SU1144729A1 - Method of flotation of clay fluorite ores - Google Patents

Abstract

A method for flotation of clayey fluorite ores, including pre-conditioning of pulp in an alkaline medium with liquid glass and aluminum sulphate and the introduction of a fatty acid collector, characterized in that, in order to increase the extraction of fluorite by reducing the harmful effects of sludge, in addition to conditioning, a paint dye will be added to the conditioning agent. black 3 structural formula w

Description

4 4; ib

 Yu

with

The invention relates to the beneficiation of minerals and can be used in the flotation of clay fluorite ores.

A known method for the flotation of clay ores, in which polyethylene oxyalkylphenol 1, double titanyl sulfate and ammonium sulfate 2, wood hydrolysis resin 3, polymethacrylic acid salt 4, are used as modifying agents to eliminate the negative effect of clay slimes.

The disadvantages of these reagents are their scarcity, high cost, low selectivity and low recovery of the useful component in the concentrate.

The closest to the proposed technical essence and the achieved result is the method 5 of flotation of clay fluorite ores, including pre-conditioning of the pulp in an alkaline medium with liquid glass, aluminum sulphate and the introduction of fatty acid collector. This method allows to obtain a rough fluorite concentrate with a fluorite content of 70.1% from ore containing 37.3% fluorite and 5% of clay slimes, while extracting it into a concentrate of 93.0%.

However, this method is characterized by an insufficiently high technological extraction of fluorite, due to the harmful effect of sludge on flotation, which is associated with an unsubstantiated reagent regime, in particular, a low-selective depressant.

The purpose of the invention is to increase the extraction of fluorite by reducing the harmful effect of schlamas.

The goal is achieved in that according to the method of flotation of clay fluorite ores, including preconditioning the pulp in an alkaline medium with liquid glass and aluminum sulphate and the introduction of a fatty acid collector, an organic straight black dye is introduced into the conditioning, for example

HaN OH

.

HiN

NH, NOz5 50ZN

Organic direct black dye 3 meets the requirements of GOST 21814-76 and is intended for the splicing of cotton and staple-viscose fiber.

According to GOST, direct black dye 3 belongs to the class of azo dyes and is based on benzidine.

Outside, the dye is a uniform powder grayish-black, horopu soluble in a weakly alkaline medium.

The addition of azo dye, in particular direct black 3, to the pulp conditioning before flotation increases the recovery of fluorite in the concentrate compared to

flotation without it.

The positive effect of the reagent is explained as follows.

The azo dye, in this case, direct black 3, selectively sorbs on clay minerals, shields their surface and interferes with the sorption of the collector on them, thus projecting as a fluorite flotation activator.

The method is carried out as follows.

The ore is crushed, conditioned with liquid glass, aluminum sulphate, organic dye black 3 is additionally introduced, fatty acid collector is added and fluorite is floated.

Example. The positive effect on the technology of direct black dye introduced into the conditioning pulp is shown on the example of the flotation of fluorite ore containing 37.3% fluorite, 1.5% calcite, 41.2% silicon dioxide and 5%

kalinitovyh and montmorillonite composition

In parallel, for comparison, experiments on the reagent mode of the prototype were carried out.

The experiments were carried out according to the following scheme: ore grinding to 70.0% of the class - 0.074 mm; basic fluorite flotation to produce a rough concentrate; control fluorite flotation to obtain a control concentrate and tailings.

 Saponified technical fatty acids (TFA) were used as a collector.

Empty rock mode prototype depressed liquid glass and aluminum sulphate.

According to the proposed method, in addition to these depressors, organic direct black 3 dye is supplied in the form of a 1% solution prepared in 5–20% soda solution.

Reagent mode is given in table. 1. The results of flotation on the well-known reagent mode with the introduction of liquid glass, aluminum sulphate and TFA into the conditioning and proposed with additional supply to the conditioning

0 pulp dye organic direct black 3 are given in Table. 2

All experiments were conducted in an open cycle. As can be seen from the table. 2, the addition of dye organic direct black 3 to the pulp conditioning in the amount of 1005–150 g / ore allows to increase the extraction of fluorite in the rough fluorite concentrate by 1.1-1.4% compared with the prototype (from 93.0% to 94, 1-94.4%).

Lower dye consumption (50 g / t) does not work efficiently enough, since the extraction of fluorite in the rough concentrate drops to EZ, and its losses with tails increase from 4.3 to 5.5.0%.

An increase in dye consumption to 200 g / t does not contribute to a further increase in the extraction of fluorite in the concentrate (94.3%).

Thus, the addition of organic direct black 3 from the class of azo dyes in the amount of 100–150 g / t to the pulp conditioning allows floatation of clay fluorite ores to increase the extraction of fluorite in the fluorite concentrate by 1.1–1.4%.

Table

Pulp conditioning

Soda to pH 8.5-9.0

Organic dye my black 3

Liquid glass

Aluminum Sulphate

Tjk

Main fluorite flotation

Tjk

Control flotation

The results of flotation on the proposed method

Draft fluorite kit

50

Control fluorite concentrate

Tails

Ore

100 100 100 500

100

table 2

69.9

93.5

49.9

1.5

40.2

1.4

5.0

3.8

48.7

100.0

37.3

100.0

Continued table. 2

Claims (1)

METHOD OF FLOTATION OF CLAY FLUORITE ORES, including preconditioning of pulp in an alkaline medium with liquid glass and aluminum sulfate and the introduction of a fatty acid collector, characterized in that, in order to increase the extraction of fluorite by reducing the harmful effects of sludge, an organic direct black dye 3 is added to the conditioning formulas