RU2810376C1 - Composition of reagents for flotation enrichment of gold-containing sulfide ore - Google Patents

Abstract

FIELD: mineral processing.

SUBSTANCE: used for flotation of precious metal ores. The composition of reagents for flotation enrichment of gold-containing sulfide ore includes a collector, which is 2-methyl-3-butyn-2-ol, a foaming agent, which is methylisobutylene carbinol - MIBC in an amount of 30 g/t, and an activator - copper sulfate - CuSO₄, in this case, 2-methyl-3-butyn-2-ol is used in an amount of 10 g/t of ore, and copper sulfate in an amount of 50 g/t. According to the second option, the composition of reagents for flotation enrichment of gold-containing sulfide ore includes a mixture of collectors consisting of potassium butyl xanthate - PBX in an amount of 100 g/t, sodium dialkyldithiophosphate - BTP in an amount of 65 g/t and 2-methyl-3-butyne-2- ol in an amount of 5 g/t, blowing agent methylisobutylenecarbinol - MIBC in an amount of 30 g/t, activator, which is used as copper sulfate CuSO₄ in an amount of 50 g/t, and a depressant, which is used as betasulfonaphthalene formaldehyde sodium salt - Orophlos in the amount of 104 g/t.

EFFECT: increasing the efficiency of gold extraction.

3 cl, 1 tbl, 8 ex

Description

The invention relates to the field of mineral processing and can be used for flotation of precious metal ores.

Currently, compositions consisting of a collector and a foaming agent are used for flotation of precious metal ores. In this case, waste from various chemical industries is usually used as a foaming agent, such as the bottoms of rectification of dimethyldioxane Oxal T 80 or waste from the production of synthetic rubber (Abramov A.A. Flotation methods of enrichment. M.: Nedra, 1984, pp. 192-203; Pat. 2452584 C2, 06/10/2012 Bulletin No. 16). Compositions of this type do not allow obtaining sufficiently high recovery rates of non-ferrous and precious metals.

A known flotation method using a flotation reagent for foam flotation of sulfide ores of non-ferrous metals based on organic sulfide and thiophosphate. A mixture of tertiary branched alkylalkenyl sulfides is used as an organic sulfide (Khersonsky M.I., Desyatov A.M., Mantsevich M.I. et al. Flotation reagent for foam flotation of sulfide ores of non-ferrous metals. Pat. No. 2002105264. IPC B03D 01/014, 10.10.2003 ). The disadvantage of this method is that these reagents are difficult to synthesize and expensive, and in addition, they are not selective enough with respect to gold.

A known composition for flotation of minerals consists of a foaming agent based on C ₈ -isoalkenylacetylene alcohol DMIPEK (RF Patent No. 2190481 // 10.10.2002. Bulletin No. 28). As a collector during the flotation of non-ferrous and precious metal ores in the mentioned composition, heteropolar sulfur-containing organic compounds - alkyl xanthates and aeroflots - are usually used. The disadvantage of the composition is the insufficient efficiency of the process.

The closest to the proposed method of the invention is a composition comprising a foaming agent based on isoalkenylacetylene alcohols and a collector. A foaming agent based on the above isoalkenylacetylene alcohols has the following composition: isoalkenylacetylene alcohol C ₉ -C ₁₀ of the general formula RCH=CR'C=CC(CH ₂ R'')=CHR''(CH ₃ )OH: 80.0-99.0 % (where R=H, CH ₃ ; R'=CH ₃ , C ₂ H ₅ ; R''=H, CH ₃ ); diisoalkenylacetylenes C ₉ -C ₁₀ of the general formula RCH=CR'C=CC(CH ₂ R'')=CHR'': 0-20%; α-acetylene tertiary γ-diols C ₉ -C ₁₀ of the general formula (RCH ₂ )(CH ₃ )C(OH)C=C(CH ₂ R'')(CH ₃ )OH: 0-5% (where R= H, CH ₃ ; R'=CH ₃ , C ₂ H ₅ ; R'=H, CH ₃ ); radical polymerization inhibitor: 0-1%. Phenols or 2-(phenylamino)naphthalene (neozone D) are used as radical polymerization inhibitors (1 Pat. RF No. RU 2270725 C1 // 02.27.2006). The disadvantage of the method using a composition based on the above foaming agents, which are unsaturated acetylene alcohols, is the multicomponent nature and the need to use a radical polymerization inhibitor.

The proposed invention is aimed at solving the issues of minimizing and simplifying the component composition for gold flotation. The purpose of the invention is to increase the level of extraction of the target component. The technical result is increasing the efficiency of gold extraction and simplifying the component composition.

The technical result is achieved by the fact that in the composition of reagents for flotation enrichment of gold-containing sulfide ore, including a collector, which is used as 2-methyl-3-butyn-2-ol, a foaming agent, which is used as methyl isobutylene carbinol - MIBK in an amount of 30 g/t and the activator is copper sulfate - CuSO ₄ , while 2-methyl-3-butyn-2-ol is used in an amount of 10 g/t of ore, and copper sulfate in an amount of 50 g/t; in a composition of reagents for flotation enrichment of gold-bearing sulfide ore, including a mixture of collectors consisting of potassium butyl xanthate - BKK in an amount of 100 g/t, sodium dialkyldithiophosphate - BTF in an amount of 65 g/t and 2-methyl-3-butyn-2-ol in the amount of 5 g/t, the blowing agent is methylisobutylenecarbinol - MIBK in the amount of 30 g/t, the activator is copper sulfate CuSO ₄ in the amount of 50 g/t and the depressant is used as beta sulfonaphthalene formaldehyde sodium salt - Oroflos in the amount of 104 g /T.

