SU905203A1 - Method for treating effluents containing hexavalent chromium - Google Patents

Description

(5) METHOD FOR PROCESSING SEWAGE WATER CONTAINING SIXIVALENT CHROME

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The invention relates to the field of sewage treatment, containing six-, equivalent chromium.

Reagent methods are known for treating wastewater containing hexavalent hydrogly, for example, sodium sulfite or sodium bisulfite, iron sulfate.

The disadvantage of these methods is a significant increase in salt content in the wastewater after treatment, as well as the deficiency of the reagents used.

A known method of treating wastewater containing hexavalent chromium consists in the electrochemical reduction of Cr to the presence of sulfuric acid using an insoluble graphite anode and a lead or graphite cathode separated by a semipermeable partition.

Bruce) (The sulfuric acid in the treated wastewater should be 0.5 N, and to prevent the anodic oxidation reaction of Crto, the wastewater is added; a few grams per liter of sodium chloride.

The disadvantages of this method are the increased mineralization of wastewater after treatment, the destructive effect of chloride medium on graphite electrodes, and the anodic discharge.

10 chlorine gas, a significant specific energy consumption (S 6 kW / h for the restoration of 1 kg C.).

IS

. The closest to the proposed method is the treatment of waste water containing hexavalent chromium, which consists in the electrochemical cathodic reduction of C g

BEFORE

until the presence of sulfuric acid in the amount of 2-15 g / l and using porous electrodes made of graphite or activated carbon 123.

The treatment process is carried out while maintaining the cathode potential at a value insufficient for hydrogen reduction, and with forced filtration of wastewater through the body of the porous cathode in the direction from the anode to the cathode, which allows the developed current system to increase the total current without increasing polarization of the electrodes, those. to intensify the recovery process. This method provides a sharp decrease in the amount of reagents used and sninneniyu specific energy consumption to 2.6-3.2 kW | 100% recovery of 1 kg of H-ryvalent chromium. The disadvantage of this method is that the recovery of Cr to Cr is possible only with minimal contact of wastewater with the body of a porous cathode, which corresponds to a hydraulic load of 0.7–1.0 wastewater per 1 M of the body of the porous-cathode. The purpose of the invention is to accelerate the recovery process of Cr to and increase the hydraulic load on the electrolyzer while maintaining the specific cost of electricity. This goal is achieved by the fact that the process of cathodic electrochemical reduction of hexavalent chromium to trivalent in the presence of 2-15 g / l of sulfuric acid during forced filtration of treated wastewater through a porous cathode of graphite or activated carbon in

the direction from the anode to the cathode is conducted in a constant uniform magnetic field of strength 250-370 Oe, oriented perpendicular to the flow direction of the treated wastewater.

The drawing shows a diagram of an electrolyzer for carrying out the method.

Experimental studies were carried out on a laboratory cylindrical electrolyzer with a useful volume of 577 cm with three perforated concentric partitions forming the central cylindrical cathode space 1 with a volume of 47 cm and a ring-shaped, covering the cathode, anode space 2 with a volume of 158 cm with an electrode distance of 3 mm. The cathode and anode spaces are filled with crushed graphite or LG-3 activated carbon. A constant uniform magnetic field is created by means of a solenoid 3 fed from a network through a transformer and rectifier. The method is carried out as follows. The wastewater is supplied to the space k between the cell body and the anode. Under hydrostatic pressure, waste water flows through the anode body and then through the cathode body in the direction perpendicular to the direction of the intensity vector of the magnetic field created by the solenoid. The discharge of wastewater occurs from the bottom of the cathode through the pipe 5- The data obtained are presented in p table

Without magnetic traces 0,0,32 fields With the imposition of a magnetic field strength, E 196 Traces 0.02 Traces 0.09 0.1 / 4 0.21 0.37 Traces0.050.20 Tracks0.0 / 40.19 0,020,080,28 Traces 0,01 0,030,070,35

Claims (1)

Claim. A method of treating wastewater containing hexavalent chromium by electrochemical reduction to trivalent in the presence of ΣΙ 5 g / l sulfuric acid by forced filtration of the treated water through a porous cathode made of graphite or activated carbon in the direction from the anode to the cathode, characterized in that, In order to reduce energy consumption and speed up the process, the treatment is carried out in a constant uniform magnetic field with a strength of 250-370 Oe, oriented npependicular to the direction of flow of the treated wastewater.