DE238608C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVr 238608 CLASS 40 c. GROUP

ores existing with arsenic.

Patented in the German Empire on December 30, 1909.

The invention relates to a method for processing ores which consist largely of compounds of silver, nickel and cobalt with arsenic, such as this is particularly the case with the so-called Canadian ores.

Such ores usually have the following composition: Silver 1.029 to 34.3 percent, nickel and cobalt 10 bis. 30 percent, arsenic 5 to 40 percent, lead absent.

The raw ore is calculated without any prior preparation, such as roasting, etc. Amount of copper and the usual additives melted down in a flame furnace. It is important to ensure that the amounts of added copper are combined with the main metals contained in the ore the percentage of copper must be two-thirds of that Percentages of nickel and cobalt, but at the same time the percentages of silver and above all to be at least equal to that of arsenic.

The copper surcharge prevents arsenic vapors from escaping during melting of the ore is very limited and in this way also greater silver losses, which experience has shown at the same time associated with the escape of arsenic vapors, prevented.

The result of the melting process is:

a) an alloy which, apart from copper, contains all silver, nickel, cobalt and the contains most of the arsenic. This is used for electrolytic processing tapped into suitable anode molds by the furnace;

b) a slag which contains only small amounts of silver, as well as traces of nickel and cobaite contains.

The separation of the individual metals contained in the alloy takes place, as mentioned, by electrolysis. The alloy is used, as is customary for such refining, as an anode.

An aqueous solution of copper sulphate mixed with sulfuric acid is used as the electrolyte for use, which during the entire operating time to at least 10 g Copper and 5 g of free sulfuric acid per liter must be kept. Serve as cathodes thin sheets of pure copper.

The electric current depends on the composition of the anodes and the electrolyte to regulate.

The temperature is best to keep above 60 ° C. and depends on the Arsenic content of the anodes, d. H. a higher percentage of arsenic causes a higher percentage Temperature to keep this metal in solution in the electrolyte. The result of this electrolytic process is as follows:

1. All silver in the anode becomes quantitative

deposited in the form of sludge.

2. All of the nickel and cobalt in the anode will go into solution.

3. Most of the arsenic goes with you

the nickel and cobalt in solution, while only a small part of them dissolves with the Silver precipitates in the mud. Gases, especially arsine, occur in the baths do not take place.

4. The copper of the anode is deposited on the cathode in the form of electrolytic copper.

The recovery or further processing

to the individual products of electrolysis takes place in the following way:

The sludge, which is rich or poor depending on the silver content of the anodes, contains under in all circumstances all the silver contained in the anode, as neither on the cathode traces of silver can still be detected in the electrolyte. The small amounts of arsenic that coexist with the silver in Going through the mud can easily be done with no silver loss through light roasting or remove by solvent. From an ore with originally 2.058 percent silver, 19 Percent arsenic and 17.5 percent nickel cobalt were slurries of 41.16 percent silver obtained, while another ore originally containing 12 percent silver was the The silver content of the sludge was 84.03 percent silver. These silver-rich sludges can can be processed into fine silver by means of the forcing process without difficulty.

The electrolyte, which, besides all nickel and cobalt, contains the bulk of Contains arsenic, can be brought up to the following concentration: silver no traces, Copper 10 g per liter, nickel and cobalt 55 g per liter, arsenic 30 g per liter.

From this solution, the copper can be transported through the electric current using a Carbon anode are almost completely excreted. The rest of the copper becomes beneficial felled in the cold with hydrogen sulfide. This copper product is used again as aggregate when the raw ore is melted used.

The arsenic is then precipitated in the warmth with hydrogen sulphide as arsenic sulfur.

Nickel and cobalt can be obtained by any of the known methods, either by the electric current or other precipitants together or separately from the solvent solution can be obtained.

The copper that is deposited on the cathode is very pure. The copper provisions yielded 99.95 to 99.98 percent copper. This shows that most of the copper used as aggregate is recovered as a commercial product.

The main advantages of the procedure are as follows:

1. Its great simplicity, which is natural requires a low operating cost.

2. The great rapidity with which the individual principal metals, especially silver applied with almost complete avoidance of the formation of intermediate products will.

3. The rendering of the arsenic gases harmless, brought about with great certainty the processing of arsenic-containing material tend to occur easily.

Claims (1)

Patent claim: Process for processing lead-free, from compounds of silver, nickel, Cobalt with arsenic existing ores, characterized in that the ore with the addition of a calculated amount of Copper is melted down and the melted product is subjected to electrolytic refining in a manner known per se will.