SU912664A1 - Apparatus for purifying chromium bearing effluents - Google Patents

Description

(54) INSTALLATION FOR CLEANING CHROME-CONTAINING WASTEWATER

This invention relates to wastewater treatment, in particular to the treatment of chromium-containing wastewater.

A known installation for treating chromium-containing wastewater, comprising a series-connected electrocoagulator, a flotation cell and a filter, a diaphragm electrolyzer, the cathode chamber of which is connected to the flotation cell. In the known installation, the diaphragm electrolyzer is located after the filter and its cathode chamber is connected to the flotation cell llj.

A disadvantage of the known installation is the low degree of purification of water from hexavalent chromium.

The purpose of the invention is to increase the degree of purification of water from hexavalent chromium.

This goal is achieved by the fact that according to a chromium-containing wastewater treatment plant containing sequentially connected electrocoagulator, flotation cell and filter, a diaphragm electrolyzer, the cathode chamber of which is connected to the flotation cell, a diaphragm electrolyzer is installed in front of the electrocoagulator and the anode chamber of the electrolyzer is connected to an electrocoagulator

The drawing shows the scheme of the proposed installation.

The installation includes a source water pipeline 1, equipped with valves 2 for controlling the flow of water supplied to the anode 3 and cathode k chambers of the diaphragm electrolyzer 5. The anode chamber 3 of the electrolyzer is connected in series

15 are connected electrocoagulant 6, a flotation cell 7 and a filter 8. The cathode chamber k of the electrolyzer 5 is connected to the flotation cell 7 by means of a pipe 9.

The installation works as follows.

The original chromium-containing water through conduit 1 is supplied to the anodic 3 and cathodic k chambers of the diaphragmatic

cell 5. The flow rate of the water supplied to the electrode chambers is controlled by; valves 2. In the cathode chamber k, water is electrochemically alkalinized to a pH of 11.2-11.6. At the same time, water is laid in the anode chamber. It reaches a pH of 2.83, 2, after which the acid anolyte is sent to electrocoagulator 6. In an electrocoagulator, chromium (VI) is reduced to chromium (III) by ions of iron (II) formed ionization of iron anodes. The passivation of the iron anodes in the electrocoagulator is difficult because it processes the water having an acidic reaction. This ensures complete recovery of chromium (VI). After the electrocoagulant, the anolyte is sent to the flotation cell 7 "where the alkaline catholyte discharged from the chamber. As a result of the mixing of the anolyte and catholyte, chromium (VI), which is in catholyte, is reduced, and the pH of the water rises to form sparingly soluble chromium and iron hydroxides. The separation of the solid and liquid phases is carried out in a floater 7 and a filter 8. Example. The chrome-containing waste waters of the electroplating workshop are cleaned at the known and proposed installations. Processing parameters: water consumption 86 l / h, current density on electrodes of the A / dm electrocooler and electrolyzer, consumption of electricity in the electrocoagulator of 1420 Cl per 1 mg of chromium (VI), consumption of electricity for anolyte acidification in the diaphragm electrolyzer Cl / l voltage on the electrocoagulator 12V, in the electrolyzer 18 V, flotation time 30 min, filtration rate 2 m / h, cost ratio of anolyte and catholyte 0.22: 0.78. As a material

the diaphragms of the electrolyzer use chlorinated cloth, the loading material of the filter is expanded polystyrene. Data on the concentration of chromium (VI) in mg / l in purified water are given in the table.

Thus, as shown by the obtained data, the proposed installation allows an increase in the degree of purification from hexavalent chromium by 2-6 times.

Claims (1)

Invention Formula A chromium-containing wastewater treatment plant containing a series-connected electrocoagulator, a flotation cell and a filter, a diaphragm electrolyzer, the cathode chamber of which is connected to a flotation cell, characterized in that, in order to increase the degree of water purification from hexavalent chromium, the diaphragm electrolyzer is installed in front of the electrocoagulant and The anodic chamber of the electrolyzer is connected to an electrocoagulant. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2689772, cl. C 02 F, 11/28/78 (prototype). G in