, characterized in that the chlorine capture system extracts chlorine not only from the anode space, but also from the buffer storage capacity of the resulting coagulant, stabilizing the composition of chlorine

Claims (9)

1. The method of water purification and disinfection of water, comprising treating water with a solution of chlorine-containing coagulant, previously subjected to electrochemical treatment in an electrolysis unit with insoluble electrodes, and supplied to the water to be purified, characterized in that the resulting coagulant of higher basicity and chlorine or chlorine water are separately sent for treatment and water disinfection. 2. The method according to claim 1, characterized in that to obtain a highly effective coagulant containing active chlorine, and separately chlorine or chlorine water, chlorine-containing coagulants of low basicity up to metal chloride salts and components that prevent the passivation of electrodes are used. 3. The method according to claim 2, characterized in that the basicity of the resulting coagulant is adjusted for a specific water of a local water source using an automated process control system (ACS TP), which optimizes its composition in terms of water quality at the outlet of the water treatment and disinfection station . 4. The method according to claim 3, characterized in that the dosing of chlorine or chlorine water in the purified water is regulated by an automated process control system (ACS TP) or manually by changing the costs of the reagents and voltage and current in the electrolysis unit, and the electrolysis is carried out at lower voltage compared to existing methods. 5. The method according to claim 4, characterized in that the chlorine capture system extracts chlorine not only from the anode space, but also from the buffer storage capacity of the resulting coagulant, stabilizing the composition of chlorine and the resulting coagulant. 6. The method according to claim 5, characterized in that the synthesis of a coagulant with special predicted optimal properties is carried out due to the fact that during electrolysis, special loads on electricity and consumption of feedstock are established based on information obtained from the quality indicators of purified water and total energy consumption . 7. Water treatment and disinfection station, which includes an automated process control system (ACS TP), a reagent preparation system, an electrolysis unit, a settling tank for coagulation and flocculation of undissolved suspensions and solids, a device for removing flakes, chlorine dosing and chlorine production devices water, a device for removing sludge, a mechanical filter, characterized in that the reagent preparation system is equipped with level sensors controlled by reaction dosing mechanisms comrade, pumps, adjustment mechanisms reagent costs controllable via the process control system (PCS) that provides control and management of the optimal dosing of the starting reactants for the process according to the final analysis of purified water. 8. The station according to claim 7, characterized in that the electrolysis system is equipped with instrumentation with access to the process control system (ACS TP) and actuators: temperature sensors, hydrogen sensors, current and voltage meters (ammeter and voltmeter) ; while in the electrolysis device there are holes in the anodic and cathodic spaces for supplying a prepared solution with a coagulant and holes in the anodic and cathodic spaces for selecting the optimal coagulant with high disinfecting properties, through which the basicity and elimination of passivation of the electrodes are provided, and the cathodic and anodic spaces the cell is separated by a special diaphragm or membrane that allows the solution to form inside the cell, but prevents passing through it bubbles of hydrogen and chlorine, as well as holes located in the anode and cathode spaces, for the selection of the resulting coagulants of different basicities, with high disinfecting properties. 9. The station of claim 8, characterized in that the chlorine dosing and chlorine water production device has a chlorine capture system and a chlorine water storage tank equipped with pumps, sensors, flow meters and controlled valves for controlling the flow of chlorine and chlorine water.