RU128607U1 - INSTALLATION FOR OBTAINING SODIUM HYPOCHLORITE SOLUTION - Google Patents

Abstract

Installation for producing a solution of sodium hypochlorite, containing a drainage salt solvent, measuring device, pump, ejector, electrolyzer, a tank of working salt solution, characterized in that it is equipped with a water degasser used to prepare a working salt solution.

Description

A utility model relates to the field of inorganic compounds by electrolytic methods. The installation can be used for disinfection of drinking and wastewater, in water treatment in swimming pools, in water recycling systems, as well as in other areas of the economy where sodium hypochlorite obtained by non-diaphragm electrolysis of sodium chloride solutions is used in technological processes.

Known electrolysis installation for the production of sodium hypochlorite solutions consisting of a salt solvent, a measuring device, a pump, a tank of a working solution of sodium chloride and an electrolyzer, in which an acid treatment is carried out in order to clean the electrodes from deposits of hardness salts. ("New technologies and equipment in water supply and sanitation" Collection of materials M. 2001).

If high concentration of water, substances that form hardness salts are used to prepare a solution of table salt, the use of acidic electrode cleaning alone has drawbacks as the process of deposit formation is intensive. To clean the electrodes, a lot of acid is required, and the electrolyzer must often be turned off from the work during cleaning.

Known electrolysis installation, consisting of a salt solvent, a measuring device, a pump, a tank of a working solution of sodium chloride and an electrolyzer additionally including a unit for softening the water used to prepare the saline solution. (Medrish G.L., Teisheva A.A., Basin D.L. “Disinfection of natural and waste water using electrolysis" M. Stroyizdat. 1982).

The disadvantage of this installation is that soluble calcium compounds are present in sodium chloride, and in softened water - various forms of carbonic acid compounds. During the electrolysis process, an alkaline environment is created around the cathodes of the electrolytic cell, carbonic acid compounds are converted to carbonates and precipitated with calcium, which got into the working solution with sodium chloride. Therefore, the intensity of precipitation at the cathodes of electrolyzers remains high.

The objective of the proposed model is to reduce the intensity of hardness salt deposits on the cathodes of electrolyzers in a more reliable way - by removing the carbonic acid compound used in the preparation of a working solution of sodium chloride from the water.

The problem is achieved in that the composition of the electrolysis installation, including a drainage salt solvent, measuring device, pump, ejector, a tank of working salt solution, the electrolyzer, the installation is equipped with a degasser.

In the degasser, a decrease in the concentration of carbonic acid compounds, primarily free carbon dioxide, occurs.

The essence of the utility model is illustrated by the drawing, where in FIG. presents a setup diagram for a solution of sodium hypochlorite.

The installation consists of: a degasser 1, a drainage salt solvent 2, a measuring device of a saturated salt solution 3, a pump 4, an ejector 5, a tank of a working salt solution 6 and an electrolyzer 7.

The source water is acidified to a value of Ph <4.5 and is sent to a degasser 1 to remove carbon dioxide. As a result of this, there is a decrease in the concentration of carbonic acid compounds contained in it, primarily free carbon dioxide. Part of the volume of degassed water is sent to salt solvent 2. There, a saturated salt solution is prepared and purified from mechanical impurities present in dry table salt. The purified saturated sodium chloride solution obtained in the drainage salt solvent 2 enters the meter 3. The main volume of water from the degasser 1 is pumped to the ejector 5 by the pump 4. The ejector 5 pumps out the saturated salt solution from the meter 3. The mixture of the degassed water and saturated salt solution forms a working solution salt, supplied to the tank 6, from where this solution is supplied, if necessary, to the electrolyzer 7. Since in the working solution of sodium chloride prepared using degassed water, there is practically no uet free carbon dioxide and bicarbonate ions, the alkaline environment near the cell cathodes 7 do not lead to the formation of carbonate ions and hence the formation of sludge in the form of calcium carbonate, thereby solving the problem.

Claims (1)

Installation for producing a solution of sodium hypochlorite, containing a drainage salt solvent, measuring device, pump, ejector, electrolyzer, a tank of working salt solution, characterized in that it is equipped with a water degasser used to prepare a working salt solution.

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