SU1080874A1 - Method of coal flotation - Google Patents

Abstract

METHOD OF FLOTATION OF COAL, including preconditioning with kerosene and additional reagent, is necessary in order to increase the extraction of the combustible mass in the concentrate and improve the selectivity of the process by increasing the activity of the flotation reagent in air conditioning Chloromethyl-dimethylpropargyloxysilane of the formula CtCH-jiCtfjJjSiOCHiC CH is added to the additional reagent. (L 0 S

Description

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

In the flotation of coal fines, technical products of petrochemistry containing various chemical compounds are used as reagents.

The flotation process is carried out with the supply of two types of reagents. Reagent-collectors, containing in the group chemical composition, mainly hydrocarbons of various structures, and blowing agent reagents, containing in the group chemical composition compounds with different polar atoms or C1 functional groups}.

The flotation activity of the reagent-mixture is determined both by the ratio of the reactants — collector and foaming agent, and by the group chemical composition of the reactants.

The known method of coal flotation using a technical product as a blowing agent reagent is heavy oil containing alcohols, esters of oil and acetic acids, ethylhexanol 2j in the chemical composition.

The use of heavy JB oil with tractor kerosene (base mixture of reagents) is not efficient enough due to the high consumption of reagents. Consumption of the mixture exceeds 1.0 kg / t.

The closest to the invention to the technical essence and the achieved result is the method of coal flotation, including preconditioning with kerosene and an additional reagent in which Karaganda reagent synthesized on the basis of acetylene and containing mostly unsaturated FDDs is used.

However, the use of reagents containing unsaturated alcohols in the group chemical composition results in a flotation concentrate with high ash content. This is due to the fact that the unsaturated alcohols included in the Karaganda reagent can adsorb on the mineral surface, hydrophobize it due to the presence of a hydrocarbon radical of sufficient length (C 8 or more), and convert waste rock minerals into a frothy product.

The purpose of the invention is to increase the recovery of the combustible mass in the concentrate, to improve the selectivity of the flotation process by increasing the activity of the flotation reagent.

The goal is achieved by agreeing on the method of coal flotation, including preliminary

conditioning with kerosene and additional reagent; chloromethyldimethylpropargyloxysilane formulas are introduced into the air conditioning as an additional reagent

cecH (CH2J SiOcn.C c.

Physico-chemical constants of chloromethyldimethylpropargyloxysilane; Boiling point 78-79s (15 mm Hg); Density, (df) 1.0257, Refractive Index (nl) 1.4420. The method is carried out as follows.

Raw coal is crushed, pulped, flotation reagents injected, condensed and floated.

An example. To carry out the process, we take a portion of coal, for example, 100 g, mix with water in a laboratory machine of the Mechanobr type with a chamber volume of 0.75 liters for 2 minutes. Then a portion of the reagent — a mixture of tractor Kerosena with chloromethyl dimethyl propargyloxysilane — is fed in a ratio of 99: 1. After contact of the coal sample with the reagent, air is supplied to the flotation pulp for 1 min and flotation takes place for 1 min.

The air supply to the pulp is stopped and the next portion of the reagent is supplied with its subsequent contacting with coal for 1 minute. After contact of the coal sample with the reagent, air is again fed to the pulp and the second concentrate is removed. The mixture of tractor kerosene with chloromethyl dimethyl propargyloxysilane is supplied fractionally.

The total consumption of reagents and the amount of its dosing into the pulp is determined by its flotation rate.

To determine the effectiveness of using chloromethyldimethylpropargyloxysilane, the coal fines are floated with a basic reagent mixture, namely, a mixture of tractor kerosene and heavy oil in a ratio of 99: 1, independently (for comparison with Karaganda reagent) or mixed with tractor kerosene.

The remaining coal flotation operations remain unchanged.

Laboratory results show that the use of chloromethyldimethylpropargyloxysilane instead of Karaganda reagent makes it possible to increase the extraction of combustible mass and concentrate by 2-2.6% and reduce the ash content of the flotation concentrate by 0.7-2.1%, with the same reagent consumption.

The flotation efficiency ratio rises from 0.716-0.725 to 0.741-0.789.

In the case of using chloromethyldimethylpropargyloxysilane as a blowing agent reagent instead of heavy oil, positive results were also obtained.

With an equal consumption of the mixture of reagents (0.770-1.07 kg / t), extraction of the combustible mass into the concentrate in the case of using chloromethyldimethylpropargyloxysilane is 4.3-10.6% higher compared to heavy oil.

In the case of chlorine, the ash content of the phosphorus concentrate: 1methyl dimethylpropargyloxysilane is 0.2-0.8% lower than the mixture of tractor kerosene and heavy oil reagents.

It should be noted that the use of chloromethyl dimethyl propargyloxysilane as an independent collecting agent makes it possible to significantly increase the efficiency of flotation as compared to the base mixture of tractor kerosene and heavy oil.

For example, when extracting a combustible mass into a concentrate in the range of 92.1-95.7%, the consumption of chloromethyl dimethyl propargyloxysilane is 5-5.5 times lower compared to a mixture of tractor kerosene with heavy oil.

Therefore, the proposed method using chloromethyldimethylpropargyloxysilane, both as an independent reagent and as a blowing agent reagent in a mixture with tractor oil, allows to increase the extraction of combustible mass into the concentrate,

to improve the selectivity of the coal flotation process and reduce the consumption of reagents.

Claims (1)

METHOD OF COAL FLOTATION, including preconditioning with kerosene and an additional reagent, characterized in that, in order to increase the extraction of the combustible mass into the concentrate and improve the selectivity of the process by increasing the activity of the flotation reagent, chloromethyl-dimethylpropyrgyloxysilane of the formula is introduced into the conditioning as an additional reagent Ct cn ₂ (CH ₃ ) ₂ Si osn ₂ C = SI.