SU1562325A1 - Method of softening natural water - Google Patents

Abstract

This invention relates to technical electrochemistry and can be used in water treatment processes. The aim of the invention is to reduce energy consumption and increase the degree of water softening. The goal is achieved by the fact that in addition to the known method of water softening by processing in a diaphragm electrolyzer, including feeding the softened water into the cathode and anode spaces of the electrolyzer, separating the catholyte and anolyte separately, cleaning the catholyte from poorly soluble compounds and mixing both streams using a porous or perforated cathode, and softened water is fed along it, while a part of the purified catholyte is saturated with oxygen formed in the anode chamber, and filtered cut cathode. 1 il.

Description

This invention relates to technical electrochemistry and can be used in the field of water treatment.

The aim of the invention is to reduce energy consumption and increase the degree of water softening,

The drawing shows a schematic diagram of an installation for carrying out a method for softening natural water.

The installation contains a diaphragm electrolyzer 1, consisting of anodic 2 and cathode 3 chambers with an anode 4 and a perforated cathode 5, respectively, a sunset camera 6, a separator tank 7, a mechanical filter 8 and an ejector 9.

Example. Tap water is subjected to electrochemical reduction in a diaphragm electrolyzer

with a pH of 7.5 and a total hardness of 6.8 mEq / L. 80% of the water is passed through the cathode chamber of the electrolyzer along the cathode, the rest of the water through the anode chamber. In this case, the stiffness of both flows decreases as a result of the migration of calcium and magnesium ions through the diaphragm from the anode chamber and the formation of insoluble calcium and magnesium compounds in the cathode chamber.

The anolyte with oxygen formed at the anode is fed to a separator where oxygen is separated from the anolyte. The catholyte with precipitate hardness salts precipitated in it is filtered, then mixed with the anolyte. 20% of the purified catholyte is separated from the main flow and fed to the sunset one | the camera. Oxygen using ejector

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fed to the catholyte stream and dissolved therein.

The oxygenated catholyte is fed to the upwind chamber, from where it is filtered through the cathode into the cathode chamber. At the same time, the purified catholyte pushes away hard water with a sediment-forming suspension from the cathode, which allows it to maintain stable indices for a long time.

The anode is platinized titanium, the cathode is a package of stainless steel grids, and the diaphragm is Beltit fabric.

The results of the comparative methods of the proposed method and the known are presented in the table,

Claims (1)

Invention Formula The method of clearing natural water by treating in a diaphragm electrolyzer, including feeding the softened water into the cathode and anode spaces of the electrolyzer, separating the catholyte and anolyte separately, cleaning the catholyte from poorly soluble compounds, in order to increase the degree of water softening, using a porous or perforated cathode, the water to be softened flows along it, and a part of the purified catholyte is saturated with oxygen formed in the anode chamber and filtered through the cathode. 9.5 10.2 10.8 11.3 15 35 65 80 30 58 77 85 Water