SU914088A1 - Collector for flotation separation of collective polymetallic concentrates - Google Patents

Description

The invention relates to the enrichment of ores and can be used in the flotation of sulfide ores.

It is known to use as collectors of butyl and isopropyl xanthates, alcohol aeroflots, or their combinations (11.

This is due to the insufficient range of collectors produced by industry. Expanding the range of flotation agents is one of the main conditions for improving flotation technology and increasing the recovery of metals.

Polymetallic ores are mainly processed according to the collective-selective enrichment scheme.

The use of xanthates of various structures in the collective-selective flotation cycle of sulfide ores, for example, butyl xanthate, is known [2].

The disadvantage of using butyl xanthate in the cycle of selection is not sufficiently complete extraction of the mineral being floated in conditions of severe depression of other

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sulphide minerals present in collective concentrate.

Known xanthate the following structure: _x

СНР ₂ - СР ₂ -О- с '<

1,1,2,2 - potassium tetrafluoroethylxanthate [3], not used in flotation before.

The purpose of the invention is to increase the efficiency of the separation of collective concentrates and expanding the range of used collectors.

This goal is achieved through the use in the cycle of selection of collective concentrates 1,1,2,2-tetrafluoroethylxanthate potassium.

Example. The reagent was tested under laboratory conditions, in particular when separating the collective lead-copper concentrate obtained from a polymetallic ore sample.

Terms of experiments. Bulk concentrate was obtained under standard conditions. Desorption collector (butyl xanthate) with

3 914088

the surface of the bulk concentrate was carried out with sodium sulphide 100 g / g and activated carbon 100 g / t. Stirring lasted 3 min. Then the collective concentrate was treated with depressants using the zinc-cyanide method. The total consumption of zinc vitriol is 845 g / t, sodium cyanide 750 g / t. The time of agitation was 3 minutes 40 s. The proposed collector was fed after mixing the pulp with depressors. Then a foaming agent was introduced into the process in the amount of 2 g / t. The time of the first lead flotation 6 min, the second -

6 min, control lead flotation 16 min. Foamy product is rough lead concentrate, chamber product - copper concentrate. The grinding of the rough lead concentrate and its cleaning was not carried out.

From the analysis of the comparison result of the known (butyl xanthate) with the proposed collector, it is clear that the latter has collective properties in relation to galena. The increase in lead extraction from 77.48% to 88.10% in lead concentrate is due to a decrease in its content in copper concentrate from 2.68% to 1.4%. The selectivity of the process is increased by 11% at an optimal flow rate of the proposed collector of 12 g / t.

A comparison of the effectiveness of the proposed collector with butyl

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Xanthogenagom, as the best xanthate used in industry, shows that the proposed collector works more effectively in the cycle of separation of collective concentrates than butyl xanthate.

With the consumption of collectors of 12 g / t lead extraction in the cycle of selection increased by 7.37%, and copper by 1.67%, the selectivity of the process increased by 9.04%.

Thus, the results obtained indicate that the proposed reagent on the selectivity of action is superior to the butyl xanthate used in industry.

The reagent is a technical product and can be obtained in an industrial environment.

Claims (1)

Claim The use of 1,1,2,2-tetrafluoroethylxanthate potassium as a collector for the flotation separation of collective polymetallic concentrates.