SU1084078A1 - Method of flotation of gas coals of low stage of metamorphism - Google Patents

Abstract

The method of flotation of gas coals of a low stage of metamorphism, including mixing of the collector, T-80 foaming agent and preconditioning of the initial gas with the obtained reagent mixture, is characterized in that, in order to increase the extraction of the combustible mass into the concentrate, increase the flotation rate and reduce the reduction of the discharge of the combustible mass, and reduce the waste. by stirring with a blowing agent, they are treated with 2-mWh12, 3-epoxy-4-pentanone, and an absorbent is added as a collector. 2. The method according to claim 1, wherein the ratio of the absorbent, 2-metsh-2-2, 3-epoxy-4-pentai non and foaming agent T-80 is from 98.5: 0.3: 1.2 to 98.65: 0.35: 1.0. (L

Description

ac 4

00 The invention relates to the field of mineral processing by flotation, in particular gas coal. A known method of flotation gas 5 coal of a low degree of metamorphism using tractor kerosene with a heavy fraction of anthracene oil in the ratio of 1: 2.5 as a reagent. 13. A disadvantage of this method is the high consumption of reagents (1.8 kg / t) used for coal flotation and low extraction of combustible mass into concentrate. 15 The closest to the proposed technical result and the achieved effet is the method of flotation of gas coals of low metamorphism stage, including mixing of 20 subeletels,. foaming agent T-80 and preconditioning of the starting material with the resulting mixture of reagents C2. The disadvantage of this method is a comparatively high extraction of the combustible mass into the concentrate with a high consumption of the reagent mixture. The purpose of the invention is to increase the recovery of the combustible mass in the concentrate, increase the flotation rate and reduce the consumption of reagents. The goal is achieved by the fact that according to the method of flotation of gas coals of low metamorphic stage, including mixing of the collector, T-80 foaming agent and preconditioning of the raw material with the obtained reagent mixture, the collector collected before mixing with the blowing agent: m treated with 2 methyl-2.3 epoxy-4 - peptanone, and an absorbent is introduced as a collector. With this ratio of absorbent, 2-methyl-2,3-epoxy-4-pentaion and foaming agent T-80, it ranges from 98.5: 0.3: 1.2 to 98.65: 0.35: 1.0. Absorbent having the following physicochemical parameters is used as a collector reagent: Group chemical composition, wt.% Paraffin and naphthenic hydrocarbons 5.1-15.2 unsaturated carbon-55 levorodo with one, two double bonds mi 16.5-26 , 3 p and p jH x n. s s ae s e p s e 5 s c s p n: n, l aromatic 78.0-59.2 hydrocarbons ketones of cyclic and aliphatic 0.3-5.1 polycyclic numbers with unsaturated 0.1-0 , 2 I compounds 0.85-0.87. Density, g / cm FractionalIon composition: THIC J С 90-110 Boils away at С 10% 130-140 30% 150-160 50% 170-Т80 70% 90% 208-225 223-243 к - Residue after distillation,% 3-5 Resins, mg / 100 ml 500-1300 Carbonyl, wt.% 0.3-5.1 Iodine number, g / 100 g 60-90 Absorbent Is used as a waste dukf dehydrogenation of butanapentane. As a modifier reagent, 2-methyl-2, 3-zpoxy-4-penta is altered, which has the following physical characteristics: Boiling point, C, Refractive index1, 4210 Density, g / cm 0.9754 Results of gas flotation Metamorphism stages with the use of various reagents are presented in the table. Increasing the content in the rent-modifier mixture - 2-methyl-2,3xxy-4-pentanone to 0.5%, as well as reducing it in the mixture to 0.1 worsening, technical and economic indicators of the coal flotation process. For example, the use of mix. reagent-absorbent: 2 metsh1-2,3xy-4-pentanone: T-80 in the ratio of 8: 0.1: 1.1 leads to a decrease in the calculation of the combustible mass in the concentrate 4.0% -94.9% to 88% by compared to a reagent ratio of 98.5: 0.3: 1.2 equal to the flow rate of the reagent mixture. An increase in 2-MetSh1-2,3-zpoxy-4thanone in a mixture of up to 0.5% (98.5: 0.5: 1) leads to a deterioration in the selectivity of the flotation process of coal mei. Ash Flotation End Waste

increases from 8.8–9.4% to 10.6–10.9% with an equal extraction of the combustible mass into the concentrate as compared with the mixture 98.5: 0.3: 1.2 - 98.65: 0.35: one. The efficiency ratio of flotation, when the reagent 2metx-1-2, 3-epoxy-4-pentanone mixture in the mix increases from 0.30, 35 to 0.5, decreases from 0.889-0.892 to 0.867-0.87.

Consequently, the most optimal ratio of the absorbent, 2-methyl2, 3-epoxy-4-pentanone T-80, which allows to obtain the highest recovery of the combustible mass in the concentrate, improve the selectivity of the process of photoproduction, reduce the consumption of the reagent mixture, is 98.5 : 0.3: 1.2 to 98.65: 0.35: 1.0.

