DE1948300B2 - Copper electrolysis anode slime decomposi - tion - Google Patents

Abstract

Anode slime decomposition by treatment with H2SO4 in presence of O2 or O2-containing gases takes place in an autoclave at total pressure >=5 atm. at temps. above the b.pt. of the solution in the autoclave, pref. 150 degrees C, esp. 120 degrees C. Cu and Ni pass into solution, while Se, Te and precious metals remain in the residue.

Description

The invention relates to a method for digesting anode sludge from copper electrolysis by treatment with sulfuric acid at elevated temperature in the presence of oxygen or oxygen-containing gas, especially air.

The processing of such anode sludge is due to the copper, nickel, Precious metal, selenium and the like are interesting. From other intermediate metallurgical products The anode sludge differs in the different structure of the in it contained metal compounds so that an easy transfer of the for others Hip intermediate products known digestion methods on the processing of these anode slurries led to lengthy and rarely satisfactory procedures.

It is known among other things, AenodenSlanun from the copper electrolysis to be digested with sulfuric acid and air under normal pressure at temperatures of around 900. This process is very tedious.

In addition, significant amounts of copper and nickel remain undissolved in the Residue. So there will be no complete disclosure of the various insoluble ones Copper and nickel compounds achieved.

It has now been found that the disadvantages mentioned are avoided can, according to the invention, the digestion in the autoclave at a total pressure of at least 5 atmospheres and at temperatures above the boiling point of the Carries out the solution in the autoclave.

It is advisable not to use temperatures of 150 ° C. if possible exceed. It has proven to be particularly advantageous at temperatures from about 120 ° C to work. In this way of working, both copper and can also be brought into solution by the nickel of the first run up to 99 01o. Arsenic, selenium, Tellurium and the precious metals remain in the solid residue. A major advantage of the procedure is, however, that the digestion time is reduced to a fraction of what was previously required Time can be reduced.

In addition to the advantages already mentioned, the method is the Invention still significant that selenium, tellurium and precious metals are not dissolved and consequently remain in the residue. It also becomes sulphidic and selenidic Bound copper and nickel are unlocked, resulting in better copper removal and nickel removal lead to simplification and cheaper processing of the products obtained. Finally - there are signs of corrosion significantly reduced on the apparatus.

The method of the invention is illustrated by the following examples described in more detail.

Example 1 1.5 1 anode sludge from copper electrolysis with a Content of 6.5 01o copper and 1.2 01o nickel calculated from the dry matter and with a total weight of 2.6 kg were made up to volume with sulfuric acid and water brought by 41. This resulted in an acid concentration of 450 g of sulfuric acid set per liter.

The anode sludge prepared in this way was kept in the autoclave for 2 hours Treated 1300 C with constant stirring. During this time, was added maintain a total pressure of 5 atmospheres of oxygen. The anode sludge treated in this way was filtered and washed.

This resulted in 41 copper-nickel lye with 35 g of copper and 7.1 grams of nickel. The remaining 1050 g of dry alkali residue contained 0.4 0 / o copper and 0.1% nickel. There were thus more than 9701o copper and more than 97 0 / o nickel detached from the forerun.

Example 2 Anode sludge from copper electrolysis with 42.9 01o copper and 0.161 ° nickel calculated on dry matter were treated in the same way like the anode sludge according to Example 1. 990% copper and 99% nickel each went from the forerun in solution.

Claims (3)

Patent claims: 1. Process for digesting anode sludge from copper electrolysis by treating with sulfuric acid at an elevated temperature in the presence of oxygen or oxygen-containing gases, e.g. B. Air, d a du r c h g ek e n nz e i c h n e t that the digestion in the autoclave at a total pressure of at least 5 atmospheres and at temperatures above the boiling point of the solution in the autoclave is carried out. 2. The method according to claim 1, characterized in that at temperatures below 150 "C is worked. 3. The method according to claim or 2, characterized in that at Temperatures of about 120 "C is used.