TH413B - Process of oxidation of chlorine by electrolysis in solution - Google Patents

Abstract

is an invention involving the oxyacidification of chlorine or its salts. by separating the substance in a salt solution which contains calcium and/or magnesium in or in seawater with electricity Such a process over time will have sediment. or the slag catches on the electrodes. especially in cells where seawater passes for the first time. Therefore, it requires frequent cleaning, which can be solved by this method of invention.

Claims (4)

1. Process to produce oxy-acid of chlorine or its salts by separating substances in a calcium-containing glycemic solution. And / or magnesia mixed in or in sea water with electricity Which includes: A. passing the aforementioned salt solution to the first electrolytic cell Which consists of at least one negative terminal And at least one anode is separated in such a way that the velocity of the salt solution through the cell is greater than 0.9 m / s. And not higher than 2.0 m / s and b. After that, pass the salt solution from step A to at least one electrolyte next cell. Which consists of at least one negative and positive electrode The distance from each other is greater than the distance between the cathode and the anode of the first electrolyte. And the velocity of the salt solution in the next electrolyte cells would be 0.3 m / s to less than 0.7 m / s. The velocity is that of a gas-free salt solution. 2. The process according to claim 1, where the separation of substances in the solution by electricity It is done in the first cell with a flow velocity greater than 0.9 and not higher than 1.4 m / s. And in the next cell with a flow velocity of 0.5 to less than 0.7 m / s. 3. The process according to claim 1, where the current of a conductive solution which leaves a number of first electrolytic cells Which are connected by water in parallel and electrically connected in series And this combined current is sent to the next electrolyte cell, which is connected in parallel. 4. The process according to claim 1, where the velocity of such conductive solution in the first cell is 0.9 m / s. And the velocity in that next cell is 0.57 m / s.