SU791618A1 - Electrolyzer - Google Patents

Description

The invention relates to water purification devices, in particular, to the field of producing high-purity water for chemical, electronic and other industries. A known electrolyzer whose desalting chamber is filled with a mixed layer of ion exchange Impurity ions, for example, K Ca MD, HCO, CE, ZO / are sorbed by a mixed layer of ion exchange resins and under the action of an electric field are ligated into the electrode chambers through which the source distilled water is pumped. The disadvantage of this electrolyzer is the high resistance of the electrode chambers, and consequently, the energy consumption when using this electrolyzer is large. The closest to the described device by its technical essence and the achieved result is an electrolyzer, in which the electrodes are made of activated carbon of a hydrophobised platinum group of 1: 2 which is wound with a metal. A disadvantage of the known electrolyzer is that it does not exclude the process of contamination obtained water caused by the process of electrolyte diffusion from the electrode chambers into the treated water. The aim of the invention is to obtain high-purity water from distillate. This goal is achieved by filling the electrode chambers with ion exchange material. The drawing shows the cross section of the electrolyzer. The cell contains membranes 1 and 2; desalination chamber 3; electrodes 4 and 5, which form membranes 1 and 2 electrode chambers 6 and 7 with ion-exchange material 8. A desalination chamber is formed by a cation-exchange MK-40 and an anion-exchange MA-40 membranes, each 180x60 mm in size, installed at a distance of 30 mm. Electrode chambers and a desalting chamber are filled with a mixture of cation-exchange sm.yu KU-2-8 chs in H-form and anion-exchange resin AB-17-8 chs in OH-cT) form / taken in a 1: 1.5 ratio (standard ratio used in industry) in wet volume. Whip

Water resistance is measured using the PS-1 device.

The operation of the apparatus is carried out as follows. The initial distilled water is parallel to the flow fed to the desalting chamber 3 and the successively connected electrode chambers 7 and 6. When the system is polarized with electrodes and 5 impurity ions migrate into the electrolyte 3 pumped through the electrode chambers, high-purity water is obtained at the outlet of the desalting chamber Bg .

With a machine capacity of 60 l / h, water flow through the electrode chambers of about 5 l / h and a voltage of a constant and alternating electric field of 10 V, high-purity water with a resistivity of 16 m is obtained at the outlet of the desalination chamber. At a current density of 0/18 A / dm, the energy consumption of the process is 0.03.

The introduction of ion exchange material into the electrode chambers according to the proposed solution allows, when using distilled water as an electrolyte by reducing the electrical resistance of the electrode chambers, to significantly reduce the energy consumption of the process, as well as to eliminate the diffusion of the electrolyte into the water being cleaned.

Claims (2)

1. Grebenyuk V.D. and Gnusin N.P. Installation for obtaining high-purity water with automatic regeneration of ion exchangers. Factory laboratory, 32.10.1966, p. 1290. 2. USSR Author's Certificate for Application No. 2628507, c. В 01 D 13/02, 06.19.78. -f -