SU1268205A1 - Method of coal flotation - Google Patents

Abstract

| | | The designation relates to the flotation enrichment of minerals and makes it possible to increase the extraction of the combustible mass into the concentrate. 1 raw material is pre-pulped. Then, the following is carried out: mixing of tractor kerosene and additional reagent bis

Description

The invention relates to mineral processing by flotation and can be used in coal processing plants.

According to the method of coal flotation, 5 including preliminary pulping, conditioning with kerosene and an additional reagent, bis is introduced into the conditioning as an additional reagent (1, 10

3-dioxa-2-silacyclohexane) -2-yl esters of the general formula

where R is methyl, R 'is phenyl. 20

These compounds are prepared by reacting methyl (phenyl) trialkoxysilanes with 1,3-diols.

Physicochemical constants of the compounds: t „ _k = 190-2 (13 (5 mmHg); 25 d (° = 1.1294-1, 1395; η ™ = 1.51) 97 .1.5186.

PRI me R. A coal sample, for example 0.1 kg, is taken, mixed with water in a Me-30 hanobr type laboratory machine with a chamber volume of 7.5 10 m ³ for 2 min, then a portion of the tractor tractor kerosene with bis (1, 3-Dio) reagent is fed .xa-2-silicicyclohexane) -2-yl esters in a ratio of 95: 2. After contacting a sample of coal with a reagent for 1 min, air is supplied to the flotation pulp and flotation is carried out for 1 min. The air supply to the pulp is stopped and the next reagent is fed, followed by contacting it with coal for 1 min. After the coal sample is in contact with the reagent, air is again fed into the pulp and a second concentrate is removed. A mixture of tractor kerosene with bis (1, 3-dioxa-2-silacyclohexane) -2-yl esters is fed fractionally.

The total consumption of reagents and the quantity of its dosages into the pulp is determined by its flotation activity.

The efficiency of using bis (1, 3-dioxa-2-silacyclohexane) -2-yl esters is compared with T-66, which is ^55- widely used as a blowing agent in a coal preparation plant.

The method of coal flotation, which consists in preliminary pulping and conditioning with a mixture of tractor kerosene and additional T-66 reagent in a ratio of 98: 2 (prototype), was adopted as the base object. When comparing the results of coal flotation using a new flotation method and the base object - a mixture of T-66 with tractor kerosene, an improvement in flotation indicators was established using bis (1, 3-dioxa-2-s.ilacyclohexane) -2-yl esters as additional reagents . Extraction of combustible mass into concentrate rises from 84.6-90.1 to 89.894.7%. _

The results of coal flotation using various reagents are shown in the table.

Therefore, the application of the proposed method of flotation of coal fines can improve the technological parameters of flotation of coal by increasing the extraction of combustible mass in concentrate.

The use of chemical compounds of bis (1,3-dioxide ~ 2-silacyclohexane) -2-yl esters as additional reagents for coal flotation allows to increase the extraction of combustible mass into concentrate by 4.6-5.2% compared to using as an additional reagent T-66 with equal consumption of reagents.

The improvement of the flotation of coal fines in the case of using bis (1, 3-dioxa-2-silacyclohexane) -2-yl esters is explained not only by their good foaming properties, but also by their increased hydrophobization ability upon adsorption on a coal surface.

Investigation of the hydrophobization ability of the reagents by performing flotation experiments in the Hallimond monobubble apparatus showed that the yield of the surfaced product when using bis (1,3-dioxa-2-silacyclohexane) -2-yl ethers increases from 45.4-51.2% to 70.080.5% compared with the use of T-66 (concentration of reagents in water is 41.6-83.2 mg / l). ·

An increase in the hydrophobization of coal adsorption of bis (1, 3-dioxa-2-silacyclohexane) -2-ip esters positively affects the adsorption of the main tractor kerosene collector reagent, which determines the improvement of coal floatability when using new reagents.

Thus, the use of method 5 allows to increase the extraction of combustible mass by 4.6-5.2%.

