RU2379116C1 - Method of flotation of sulphide ores of non-ferrous metals - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: method includes grinding, conditioning, collective copper-lead flotation in alkalescent medium with known reagents. In coolective copper-lead flotation in the capacity of collector it is used collector with technical name "Beraflot", corresponding to composition of dithiophosphates, thyon urethanes, aliphatic alcohols C₁-C₄, mixture of terpene alcohols and hydrocarbons, mixture of butyl ethers of propylene glycol, stillage bottoms from manufacturing of butyl alcohols, 2-ethylhexanol, 2-ethylhexanol axid, ethylene-propylene and ethylbenzene, with following activation of sphalerite in high-alkali medium and flotation of zinc by collector "Beraflot" from tails of collective flotation and receiving of final tailings by chamber product.

EFFECT: development of method.

2 cl, 1 tbl, 1 ex

Description

The invention relates to the field of flotation concentration of pyrite ores with an industrial content of valuable components such as copper, lead, zinc and noble metals.

Known ore dressing methods in which polymetallic ore is ground in a soda medium, classified according to a specific size class, the ground pulp is conditioned with modifying agents, a collector and a foaming agent, collective copper-lead flotation is carried out, then sphalerite is activated and zinc flotation is carried out with a collector and blowing agent. / Mitrofanov S.I. Selective flotation. - M.: Publishing. Nedra, 1967, 334 pp. / However, it is known from the practice of flotation that the use of sulfhydryl collectors of the xanthate group does not provide sufficient selectivity for pyrite, which contributes to an increase in the flotation of pyrite and a decrease in the quality of non-ferrous metal concentrates. This is due to the low solubility product of the formed xanthates of heavy metals and the sufficiently high oxidation of xanthates, leading to the formation of disulfides. The presence on the surface of pyrite of two forms of sorption of xanthogenate (xanthate ions and dixanthogenide) provides high flotability of pyrite in all flotation cycles. A known method of suppressing pyrite - a high alkaline environment created by milk of lime, is not acceptable for collective copper-lead flotation. / Mitrofanov S.I. Selective flotation. - M.: Publishing. Nedra, 1967, 334 pp. /

The use of isopropyl or isobutyl dithiophosphates for the collective cycle of copper-lead flotation also does not provide high technological indicators for the extraction of copper and lead in a collective concentrate and zinc in zinc. Dithiophosphates have a lower collective ability compared to xanthates, and iron disulfides are much weaker. Dithiophosphates are the most difficult to oxidize sulfhydryl collectors. However, weak collective properties do not allow the use of dithiophosphates on their own with the achievement of high technological parameters at reasonable costs, so they are used in combination with xanthates. In addition, increased consumption of dithiophosphates can lead to the formation of abundant hard-to-break foam.

The closest in technical essence is the method of flotation of polymetallic sulfide gold-bearing ores of non-ferrous metals, including grinding in soda medium, conditioning pulp with modifying reagents, with collector butyl xanthate and blowing agent, collective copper-lead flotation, activating sphalerite and butane xanthogen conditioning blowing agent and zinc flotation. / Abramov A.A. Processing, enrichment and integrated use of solid minerals. - M.: Publishing. Moscow State University, I.I. 2001, 469 p .; T.II. 2004, 509 p. /

The disadvantage of this method is that xanthate provides a more stable extraction of all sulfide minerals with lower quality concentrates in comparison with modified dithiophosphates. The aim of the claimed invention is to reduce the flotability of pyrite and other iron sulfides, increase the flotation activity of non-ferrous metal minerals, native gold particles, its open intergrowths with sulfides. This goal is achieved by the use of a collector with the technical name “Beraflot”, which is a composition of dithiophosphates, thionocarbamates, aliphatic alcohols, a mixture of terpene alcohols and hydrocarbons, a mixture of butyl ethers of propylene glycol, bottoms from the production of butyl alcohols, 2-ethylhexanol, 2-ethylhex -propylene and ethylbenzene, as a collector in collective copper-lead flotation and zinc flotation after activation of sphalerite with copper sulfate in a lime medium. The additional use of dimethyldithiocarbamate in the grinding cycle at high costs selectively reduces the flotability of sphalerite, due to the formation of a hydrophilic layer of dimethyldithiocarbamate, which reduces the flotability of sphalerite in the main copper-lead flotation, which leads to an increase in the quality of zinc concentrate and its extraction.

The essence of the claimed invention is as follows: sulfide polymetallic lead-copper, lead-zinc ores are crushed in a lime medium at pH ~ 7.5-9.0 with the addition of a known composition of reagents for the suppression of sphalerite into the mill and an additional supply of dimethyldithiocarbamate at a flow rate of from 800 to 2000 g / t as an additional depressant of zinc minerals, classified according to the finished class of 74 microns; chopped pulp with a particle size of 65-85% of class minus 74 microns is conditioned sequentially with sodium sulfite and zinc sulfate, the Beraflot collector, which is a composition of dithiophosphates, thionocarbamates, aliphatic alcohols, a mixture of terpene alcohols and hydrocarbons, a mixture of butylene ethers of propylene glycol, bottoms from the production of butyl alcohols, 2-ethylhexanol, 2-ethylhexanoic acid, ethylene propylene and ethylbenzene; copper and lead minerals are floated in a collective concentrate; after activating sphalerite by known methods, the pulp is conditioned with the Beraflot collector and zinc minerals are selectively floated in zinc concentrate.

The invention achieves the following technological result: high and selective extraction of galena and chalcopyrite in a collective lead-copper concentrate; reduction of zinc losses in it due to the effective reduction of flotation of sphalerite by dimethyldithiocarbamate supplied in the grinding cycle and low flotation of pyrite in all technological operations due to the use of the Beraflot selective collector, which is a composition of dithiophosphates, thionocarbamates, aliphatic alcohols, a mixture of terpene alcohols, a mixture of terpenes mixtures of butyl ethers of propylene glycol, bottoms from the production of butyl alcohols, 2-ethylhexanol, 2-ethylhexanoic acid, ethylene-prop ylene and ethylbenzene.

