DE574266C - Process for the swimming pool treatment of carbonate and oxidized ores and minerals - Google Patents

Description

For the swimming pool treatment of carbonate and oxidized sulfidic ores and minerals a number of processes are known in which either the metal carbonates or metal oxides on the surface by adding sulfidizing agents, such as colloidal Sulfur, water-soluble sulfides, mercaptans or other organic sulfur compounds, sulphided and made to float in this way as an artificial sulphide or by using Alkali salts of the higher fatty acids can be made buoyant. Also the use of agents that contain phosphorus, sulfur and carbon at the same time are known, especially for sulfidic minerals. The disadvantage often arises when practicing these procedures in practice one that the to the revitalization of the buoyancy of the metal carbonates or oxidized Metal sulfides added agents at the same time an invigorating influence on the non-metal-containing Exercise gait minerals. This has the consequence that when the metal canonate floats up and metal sulfides oxidized a significant portion of the gangue minerals affected with floats and depresses the concentration of the metals to be separated, so that only insufficiently enriched, through Foam concentrate contaminated with gangue minerals «can be obtained.

It has now been found that contain bound by using agents, the phosphorus, sulfur and nitrogen in the absence of carbon in the same molecule, -35 as an additive to the ore pulp in the flotation of carbonate and ox) ^r-founded ores and minerals which Mitaufaufschwimmen the gangue inhibited and the metal enrichment in the foam concentrates can be increased. The effect seems to be based on a preferential surface influence of the metal carbonates or oxidized metal sulfides through the simultaneous binding of the elements phosphorus, nitrogen and sulfur in the molecule of the carbon-free additive. Means of this type are z. B. in the ammonium salts of thiophosphoric acids or complex amides of thiophosphoric acids. Some of the substances are easily soluble, some are sparingly soluble in water. The chemical formulas of bodies that fall under the group of the named agents are listed below: (NH ₄ ) ₂ PS ₂ O ₂ , (NH ₄ ) ₃ PSO ₃ , (NH ₄ ), PS ₃ , (NH ₄ ) ₄ P ₂ S ₆ , (NHJ ₄ P ₂ S ₇ as well as PS (NH ₂ ) (OH) ₂ , PS (NH ₂ ) ₂ OH, PS (NH ₂ ) _3. Also 'the complex ones

*) The patent seeker stated as the inventor:

Dr. W. Schäfer in Bochum .. .-.

Amides of thiophosphoric acids with a higher sulfur and nitrogen content show those described Properties.

The application of the means takes place in a known manner by applying the same in solid or dissolved states or as an oil or as a suspension in an organic solvent be added to the ore slurry to be noted. In some cases it is advantageous to carry out the addition already during the fine grinding of the ores and minerals or immediately afterwards. The ones needed in the swimming procedure Depending on the nature of the material to be processed, quantities are between 100 up to 1000 gr per t of feed material.

The agents can be used alone or in conjunction with other known flotation agents can be applied.

To explain the effect of phosphorus nitrogen and sulfur-containing agents in the Flotation of carbonate or oxidized sulfidic ores are as follows Examples given:

i. In a flotation plant that is currently in operation, which processes a complex lead-zinc ore in Dalomitic gangue and in which the lead is present in an oxide bond of about 25%, up to now, water glass, potassium xanthate as reagents and pine oil and wood tar oil have been used A lead concentrate with So to 55% Pb obtained as a floating agent with a lead output of 64 to 67 ⁰ J ₀ . After the introduction of 40 to 50 g per 1000 kg of raw ore Ammoniumtrithiophosphat as additives for the enrichment of ore pulp was in the lead concentrate to more than 60% of Pb and the Bleiausbringen at 73-74 / ₀ Pb increased °.

2. A flotation plant processes a carbonate lead ore with a quartz gangue, in which as a binder a relatively high percentage of clayey components occurs. The reagents previously used in the flotation plant were sodium sulphide as a sulphidizing agent, Potassium xanthate as a collector and pine oil and coal tar oil as a floating agent. Under Use of these additives were made from a raw ore in the flotation plant about 3% Pb produces:

a lead concentrate with about 50 ° / ₀ Pb, Berge - about 0.6 ° / o Pb

After addition to the aforementioned additives nor about 100 g Ammoniumdithiophosphat were added, the metal content of the separated lead concentrates increased to 55 to 6o ° / ₀ Pb, while the metal content of not Departures 4 ° / was more than o, ₀ Pb. Hence, both an increase in the enrichment and in the Pb output has been achieved by the addition of the agent containing P, S, N in the molecule.

Except for the examples given, in which mainly carbonate and oxidized sulphidic lead ores were floated, the addition of phosphorus-sulphurous nitrogen-containing Also used in the swimming pool treatment of carbonate and oxidized copper minerals and others carbonate ore types in the achievement of an increased metal enrichment in the flotation concentrate and a higher metal yield.

Claims (1)

Claim: Process for the processing of carbonate and oxidized ores and Minerals, characterized by the use of carbon-free additives, which simultaneously contain phosphorus, nitrogen and sulfur bound in the molecule, on its own or in conjunction with other known swimming equipment. BERUN. PRINTED IN THE