Claims (2)

1 The invention relates to the mineral processing of minerals by metol flotation and can be used in coal preparation plants. According to the flotilla coal method, which includes preliminary pulping, conditioning with kerosene and additional reagent, bis (1, 3-dioxa-2-silacycyclohexane) 2-yl esters of the general formula are introduced as additional reagent into the air conditioning: x -fe-n A -R, / h where R is methyl, R is phenyl. These compounds are prepared by reacting methyl (phenyl) trialkoxy-substituted with 1,3-diols. Physico-chemical constants of the compounds: t 190-203 (5 mmHg d 1,1294-1.1395;, 5097 1, 5180. P p and m e r. Take a hinge of coal, for example, 0.1 kg, mix with water in a laboratory machine of the type Mekhanobr with a chamber volume of 7.5–10 m for 2 min, then a portion p of the tractor’s kerosene mixture is fed to the bis (1, 3-dio, xa-2-silicyr; logex) -2-silt esters in the ratio 95: 2. After contacting the coal with the reagent, air is supplied to the flotation pulp for 1 min and flotation takes place for 1 min. Air supply to the pulp is stopped, and the next portion of the reagent is supplied, followed by contacting it with coal for 1 m. After the coal is in contact with the reagent, air is again fed to the pulp and the second concentrate is removed from the bis (1, 3-dioxa-2-Cr-1 cyclohexane) -2-methyl esters are fractional. The total consumption of reagents and the amount of dosing in the pulp is determined by its flotation activity. The efficiency of using bis (3-dioxa-2-force1 1clohexane) -2-ylivyk sfir is compared with C. T-66, which is widely used as blowing agent on coal preparation factory. 051 The method of coal flotation was adopted as the base object, concluding (ice in preliminary 11y: conditioning and conditioning with a mixture of tractor kerosene and additional reagent T-66 in a ratio of 98: 2 (prototype). When comparing the results of coal flotation using the new method of flotation and The base object, a mixture of T-66 and tractor kerosene, showed an improvement in flotation indicators using bis (1, 3-dioxa-2-silacyclohexane) -2-silt ethers as additional reagents. The recovery of the combustible mass in the concentrate increases from 84.6-90.1 to 89.894, 7% .... The results of coal flotation using various reagents are shown in Table 1. Consequently, the application of the proposed method for the flotation of coal fines improves the technological performance of coal flotation by increasing the extraction of combustible mass into concentrate The use of chemical compounds of bis (1,3-dioxa-2-silacyclohexane) -2-sludge esters as additional reagents during coal flotation increases the extraction of the combustible mass into the concentrate by 4.6-5.2% compared to using in quality additional reagent T-66 at equal reagent consumption. Improving the floatability of coal fines when bis (1, 3-dioxa-2-silacyclohexane) -2-silt esters are used is explained not only by their good foaming properties, but also by their increased hydrophobization ability upon adsorption on the coal surface. The study of the hydrophobicity of the reagents by setting up flotation experiments in the monyubular apparatus of Halimond showed that the yield of the supernatant using bis (1,3-dioxa-2-silicyclohexane) -2-yl ethers increased from 45.4-51.2 % to 70.080, 5% compared with T-66 (the concentration of reagents in water is 41.6-83.2 mg / l). The improvement of the hydrophobization of coal adsorption of bis (1,3-dioxa-2-stolycyclohexane) -2-ester x esters has a positive effect on the adsorption process of the main collector reagent for tractor kerosene, which determines the improvement of coal floatability using new reagents. Thus, the use of the method makes it possible to increase the extraction of the combustible mass by 4.6-5.2%. Claims Method of coal flotation, including preliminary pulsation of raw materials, mixing of tractor kerosene and additional reagent 054 and conditioning the pulp with the resulting mixture, characterized in that, in order to increase the recovery of the combustible mass, bis is added as an additional reagent (1 , 3-dioxa-2-cilocyclohexane) -2-yl esters of the formula. - V V-o-Le V R -c-O; fC- R (Tii. where R is methyl; R is phenyl.