SU1369805A1 - Method of flotation of fluorite-containing nonsulphide ores - Google Patents

Abstract

The invention relates to the enrichment of minerals and m. used in the flotation of nonsulfide. in particular fluorite ores. The purpose of the invention is to increase the technological parameters of the process while reducing the cost of reagents. The method includes grinding ores in the presence of a modifier and subsequent conditioning of the pulp with a depressor, a medium regulator and a fat-acid collector. As a modifier, waste from the production of caprolactam, sodium adipate, in the form of a solution of sodium salts of mono- and di-carboxylic acids is introduced. Sodium adipates belong to the group of low-toxic compounds, they are non-flammable and do not form explosive concentrations during storage and use. 2 tab. with S cl

Description

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The invention relates to the beneficiation of minerals and can be used in the flotation of non-sulphide ores, in particular, fshoorite ores

The aim of the invention is to increase the technological parameters of the process while reducing the cost of reagents.

Sodium adipates are caprolactam production waste.

Sodium adipates are released in accordance with Spec. 6-03-13-17-80 Kemerovo PO of NITROGEN in the form of an aqueous solution of sodium salts of mono- and di-carboxylic acids.

The material composition of sodium adipates is given in table. one.

Sodium adipates belong to the group of toxic compounds, are non-combustible and do not form explosive concentrations during storage and use.

Comparative experiments were performed in the laboratory according to the principle of a continuous process using recycled water.

Example 1. The regulator — sodium adipes — was tested during flotation of a highly carbonate mica-fluorite ore with a fluorite content of 29.84%, carbonates of 18.75%.

The flotation scheme included:

grinding the ore to a particle size of 85% - 0.044 mm; adipates of sodium 1 kg / ton (100%) were fed for grinding and for comparison sodium sulfide 1 kg / ton; main flotation (fluorite) - consumption of reagents: soda 1 kg / t, oksil 0.3 kg / t, and fatty acid collector 0.8 kg / t; six scrubbing of the concentrate (in 1 scrubbing and 2nd scouring: DM-5 - mixture of oxyl and liquid CTexj oM at 0.2 kg / t; in the 4th scrubbing - DM-5 0.04 kg / ton and sulphate aluminum 0.1 kg / t); steaming the concentrate after the second cleaning at 60 ° C with sodium fluorosilicate 0.8 kg / t; industrial products flotation of fluorite (CD-5 0.4 kg / t; collector 0.15 kg / t).

Foamed product middling flotation sent to the main flotation.

Example 2 Carbonate barite-fluorite was subjected to flotation concentration with a fluorite content of 21.7%, barite of 10.7%, carbonates of 2.2%.

The enrichment scheme included grinding the ore to a particle size of 75% - 0.044 mm; grind. Supplied sodium adipates 0.3 kg / ton, for comparison sodium sulphide 0.3 kg / ton, soda 1.5 kg / ton; the main fluorite flotation with a flow of liquid glass of 0.4 kg / t, fatty acid collector of 0.35 kg / t, depressor (ferrous sulphate and aluminum sulphate) of 0.2 kg / t -, six cleanings of the main concentrate,

In GI and P T cleanup - liquid glass at 0.2 kg / t, in V clean-up - aluminum sulphate 0.5 kg / t, to steaming after the third clean-up - sodium fluorosilicate 0.4 kg / t. Industrial products of all clean-out besides IV, it was sent to the main flotation. Industrial product IV was dumped.

The enrichment rates of two samples of fpuorite ores with sodium adipates in comparison with the prototype (sodium sulphide) are shown in Table. 2

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Claims (1)

Invention Formula A method of flotation of fluorite-containing non-sulphide ores, including grinding in the presence of a modifier and subsequent conditioning of the pulp with a depressor, a medium controller and a fatty acid collector, characterized in that, in order to increase the process performance while reducing the cost of reagents, caprolactam production is introduced as a modifier containing sodium salts of mono- and dicarboxylic acids. T.a b l and c a I Cyclohexanone Cyclohexanol Example Fluorite concentrate -95.85 0.89 - 1.6 87.1 Suggested Tails 5.3. 25.38 0.3 0.3 Q-an 12.9 12.9 1369805  t 6 Continuation of table 2