RU2004981C1 - Method of flotation of copper-bearing ores - Google Patents

Abstract

Usage: flotation concentration of ores of non-ferrous and rare metals. The essence of the invention: conditioning the pulp with sodium sulfide, collector and foaming, separation of the collective concentrate and the subsequent receipt of copper concentrate from it in the conditioning additionally enter sodium hydrogen sulphide and sodium bicarbonate in a ratio of sodium sulphide sodium hydrogen sulphide from 1: 1: 1 to 1: 3: 4, sodium sulfide, sodium hydrogen sulfide and sodium hydrogen carbonate in the form of sulfur-alkaline stocks can be added to conditioning

Description

The invention relates to the field of flotation concentration of ores of non-ferrous and rare metals and can be used in collective and selective flotation in processes where control reagents are used.

There is a known method of ore flotation using a collector, blowing agent and sodium sulfide as a flotation regulator.

For refractory mixed and oxidized ores, sodium sulphide is practically the only effective regulator. The known method has certain disadvantages.

Sodium sulfide is an expensive and very scarce reagent. In addition, in many cases, the sodium sulphide process does not achieve high ore concentration.

A known method of flotation of copper-containing ore using calcined soda and carboxymethyl cellulose as a flotation regulator.

In this method, the recovery of copper into the bulk concentrate does not exceed 74%, which is a very low ratio (s).

The closest to the proposed technical essence and the obtained results is a flotation method using sodium sulfide as a regulator.

Experimental verification showed that when using this method in many cases satisfactory recovery of copper into concentrate is not achieved by flotation of mixed and especially oxidized ores.

An object of the invention is to increase the recovery of copper in concentrate.

The essence of the method is as follows: crushed to 70% class - 0.074 mm copper-containing ore is subjected to conditioning for 2 minutes with a mixture of sodium sulfide, sodium hydrogen sulfide and sodium hydrogen carbonate in the form of sulfur-alkaline effluents in a ratio of sodium sulfide, sodium hydrogen sulfide, sodium hydrogen carbonate from 1: 1 : 1 to 1: 3: 4, then copper materials are floated in the presence of a collector and blowing agent.

The effectiveness of the use of these reagents individually and in various combinations is illustrated by the experimental results shown in the table.

Flotation experiments were carried out on the ore of the Kalmakyrsky deposit, containing 0.4-0.5% copper, 0.005% molybdenum, 2% sulfur. According to the scheme of the factory, the ore is ground in the presence of lime to a content of 70% class - 0.074 mm and collective flotation is carried out at pH 9.5-10.0 with sulfhydryl collectors (a mixture of butyl and isopropyl xanthogenates) at a flow rate of 20-25 g / t and a T-80 blowing agent to obtain a coarse collective concentrate that is sent to the recycle without the addition of reagents. The foam cleaning product is a collective concentrate whose chamber product, after flotation of molybdenum, is the final copper concentrate.

Example. A sample of the original ore (1 kg sample) is ground. Lime (kg / t) is fed to the mill; the pulp before flotation is conditioned for 2 min

sulfur-alkaline effluents (SSS) of one of the refineries containing sodium sulfide, sodium hydrogen sulfide and sodium bicarbonate in a ratio of Na2S: NaHS: NaHC03 from 1: 1: 1 to 1: 3: 4 in

the amount of 40 g / t (experiment 10). Then, butyl xanthate (20 g / t), T-80 blowing agent (20 g / t) are fed and flotation is carried out for 10 minutes.

PRI me R 2, the conditions of the experiment

similar to those described in example 1, conditioning was carried out with a mixture of SHS and sodium sulfide according to GOST 596-78 at a ratio of 1: 1 (experiment 17) at a flow rate of 40 g / t.

Example 3. The experimental conditions are similar to those described in Example 1; conditioning was carried out with sodium sulfide according to GOST 596-78 in an amount of 40 g / t (experiment 1).

As can be seen from the table, the use of the method using SHS with a ratio of Na2S: NaHS: NaHC030T 1: 1: 1 to 1: 3: 4 allows to increase copper recovery by 6.4% compared to the prototype (experiment 1),

and with a 1: 1 ratio of alkalinity and sodium sulfide, copper recovery is increased by 8.0%.

At the copper beneficiation plant of Almalyk MMC, industrial

tests confirming the positive results given in laboratory experiments.

(56) Handbook of ore dressing. M .: Subsoil. 1983, p. 21-23. 30-34, 39.

Guide to ore dressing. M .: Nedra, 1983, p. 54-56.

Ore beneficiation guide, Processing plants. M .: Nedra, 1984, p. 11-12.

92004981Y

Claims (1)

1. METHOD FOR FLOTATION OF COPPER-SODIUM AND HYDRO-SULFUR STORAGE ORES, including conditioning sodium bicarbonate from 1: 1: 1 to sodium sulfide pulp, j. 3.4 collector and whole foam and cotton, N 2 isolation. The nQ method characterized in that a collective concentrate and subsequent conditioning are introduced 1 Further preparation of copper concentrate HYDROGEN SODIUM one characterized in that, for the purpose of sodium hydrogen carbonate in the form of sulfur-chips, the extraction of copper into concentrate, 1Q BATTERY DRAINS during conditioning