DE2251442B2 - Process for the electrolytic detoxification of cyanide - Google Patents

Description

The invention relates to a method for Electrolytic detoxification of cyanide in the continuous or standing process, using anodes made of steel and copper salts are added to the electrolyte.

From the book "The wastewater in the metal industry", by Dr. R. Weiner, 1965, pages 178/179, it is known that in more concentrated cyanide solutions the destruction of the cyanide by electrolysis can take place, this destruction occurring through oxidation on insoluble anodes. Simultaneously Heavy metals present in the solution, e.g. B. copper, are in metallic form at the cathode deposited. Steel sheets are used as insoluble anodes. These sheet steel anodes However, they are only stable in solutions that do not contain any dissolving anions, such as chloride or sulfate, in contained in larger quantities.

According to a proposal not belonging to the prior art, a method for Electrolytic decontamination of cyanide replaced sheet steel anodes with VA steel anodes. Even though VA steel is a highly resistant material from a chemical point of view, the anodes were nonetheless made of VA steel destroyed in a relatively short time. The destruction of the anodes is also on it due to the fact that the cyanide solution to be detoxified contained dissolving anions, probably chloride, in large quantities.

The invention is therefore based on the object of developing a method according to the preamble of claim 1 so that the presence of dissolving anions in the cyanide solution to be detoxified does not have a disadvantageous or destructive effect on the anodes. To solve this problem it is proposed in a method according to the preamble of claim 1 that VA steel is used as the anode material and that copper salts are added to ^{the electrolyte in amounts of 50-150 mg Cu 2+ / 1.}

With this method, the VA anodes show no weight loss whatsoever, even over long periods of time not away, d. that is, by the inventiveness The oxidative attack on the anode is prevented according to some methods, and the anode is thus unlimited durable. By adding copper / -> salts A passivation of the anode is effected for the electroylte, d. i.e. a behavior is formed on the anode - A thin layer of fine-powdered copper. However, this powdery coating forms on the anode no insoluble, non-conductive barrier layer, but only prevents oxidation of the anode. The secluded, Fine-powdered copper goes back into solution -> solution and is deposited again.

The process according to the invention can be carried out with a current yield that is customary in electrolytic oxidation from 65% to a residual content of 0.5 g / l CN "can be carried out. A che-SK Mix in residual detoxification.

The method according to the invention is particularly advantageous when the electrolyte contains 100 mg Cu ²⁺ / 1.

In one embodiment, 22.5 l of an i ". Solution with 10 g / l CN" were detoxified in the standing process to a residual content of 180 mg / l CN ". 393 mg copper sulphate / l solution to be detoxified were added, resulting in a concentration of about 100 mg / 1 Cu ²⁺ . The total amount of oxidized ■ ti · cyanide was 221 g.

Electrolysis data: Cell voltage: 2.3V Amperage: H) O A Electrolysis time: 6 hours 40 min.

¹ 'electrode gap: 27 mm

This results in a power requirement of 6.8 kW for the detoxification of 1 kg of cyanide.

Claims (2)

Patent claims: 1. A process for the electrolytic detoxification of cyanide in a continuous or standing process, using anodes made of steel and adding copper salts to the electrolyte, characterized in that stainless steel is used as the anode material and the electrolyte is copper salts in amounts of 5 () - 150 mg Cu ² Vl are added. 2. The method according to claim 1, characterized in that the electrolyte 100 mg Cu ²⁺ /! can be added.