SU1688925A1 - Method of coal flotation - Google Patents

Abstract

The invention relates to the enrichment of minerals by flotation and m. used in coal preparation plants. The purpose of the invention is to increase the recovery of organic matter in the concentrate. Coal is pre-pulped, conditioned with tractor kerosene (TC) and additional reagent. When conditioning, linear acetals of the general formula CH3-CH-C & are introduced as an additional reagent. CH3 OR where R is ethyl, butyl, isobutyl. Then, flotation is carried out with separation of the organic matter in the concentrate. The results of coal fines flotation show that the use of TK with linear acetals instead of TK with T-80 as a reagent blend makes it possible to increase the extraction of the combustible mass in the concentrate from 91.4 to 92.6-95.5% while reducing the consumption of reagents for 20%. The improvement in the flotation activity of a mixture of TK with linear acetals as compared with the use of a mixture of TK with T-80 OB is explained by their increased hydrophobization effect during adsorption due to the design of a hydrocarbon radical. This has a positive effect on the process of interaction of the TC with the coal surface and, ultimately, the improvement of the coal floatability. Thus, the use of linear acetals as an additional reagent in a mixture with TC allows to increase the extraction of the combustible mass into the concentrate by 1.2-4.1% while reducing the consumption of reagents by 20%. with with Os 00 00 yu SL

Description

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

The aim of the invention is to increase the recovery of the organic mass of coal into a concentrate.

The flotation process includes pre-pulping, conditioning with tractor kerosene and an additional reagent, and separating the organic matter into a concentrate. In the conditioning, linear acetals are introduced as an additional reagent.

CH3-CH-CH ° R

si OR

where R is ethyl, butyl or isoUTY.

Linear acetals are obtained by heating alcohols with aldehydes in the presence of a mineral acid; the addition of alcohols to vinyl ethers.

Physico-chemical constants

Temperature

boiling point, 6С137-190

Density, d4200,8256-0,8216

Coefficient

refraction, po2019,331-1.4019.

 The method is carried out as follows.

The initial coal sample is mixed with water, conditioned with kerosene and additional reagent.

Example. To carry out the process, we take a sample, for example, 100 g, mix with water in a laboratory machine of the Mechanobr type with a chamber volume of 0.7 liters for 2 minutes. Then a portion of tractor kerosene is supplied to the process and is in contact with the pulp for 40 seconds, and then additional reagent is supplied and in contact with the pulp for 20 seconds. After contact of the coal sample with reagents, air is fed into the flotation pulp and floated for 1 minute. The air supply to the slurry is stopped and the next portions of the reactants are supplied, followed by contacting and flotation.

The total consumption of reagents and the number of dosing them into the pulp is determined by the flotation activity of the reagents.

The results of coal fine flotation show that the use of tractor kerosene with linear acetals instead of tractor kerosene with T-80 as reagents makes it possible to increase extraction

organic mass in concentrate from 91.4% to 92.6-95.5% while reducing reagent consumption by 20%. The concentrate yield increased from 85.4 to 86.3-89.4% without a significant increase in the ash content of the concentrate.

Improving the flotation activity of tractor kerosene with

0

sn3-snh

CH3

OR OR

five

0

five

0

five

0

compared to the use of tractor kerosene with T-80, this is explained by the increase in the degree of hydrophobization of coal by linear acetals due to the presence of branched hydrocarbon radicals in the acetal molecule. This has a positive effect on the process of interaction of the reagent-gatherer with the coal surface, which increases the amount of adsorption of tractor kerosene and, ultimately, the floatability of coal fines. Thus, the use of linear acetals as an additional reagent with tractor kerosene allows to increase the extraction of organic matter in the concentrate by 1.2-4.1% while reducing the consumption of reagents by 20%.

Claims (1)

Claims Method of flotation of coal, including preliminary pulping of coal, conditioning of pulp with a mixture of tractor kerosene and additional reagent, and release of organic matter into concentrate, characterized in that, in order to increase the recovery of organic matter of coal into coal, linear acetals are added as an additional reactant general formula SN3-SN CR 0 CH3OR where R is ethyl, butyl or isobutyl.