Patent ID: 9546427
Date: 2017-01-17
CPC Classifications: C02F,C25B

Claim:
1. A method of generating a chlorine-containing compound in a system which comprises an anodic chamber comprising an anodic electrode and having an inlet and an outlet; a cathodic chamber spaced from and adjacent the anodic chamber, the cathodic chamber comprising a cathodic electrode and having an inlet and an outlet; a membrane disposed between and separating the anodic chamber and the cathodic chamber; wherein the anodic chamber, the cathodic chamber, and the membrane are a single unit that can be removed and replaced in the system and wherein the cathodic and anodic electrodes independently comprise graphite; a brine chamber having an anodic electrode and a cathodic electrode spaced from the anodic electrode, the brine chamber having an inlet for receiving a first aqueous salt solution and an outlet; a first power supply coupled to and in electrical communication with the cathodic electrode of the cathodic chamber and the anodic electrode of the anodic chamber; a second power supply which is the same as or different from the first power supply, the second power supply being coupled to and in electrical communication with the anodic and cathodic electrodes of the brine chamber; and optionally a microprocessor coupled to and in electrical communication with at least one of the first and second power supplies; wherein the outlet of the brine chamber is coupled to and in fluid communication with one of the inlet of the anodic chamber and the inlet of the cathodic chamber; wherein the other of the inlet of the anodic chamber and the inlet of the cathodic chamber is for receiving a second aqueous salt solution the same as or different from the first aqueous salt solution; and wherein the chlorine-containing compound is generated in one of the anodic chamber and the cathodic chamber and recovered from one of the outlet of the anodic chamber and the outlet of the cathodic chamber; said method comprising the steps of: applying an electric potential difference between the anodic electrode of the anodic chamber and the cathodic electrode of the cathodic chamber via the first power supply; applying an electric potential difference between the anodic and cathodic electrodes of the brine chamber via the second power supply; measuring and controlling amperage between the anodic and cathodic electrodes of the brine chamber and/or between the anodic electrode of the anodic chamber and the cathodic electrode of the cathodic chamber to generate the chlorine-containing compound; and removing and replacing the anodic chamber, the cathodic chamber, and the membrane as the single unit from the system such that the system is renewed for further use.