SU30266A1 - Electrolytic method of increasing the acidity of aqueous solutions - Google Patents

Description

In some cases of chemical practice, it is necessary to increase the acidity of aqueous solutions containing salts or acids or alkalis, and the consumption of strong acids for this purpose does not pay for itself economically. The present invention aims to reduce the cost and simplify the process of increasing the acidity of aqueous solutions and consists in the fact that the solution is subjected to electrolysis with an insoluble anode, passing sour gas through the solution or its mixture with other gases. The atom released during the electrolysis at the anode, for example, chlorine (if chloride salts are present) under the action of dissolved sulfurous acid, is converted into hydrochloric acid and thereby converts sulfuric acid into sulfuric acid. - When working with solutions containing chloride salts, this is in most practical cases the processing of natural waters and brines and takes place, and with sufficiently cheap electric energy there is no need to separate the anode space from the cathode one. Electrolyzer in this case for work

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The proposed method is a simple reservoir in which the cathodes and anodes are placed in close proximity to each other and through which electrolysis blows, better under the action of the agitator, sulfur dioxide.

A similar electrolyzer can be used with cheap electrical energy and with solutions that do not contain chlorine ions, with the only difference that in chloride solutions, due to some solubility of chlorine emitted at the anode, as such, or in the form of hypochlorite, the reaction with sulfuric acid occurs in the whole mass of the solution and the surface of the anodes can be made small. For solutions without chlorine ions, the oxidation of sulfurous acid occurs only on the surface of the anodes, and therefore the current density is as low as possible.

With more expensive electrical energy, it is more expedient to use electrolyzers with the separation of the cathode space by a diaphragm and then the flow

electrical energy is significantly reduced.

- The transmission of sulfur dioxide can be maintained not in the electrolyzers themselves, but can dissolve the required amount of it in saline solution in separate devices, for example, continuously operating columns located in front of the electrolyzers.

The subject matter of the invention.

The electrolytic method of increasing the acidity of aqueous solutions, preferably saline, characterized in that the solution is subjected to electrolysis with an insoluble anode, passing sour gas through the solution or its mixture with other gases.