SU1666188A1 - Method of coal flotation - Google Patents

Abstract

This invention relates to the beneficiation of minerals and can be used in coal preparation plants. The purpose of the invention is to increase the recovery of the combustible mass into the concentrate while reducing the consumption of reagent. The pulp is pulped and conditioned with a complex ether-blowing agent collector: 4-pentyloxymethyl-1,3-bio-oxalane. The reagent has a high hydrophobic activity and good foaming properties. The use of 4-pentyloxymethyl-1,3-dioxalane as a complex reagent made it possible to increase the extraction of the combustible mass into a concentrate from 82.3 - 94.8 to 89.0 - 95.6% compared with the use of tractor kerosene with T - 80 while reducing the consumption of reagents in 2.0 - 2.5 times.

Description

This 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 into the concentrate while reducing the consumption of reagent.

The method of coal flotation includes preliminary pulping and concentration of the pulp with a collector and blowing agent, followed by separation. 4-Pentyloxymethyl-1,3-dioxalane ether of formula CH-CH-OCg-Hj is introduced into the process as a complex collector-foam reagent.

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4-pentyloxymethyl-1,3-dioxalane is obtained by reacting 4-hydroxymethyl-1,3-dioxalane with pentyl chloride under phase transfer catalysis.

In the national economy, ethers are used as physiologically active substances, corrosion inhibitors.

Example. To carry out the process, we take a sample of coal, for example, 100 g, mix it with water in a laboratory machine of the Mechanobr type with a chamber volume of 0.75 liters for 120 s. Then, a portion of the complex reagent, 4-pentyloxymethyl-1,3-dioxalane ether, is fed and contacted with coal pulp for 60 s. After 60 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.

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The air supply to the pulp is stopped and the next portion of the complex reagent is supplied, followed by their contacting with coal for 60 s.

After contact of the coal sample with reagents, air is fed 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 use of 4-pentyloxymethyl-1,3-dioxolane as a complex reagent instead of tractor kerosene with T-80 allows to increase the extraction of combustible mass in concentrate from 82.3-94.8 to 89.0-95.6% while reducing reagent consumption from 1,000-1,560 to 0,410-0,820 kg / t.

The improvement in coal flotation using 4-pentyloxymethyl-1,3-dioxolane is explained by the elemental composition and structure of their molecules.

In the ether molecules, the electron density is localized at the oxygen atoms; as a result, the reagents can specifically interact with the sorption-active centers of the coal surface, carrying a positive charge (protonized hydrogen atoms of phenolic, carboxyl groups in the macromolecule of the organic mass of coal) according to the scheme : H2C-C11-CH2-0-C5NP

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In the molecules of the esters there are hydrocarbon radicals that can interact with the apolar centers of the coal surface due to the intermolecular Wander-Waals forces. Therefore, in the case of adsorption on the coal surface

aliphatic and cyclic ethers appear simultaneously as specific (H-bond, etc.) and universal non-specific intermolecular forces interacting with the positive and apolar regions of the coal surface. It should be noted that the presence of oxygen atoms in the ether molecules contained in 4-pentyloxymethyl-1,3-dioxalanes gives them a high surface activity. The high polarization of the reagent molecules, caused by the electron-acceptor properties of oxygen atoms, causes good foaming properties.

High hydrophobic activity and good foaming properties of 4-pentyloxymethyl-1,3-dioxolane ensure its high flotation properties.

Therefore, the use of 4-pentyloxymethyl-1,3-dioxalane ester as a complex reagent during flotation makes it possible to increase the extraction of combustible mass into a concentrate from 82.3-94.8 to 89.0-95.6% with a simultaneous decrease in reagent consumption of 2- 2.5 times.

Claims (1)

Claim method: coal flotation, including pulping. conditioning with a collector and foaming agent and the subsequent release of the combustible mass into a concentrate, characterized in that, in order to increase the extraction of the combustible mass in concentrate while reducing the consumption of reagents, 4-pentyloxymethyl-1,3-dioxolane of the formula is introduced as foaming agent (foaming agent) H-C-CH-Sh2OS5-NP H R sn,