SU1461511A1 - Method of flotation of coal - Google Patents

Abstract

This invention relates to the enrichment of minerals by flotation and m. Used in coal preparation plants. The goal is to increase the combustible mass in the concentrate and reduce the consumption of reagents. Pre-pulping of the feedstock is performed. The pulp is preconditioned with a collector, a blowing agent and flotation is carried out. Cyclohexano- propyloxymethyl ether is used as blowing agent. la (POME) of the formula / "CH CH, CH-0-CHi-0-Ctt, -C" CH SP, SPG. Clli YAME is obtained by the action of propargyloxymethyl chloride on cyclohexanol in the presence of amines. Physical and chemical parameters of POE: boiling point 60-61 s, density 0.9706 g / cm The reagent has an increased hydrophobization and high foaming capacity. This has a positive effect on the collector's adsorption on the coal surface and leads to an improvement in the floatability of the coal particles. (L with

Description

one

The invention relates to the enrichment of minerals by flotation and can be used in coal preparation plants.

The purpose of the invention is to increase the recovery of the combustible mass in the concentrate and reduce the consumption of reagents.

The goal is achieved by the fact that in the coal flotation method, including preliminary pulping of the raw material, pulp conditioning with a collector and an additional blowing agent reagent and subsequent separation, the cyclohexanone propargyloxymethyl ether of the formula, is added as an blowing agent. -.

/ sk,

CHi CH-O-CHi-O-CHi-C-CH

sn / cn

one

Cyclohexanone propargyloxymethyl ester is pch-emitted by the action of propargyloxymethyl chloride on cyclohexanone: in the presence of amines.

Physico-chemical parameters of cyclohexanone pro-pargyloxymethyl ester:

sd

60-61

(2 mm Hg)

0.9706

1.4609

The method is carried out as follows.

A portion of the coal pulping, condition with reagent - collector and blowing agent, followed by flotation of coal.

Example. To carry out the process, we take a portion of the coal, mix it with water in a laboratory machine of the type Mekhanobr for 120 seconds, then serve a portion of the reagent - collector of tractor kerosene and contact it with the coal pulp for 40 seconds, and then serve a portion of the additional reagent - the propargyloxymethyl foaming agent cyclohexanone ether and after 20 seconds of contacting the reagents with the pulp, air is supplied to the flotation machine, and then a flotation concentrate is removed for 60 seconds. . The air supply to the pulp is stopped and the next portion of reagents is supplied with their subsequent contacting with coal for 60 s.

After contact of the coal sample with reagents, air is fed back into the pulp and the second concentrate is removed. The total consumption of reagents and the amount of dosing into the pulp is determined by their flotation activity.

The results of the coal fine flotation show that the use of tractor kerosene with propargyloxymethyl ether of cyclohexanone instead of tractor kerosene with T-66 as reagents allows increasing the extraction of the combustible mass in the concentrate from 81.4-88.7 to 88.1 -90.4% (reagent ratio 95: 5) and from 87.4- 90.7% to 92.9-96.2% (reagent ratio 90:10).

The improvement in the flotation activity of tractor kerosene with cyclohexanone propargyloxymethyl ether as compared with the use of tractor kerosene with T-66 is explained by the increased hydrophobization deformation of the new reagent. It is established that the emergence of the emerging product in mono puzy. The unit is raised with

28.6% to 32.5% when using cyclohexanone propargyloxymethyl ester instead of T-66.

It was found that cyclohexanone propargyloxymethyl ether has a rather high foaming capacity. The height of a two-phase foam with a concentration of reagent in water of 32.6-65.2 mg / l was 230-247 mm, respectively, and in the case of T-66 with an equal concentration, it was 54.0-214 mm.

The increased hydrophobization ability of cyclohexanone propargyloxymethyl ether and its relatively high foaming ability results in increased flotation activity of tractor kerosene in the presence of cyclohexanone propargyloxymethyl ether.

An increase in the hydrophobic effect of cyclohexanone propargyloxymethyl ether in comparison has a positive effect on the process of adsorption of the reagent - the collector on the coal surface, which increases the amount of adsorption of tractor kerosene on coal and ultimately leads to the decay of the floatability of coal particles.

Thus, the use of the proposed method allows to increase the extraction of combustible mass into concentrate by 1.7-5.5% and reduce the consumption of reagents by 12%.

Formula of invention

The method of coal flotation, including preliminary pulping of the raw material, pulp conditioning with a collector and a blowing agent, and subsequent separation, is characterized in that, in order to extract the combustible mass into the concentrate and reduce the consumption of reagents, propargyloxymethyl ether cyclopane is introduced as a blowing agent. , hexanone formula / "hv

He, CH-O-CHj-O-CHi-C.CH

Claims (1)

Claim The method for the output of pulp and coal yuflotation, including preliminary pulping of raw materials, conditioning with a collector and a foaming agent, is the following separation, in that, in order to increase the extraction of combustible mass in the concentrate and reduce the consumption of reagents, as a blowing agent Cyclone-propargyloxymethyl ether is introduced. hexanone formula