RU2003716C1 - Method for electrochemical cleaning of chromium-containing solutions and sewage from ions of hexavalent chromium - Google Patents

Abstract

Using electrochemical purification of solutions from hexavalent chromium ions by restoring them on a flow-through volume-porous cathode in electrolysis with a cathodic and anode spaces separated by a porous septum. Before the restoration, a mesh of electrically conductive corrosion-resistant material is placed close to the septum and the anode potential is applied to it 1 silt

Description

The invention relates to electrochemistry, in particular to methods for purifying chromium-containing solutions and wastewater from toxic hexavalent chromium ions.

The known method, in which the purification of chromium-containing solutions from ions of free valence chromium is carried out by restoring them on a flowing volume-porous cathode in an electrolyzer with a cathode and anode spaces separated by a partition 1,

The disadvantage of this method is the partial migration of trivalent chromium ions from the cathode to the anode space and their repeated oxidation at the anode to hexavalent chromium. This does not completely clear the solution of hexavalent chromium ions.

The present invention is based on the objective of preventing the migration of trivalent chromium ions into the anode space and their reoxidation at the anode.

For this, in the method of electrochemical purification of chromium-containing solutions and wastewater from hexavalent chromium ions by restoring them on a flowing volume-porous cathode in an electrolyzer with a cathode and anode spaces separated by a porous partition, a grid of electrically conductive corrosion is installed close to the partition from the anode space before the process begins. -resistant material and serves on it anode potential.

Example. The proposed method of electrochemical cleaning is implemented in an electrolyzer, which includes a housing 1, a flow-through volume-porous cathode 2, a cathode chamber 3, a current lead 4, an insoluble anode 5. The cell body 1 is divided by a porous partition 6 into a cathode 7 and anode 8 space, the cathode 2 is fixed in the cathode chamber 3 by means of a clamp 9. A window 10 is provided in the housing for draining the electrolyte.

1 liter of the solution to be purified from hexavalent chromium ions with a chromium concentration of 1 g / l is poured into the electrolyzer. Before the start of the electrolysis process, a grid 11 of an electrically conductive corrosion-resistant material, for example platinum titanium, is installed close to the partition 6 from the side of the anode space 8.

An anode potential of +0.45 V relative to a saturated hydrogen electrode (N.V.E.) is supplied to the grid 11 through a resistor 12. A direct current with a cathode density of 1.05 A / dm2 is turned on, and the electrolysis process is carried out with continuous circulation of the solution through the electrolyzer at a rate of 1-2 l / min for 65 minutes.

The purified solution is drained through window 10 and a chemical analysis is performed.

As shown by the results of chemical analysis, in the solution purified by the proposed method, hexavalent chromium ions are absent.

This allows us to conclude that the use of the method prevents the migration of trivalent chromium ions from the cathode to the anode space of the electrolyzer and their oxidation to toxic hexavapent chromium ions.

(56) Electroplating. Handbook Ed. A.M. Ginbergs, Moscow: Metallurgists, 1987, p. 694.

Claims (1)

The claims METHOD OF BELECTROCHEMICAL PURIFICATIONS OF CHROMO-CONTAINING SOLUTIONS AND WASTE WATER FROM IONS OF HEXVALENT CHROME by their reduction on a flowing volume-porous cathode and an electrolyzer with separated porous septum cathode and anode spaces, characterized in that that before the start of the process, a grid of electrically conductive corrosion-resistant material is installed close to the partition from the side of the anode space and the anode potential is fed to it. f if rf  4L - /