SU671855A1 - Modifier for flotation of fluorite-containing ores - Google Patents

Description

This invention relates to the beneficiation of minerals and can be used in the flotation of fluorite-pyrite ores at concentrators. In the flotation of ores, inorganic salts are used as modifiers 1. For flotation of pyrite from fluorite ores, CuSO is used as an activator, and NagS or sulphide alkali is used as a sulfidizer and regulator. During subsequent flotation, fluorite is used as a medium regulator, and as a depressor or sulphide alkali. These reagents will not allow rt to receive high-quality fluorite concentrate. Fluorite losses during pyrite flotation and with tails of fluorite flotation vessels reach 15-20%. In addition, expensive and scarce flotation reagents (CUSO4, Na2S) are used in the process of fluorite enrichment, the dissolution of which leads to an increase in the content of toxic gaseous components in workshops (HgS, alkalis, etc.). The following products are known: wastes from the production of fluorine salts, for example, gas cleaning solutions, mother liquors after the regeneration of fluorine salts, precipitations of gas cleaning devices. The waste contains sodium fluoride, sodium carbonate, sodium bicarbonate, sodium sulfate. In addition, sodium silicate, resinous substances, iron salts, etc. are contained in the waste in small quantities. These wastes have not been previously used as modifiers in the flotation of ores. The purpose of the invention is to improve the technological indicators of flotation of fluorite-containing ores. This goal is achieved by using fluorine containing sodium fluoride, sodium carbonate, sodium bicarbonate, sodium sulfate as modifiers of production wastes. Example 1. The experiments were conducted on ore containing,%: CaF2 - 34.84; S-12.12; SiOz. - 33.38-35.38. According to the existing technology, the flotation of pyrite and fluorite is carried out as follows. The main pyrite flotation was carried out for 10 minutes, pH-8.

Reagent Mode, CUS04 / 400 C / ts

400

NajS 120

Pine oil

Xanthate 300

Then, I and If control flotation is carried out for 5 minutes each with the addition of 30 g / t of xanthate.

The main fluorite flotation is carried out at pH-9, the flotation time is 5 minutes, the consumption of reagents, kg / t:

3.0

 NaijS1,5

 Hg COOH0,3

Time control flotation 3 min, the consumption of reagents, g / t:

ЫааСОз800

C HjjCOOH50

The first cleaning of the concentrate is carried out for 5 minutes at pH-9 and a consumption of 400 g / t of ore, a second cleaning of 4 minutes at and a consumption of 300 g / t of ore. Third re-cleaning within 4 minutes, at NagS consumption of 300 g / t and a fourth cleaning through 3 minutes, with consumption of 200 g / t.

According to the proposed reagent, the regime instead of reagents CuSO4, NagS and NajCOj take waste aluminum production (stock solutions after cryolite regeneration) of the following composition, g / l:

Na F 3.6; NagCO 22.26; NaHCOg 21.8 Na, jS04 94.43.

Consumption of this reagent at pyrite flotation 300 g / t, with fluorite flotation 3 kg / t. 600 g / t are consumed for 1 cleaning, 200 g / t for cleaning II, 200 g / t for cleaning III, 150 g / t for cleaning IV, without cleaning up the reagents; The pH during pyrite and fluorite flotation remains equal to 7. The dosage of the remaining reagents in all stages of flotation is the same.

As a result, the recovery of SARg to concentrate increased by 1.4%.

Fluorite content in tails decreases c. 5.72% to 2.62%, respectively, losses with CaF2 tails decrease from 5.8% (to 1.6%).

The content of CaFg in the pyrite concentrate is reduced from 6.65% to 4.45%, i.e. Fluorite losses during pyrite flotation are reduced. Sulfur recovery in pyrite concentrate increases by 1.4% with an increase in the sulfur content of sulfur in this concentrate by 1.5%.

Similar results for the fleet of pyrite and fluorite were obtained using gas cleaning solutions 0 of fluorite and aluminum production of the following chemical composition, g / l: NaF 5, 15.9 NaHCOg 28.56 95.14 and NaF 20.4; Na CO "29,68; NaHCOg 35.28; 5 56.8.

At the consumption of the proposed reagents in the process: fluorite flotation in the amount of 2000 g / t, a concentrate was obtained containing CaF297, l%, Q The proposed flotation reagents can be used in a wide range of salt concentrations.

The use of waste during the flotation of fluorite from pyrite ores will allow the utilization of toxic waste, reduce the loss of scarce raw materials, improve the atmosphere in the workshops and reduce the pollution of the soil and water bodies in connection with waste disposal.

Thus, the main advantage of the invention is to improve the technological performance of the flotation process of fluorite-containing ores.

Claims (1)

1. Dudenkov S.V. et al. Fundamentals of the theory and practice of the use of flotation reagents. M ,, Nedra, 1969, p. 87-108.