To solve the problem posed for gold flotation, a method is proposed that uses a composition containing a foaming agent and a collector based on acetylene alcohol (HC=C-C(Me) ₂ OH). The proposed collector 2-methyl-3-butyn-2-ol can be obtained from acetone according to the method [Organic Syntheses, Coll. Vol. 3, p. 320 (1955); Vol. 20, p.40 (1940). DOI: 10.15227/orgsyn.020.0040]. The inventive composition for flotation of precious metals contains methyl isobutylene carbinol - MIBK - as a foaming agent.

The essence of this technical solution is illustrated by specific examples of its implementation.

Example 1. Sulfide ore of a gold deposit with a gold content of 0.5 g/t was crushed to contain particles with a diameter of less than 0.071 mm in an amount of 95 wt. %. The mixture of ore and the required amount of mineral water was subjected to intensive stirring for 10 minutes. Then copper sulfate (CuSO ₄ ), sulfonaphthalene formaldehyde sodium salt (Oroflos D), a collector and a foaming agent were added. BKK (potassium butyl xanthate) and BTF-1552 (sodium dialkyldithiophosphate) were used as a collector, MIBK (methyl isobutylene carbinol) was used as a foaming agent, the flotation time was 10 minutes. The test result is shown in Table 1 (Example 1).

Example 2. It was carried out similarly to example 1. A mixture of BKK (potassium butyl xanthate), BTF-1552 (sodium dialkyldithiophosphate) and 2-methyl-3-butyn-2-ol was used as a collector. The test result is shown in Table 1 (example 2).

Example 3. Conducted similarly to example 1. A mixture of BTF-1552 (sodium dialkyldithiophosphate) and 2-methyl-3-butyn-2-ol was used as a collector. The test result is shown in Table 1 (example 3).

Example 4. Conducted similarly to example 1. A mixture of BKK (potassium butyl xanthate) and 2-methyl-3-butyn-2-ol was used as a collector. The test result is shown in Table 1 (example 4).

Example 5. Conducted similarly to example 1. Only 2-methyl-3-butyn-2-ol was used as a collector in an amount of 5 g/t. The test result is shown in Table 1 (example 5).

Example 6. Conducted in the absence of sulfonaphthalene formaldehyde sodium salt - Oroflos. The collector used exclusively was 2-methyl-3-butyn-2-ol in an amount of 5 g/t. The test result is shown in Table 1 (example 6).

Example 7. Conducted similarly to example 6. Only 2-methyl-3-butyn-2-ol was used as a collector in an amount of 10 g/t. The test result is shown in Table 1 (example 7).

Example 8. Conducted similarly to example 6. Only 2-methyl-3-butyn-2-ol was used as a collector in an amount of 20 g/t. The test result is shown in Table 1 (example 8).

BKK - potassium butyl xanthate;

BTP - sodium dialkyldithiophosphate;

Oroflos - sulfonaphthalene formaldehyde sodium salt;

MIBK - methylisobutylenecarbinol

CuSO ₄ - copper sulfate

When conducting studies using the presented set of reagents, the yield of the product was recorded, as well as the extraction of the valuable component (Au). The use of 2-methyl-3-butyn-2-ol is proposed as a replacement for one of the main heteropolar collectors.

As a result of the experiment, it was found that 2-methyl-3-butyn-2-ol does not have a positive effect when used in a mixture with the BTF-1552 reagent and reduces recovery when used with potassium butyl xanthate (BPX).

It was found that the use of 2-methyl-3-butyn-2-ol (in an amount of 10 g/t) without the use of main collectors, but with the use of a methyl isobutylene carbinol foaming agent - MIBK (in an amount of 30 g/t) and a copper sulfate activator - CuSO ₄ (in an amount of 50 g/t), leads to an increase in the extraction of the valuable component by 1.49% relative to the base formulation (example 7). Increasing the amount of 2-methyl-3-butyn-2-ol to 20 g/t is not advisable, since it leads to a decrease in the degree of gold recovery (example 8). At the same time, a high degree of extraction was established using a combination (example 2) of copper sulfate reagents - CuSO ₄ (50 g/t), potassium butyl xanthate - BKK (100 g/t), sodium dialkyldithiophosphate - BTF (65 g/t), sulfonaphthalene formaldehyde sodium salt - Oroflos, methylisobutylenecarbinol - MIBK (30 g/t) and 2-methyl-3-butyn-2-ol (5 g/t).

Claims (2)

1. Composition of reagents for flotation enrichment of gold-containing sulfide ore, including a collector, which is used as 2-methyl-3-butyn-2-ol, a foaming agent, which is used as methylisobutylene carbinol - MIBK in the amount of 30 g/t, and an activator, copper sulfate - CuSO ₄ , while 2-methyl-3-butyn-2-ol is used in the amount of 10 g/t of ore, and copper sulfate in the amount of 50 g/t. 2. Composition of reagents for flotation enrichment of gold-bearing sulfide ore, including a mixture of collectors consisting of potassium butyl xanthate - BKK in an amount of 100 g/t, sodium dialkyldithiophosphate - BTP in an amount of 65 g/t and 2-methyl-3-butyne-2- ol in the amount of 5 g/t, blowing agent methylisobutylenecarbinol - MIBK in the amount of 30 g/t, activator, which is copper sulfate CuSO ₄ in the amount of 50 g/t, and a depressant, which is betasulfonaphthalene formaldehyde sodium salt Orophlos in the amount of 104 g/t.