The method is carried out as follows.

The absorbent is treated with 2-methyl2, 3-epoxy-4-pentanone and mixed with a collector. The resulting mixture is introduced into the pulp, conditioned and floated.

PRI me R. To realize the process, we take a sample of coal, for example, 100 g, mix it with water in a laboratory machine of the type Mechanobr with a volume of 0.7 l for 2 minutes. Then, a portion of the reagent mixture is prepared in the process, prepared as follows: “the collector reagent is treated with the modifier — 2-methyl-2,3-epoxy-4-pentanone (0.2-0.3%, followed by the addition of a surfactant to the modified reagent-collector). active reagent, for example T-80, (1.01, 2%). After contacting the coal with the reagent mixture for 1 min, air is fed into the flotation pulp and flotation is performed for 1 min. Air supply to the pulp is stopped and fed the next portion of the mixture of reagents followed by agitation minutes and flotation. The total consumption of the reactant mixture and its amount of metering operations and the pulp was determined by the activity of the flotation reagent mixture.

For comparison with the prototype, a mixture of tractor kerosene with bottom residues of 4,4 dimethyl-1, 3-dioxane (T-80) is used.

The ratio of tractor kerosene T-80 in the study is 98.8: 102-98.5: 1.5. The remaining operations of the coal flotation process remain unchanged.

The results of laboratory studies have shown that the use of a mixture of absorbent, 2-methyl-2,3 - ethoxy-4-pentanone and T-80 as a reagent in a ratio of 98.8: 0.2: 1 can significantly improve the flotability of gaseous coal of the low metamorphic stage compared with a mixture of tractor kerosene T-80 (98.81: 1,2),

So, for example, to extract the combustible mass into concentrate (84.3%), the consumption of the base mixture of reagents is 1.40 kg / t, and using the proposed method allows reducing the consumption of the reagent mixture to 0.285-0.380 kg / t while increasing combustible mass in concentrate up to 90.7-92.3%. The flotation time is reduced from 300 s to 180 s. The efficiency ratio rises from 0.861 to 0.892.

Increasing the reagent-foaming agent in the base mixture to 1.5% slightly improves the flotation process of coal fines. At a flow rate of 1.4 kg / t, the extraction of combustible mass in the concentrate rises to 88.4%, and the efficiency ratio rises from 0.8–1 to 0.867. However, the consumption of the basic mixture of reagents is very high, and the extraction of the combustible mass in the concentrate is low compared with the proposed

a mixture of reagents.

I

Thus, the use of the mixture makes it possible to increase the extraction of combustible mass into the concentrate by 7.4-10.6% to reduce the consumption of reagents by 3 times, to increase the flotation rate of gas, low-stage metamorphism coal.

Tractor

T-80 kerosene

300

0.560

0,280 0,280

0,280 0,280 1,400

180 0.560

four

0,280

T-80

2-Methyl2-3-epoxy-4pentanone

0.840

240 0.560 0.280 0.280 1.120 0.560

300 0.560 0.280 1.400

120

8.8: 0.1: 1., 0.095 0.095 0.190

180 0.190 0.095 0.285

180 0.190 0.190 0.380

T-80

2-Methyl2, 3-epoxy-Pentanone

eight

1084078 Continuation of the Table

120

8.8: 0.2: 1.0 0.095 0.095 0.190

180 0.095 0.095

180 0.095 0.285 0.190

180 0.095 0.095 0.380 0.190 0.190 0.095

0.475

240 8.6: 0.2: 1.2 0.095

0.095 0.095 o, 095

0.380

180 98.5: 0.3: 1.2 0.190

0.095 0.095 0.380

98.65: 0.35:

240

: 1,00,190

0.095 0.095 0.380

ten

1084078 Continuation of the table

180

8.5: 0.5: 1.0 0.190 0.095 0.285

240 0.190

0.095 0.095

0.380 0.190

300 0.190 0.095 0.475

Table continuation

eleven

1084078

12 1 table continuation

13

1084078

14 Continuation of the table

Claims (2)

^ METHOD OF GAS COAL FLOTATION OF A LOW STAGE OF METAMORPHISM, including mixing the collector, T-80 blowing agent and pre-conditioning the feedstock with the obtained mixture of reagents, characterized in that, in order to increase the extraction of combustible mass into the concentrate, increase the flotation rate and reduce the consumption of reagents, the collector before stirring with a blowing agent, 2-methyl- 2,3-epoxy-4-pentanone, and an absorbent is introduced as a collector. 2. The method of pop. 1, characterized in that the ratio of absorbent, 2-methyl-2, 3-epoxy-4-pentarone and T-80 blowing agent is from 98.5: 0.3: 1.2 to 98.65: 0.35: 1.0. SU. „. 1084078 1 1084078