A significant difference between the claimed invention and its advantage in comparison with the prototype and known technical solutions is that in the proposed method, the Beraflot selective collector is used, which is a composition of dithiophosphates, thionocarbamates, aliphatic alcohols, a mixture of terpene alcohols and hydrocarbons, a mixture of butyl ethers of propylene glycol bottoms from the production of butyl alcohols, 2-ethylhexanol, 2-ethylhexanoic acid, ethylene propylene and ethylbenzene, which has a weak fleet the ability to pyrite and unactivated sphalerite and a sufficiently high flotation activity to galena, chalcopyrite, gold and sphalerite activated by copper ions. In addition, the use of dimethyldithiocarbamate in the grinding cycle helps to reduce zinc losses with concentrate of basic copper-lead flotation and increase zinc recovery while improving the quality of zinc concentrate of basic zinc flotation.

A specific implementation of the method is shown in the following example.

Example. The studies were conducted in laboratory conditions at the polymetallic ore of the Rubtsovsky deposit.

Ore was crushed in a calcareous medium for 10 minutes at pH ~ 7.5–9.0 with the addition of sodium sulfide 50 g / t, sodium sulfite and zinc sulfate at a flow rate of 300 to 500 g / t each to suppress sphalerite and additional by feeding dimethyldithiocarbamate at a flow rate of 800 to 2000 g / t as an additional depressant of zinc minerals, the pulp was classified according to the finished class of 74 μm. The ground pulp with a particle size of 65-85% of class minus 74 microns was conditioned sequentially with sodium sulfite and zinc sulfate, the Beraflot collector, which is a composition of dithiophosphates, thionocarbamates, aliphatic alcohols, a mixture of terpene alcohols and hydrocarbons, a mixture of propylene glycol butyl ethers, bottoms from the production of butyl alcohols, 2-ethylhexanol, 2-ethylhexanoic acid, ethylene propylene and ethylbenzene; copper and lead minerals were floated in a collective concentrate; after activating sphalerite in a known manner, the pulp was conditioned with a Beraflot collector and zinc minerals were selectively floated in zinc concentrate.

The table shows the results of 4 experiments with the use of various reagents as a collector and the use of dimethyldithiocarbamate in grinding: 1 experiment is a prototype, butyl xanthate as a collector and without the use of dimethyldithiocarbamate in grinding; 2 experiment - as a collector - butyl xanthate and with the use of dimethyldithiocarbamate in grinding; 3 experience - as a collector - “Beraflot” and without the use of dimethyldithiocarbamate in grinding; 4 experience - as a collector - “Beraflot” and with the use of dimethyldithiocarbamate in grinding.

An analysis of the data shows that with one butyl xanthate (experiment 1 - prototype), almost all zinc minerals are completely floated in a copper-lead concentrate (zinc recovery 93.5%).

As can be seen from experiment 2, the combination of DMDK and xanthate compared with experiment 1 slightly reduces the extraction of zinc in copper-lead concentrate (zinc recovery is reduced by 8.5%).

The proposed flotation method using Beraflot as a collector (experiment 3), which is a composition of dithiophosphates, thionocarbamates, aliphatic alcohols, a mixture of terpene alcohols and hydrocarbons, a mixture of propylene glycol butyl ethers, bottoms from the production of butyl alcohols, 2-ethylhexanol ethylhexanoic acid, ethylene propylene and ethylbenzene, provided higher technological performance compared to the prototype method (experiment 1): improving the quality of copper-lead concentrate in content copper 4.12%, lead - 4.84%, reduced recovery of zinc in the copper-lead concentrate - 26.8%; improving the quality of zinc concentrate in terms of zinc content - by 8.13%; and increasing the extraction of zinc in zinc concentrate - by 28.6%.

However, the proposed flotation method using Beraflot as a collector, which is a composition of dithiophosphates, thionocarbamates, aliphatic alcohols, a mixture of terpene alcohols and hydrocarbons, a mixture of propylene glycol butyl esters, bottoms from the production of butyl alcohols, 2-ethylhexanol, 2-ethylhexanol, 2-ethyl ethylene propylene and ethylbenzene; and the use of dimethyldithiocarbamate in grinding (experiment 4) allowed to obtain higher performance compared to the prototype method (experiment 1): improving the quality of copper-lead concentrate in copper content by 4.13%, lead by 5.3%, reducing recovery zinc in copper-lead concentrate by 53%; improving the quality of zinc concentrate in zinc content by 29.05% and increasing the extraction of zinc in zinc concentrate by 53.7%.

Claims (2)

1. The method of flotation of polymetallic copper-lead, lead-zinc sulfide ores, including grinding, conditioning, collective copper-lead flotation in a slightly alkaline medium with known reagents, characterized in that in the collective copper-lead flotation, a collector with a technical name is used as a collector "Beraflot", which is a composition of dithiophosphates, thionocarbamates, aliphatic alcohols C ₁ -C ₄ , a mixture of terpene alcohols and hydrocarbons, a mixture of butyl ethers of propylene glycol, cube residues from the production of butyl alcohols, 2-ethylhexanol, 2-ethylhexanoic acid, ethylene propylene and ethylbenzene, followed by activation of sphalerite in a highly alkaline medium and flotation of zinc by the Beraflot collector from collective flotation tails and production of tailings by chamber product. 2. The method according to claim 1, characterized in that to reduce the flotability of sphalerite in copper-lead flotation, dimethyldithiocarbamate is additionally added to the grinding.