RU2071388C1 - Method of floatation of copper-pyrite ores containing precious metals - Google Patents

Abstract

FIELD: ore dressing. SUBSTANCE: invention relates to dressing gold-containing sulfide and mixed ores and floatation of gold-containing and nonferrous metal ores. Slurry is agitated in an alkaline medium with copper-containing activator of copper, pyrite, and precious metals in presence of sulfohydryl collectors and blowing agent. Copper minerals, pyrite, and precious metals are isolated in combined concentrate. As above mentioned activators, water-soluble copper polyphosphate complexes are used. EFFECT: enhanced efficiency of process. 1 tbl

Description

 The present invention relates to the field of enrichment of gold-bearing sulfide and mixed ores and can be used in flotation processing of gold-containing ores and non-ferrous ores.

 Ore dressing methods are known in which gold-bearing sulfide ore is ground (usually in a calcareous medium), classified according to a specific size class, pulp is mixed with known reagents - collectors, reagents, blowing agents, and the flotation of copper and gold-containing pyrite minerals is carried out after conditioning the pulp in alkaline medium with reagents activators, such as a complex salt representing a compound of hydrogen peroxide and urea (ed. St. USSR N 740285, CL 03 D 1/02, 1978), sodium phosphate or Lia (auth. binding. USSR N 168212, cl. 1, 10/01, 1963).

 However, the effectiveness of the known methods of flotation processing of certain types of ores is determined in each case by a number of factors (the presence of sulfide and oxidized copper minerals, the presence of free and finely dispersed in gold sulfides, the presence of independent silver minerals, as well as iron sulfides with a changed surface, etc.) and their use for other types of ores is not always possible and effective.

 The closest in technical essence is the method of flotation of copper-pyridic ores containing noble metals, adopted by us as a prototype, including grinding in a calcareous medium, classification, conditioning of pulp in an alkaline medium with a copper-containing activator of minerals of copper, pyrite and noble metals, mixing with sulfide collectors and a blowing agent and the allocation of minerals of copper, pyrite and precious metals into a collective concentrate (A. A. Abramov. Technology for the enrichment of non-ferrous metals. M. Nedra, 1983, p. 116, 121). According to the known method, copper-pyrite ore containing gold and silver is ground and classified in a calcareous medium. In order to increase the extraction of gold and silver, the pulp is conditioned with copper sulfate as an activator of chalcopyrite and pyrite, then it is mixed with sulfhydryl collectors with xanthate and mercaptobenzothiazole and T-80 blowing agent and the minerals of copper, pyrite and noble metals are separated into a collective concentrate.

The disadvantages of this method are:
low efficiency of using copper sulfate as an activator of useful minerals in a calcareous environment, leading to significant losses in the tailings of the flotation of copper, pyrite sulfur, gold and silver;
high costs of copper sulfate (35,140 g / t), which reduces the selectivity of the process.

 The present invention solves the problem of obtaining higher technological indicators by enhancing the selective activation of minerals of copper, silver and gold-containing pyrite during their flotation in a calcareous medium, as well as a significant reduction in the cost of the activator.

 The technical result noted above is achieved by the fact that in the known method of flotation of copper pyrite ores containing noble metals, including grinding, classification, conditioning of pulp in an alkaline medium with a copper-containing activator of minerals of copper, pyrite and noble metals into a collective concentrate according to the claimed proposal, as activator of minerals of copper, pyrite and noble metals, water-soluble complexes of copper polyphosphate are introduced into pulp conditioning.

A known group of phosphorus-containing compounds polyphosphates, for example, pyrophosphate Na ₄ P ₂ O , tripolyphosphate Na ₅ P ₃ O ₁₀ , Graham salt (known under the technical name "hexametaphosphate") and others related to the condensed phosphates of the linear structure of the formula M _{p + 2} P _p O _{3p + 1} , where the number of phosphate atoms is p ≥ 2, and differing from other phosphorus-containing compounds by the peculiarity of the presence of valuable practical properties inherent only to pilophosphates - thinning ability, inhibitory, dispersing and stabilizing and other actions (E. A. Prodan, L. I. Prodan, N, F. Ermolenko. Tripolyphosphates and their use. Publishing House "Science and Technology", Minsk, 1969, with . 8 13, 119, 412 - 413). In addition, the ability of polyphosphates (the so-called sequestering or masking ability) to retain multivalence cations in a solution is known, and with certain quantitative ratios of the metal cation and polyphosphate anion in a certain pH range, form strong soluble complexes with these cations, in particular, with a significant excess of pyrophosphate , tripolyphosphate, Graham salt, the copper cation forms complex anions in a solution of (Cu (P ₂ O ₇ ) ₂ ) ^5- and (Cu (P ₃ O ₁₀ ) ₂ ) ^8- in a slightly alkaline medium, at pH 7-8 - 8.5 (Vahramyan T. A. Guse and GN Kovaleva OI electrolytic brass plating process. Tr. Mosk. Chem and Tech. Institute. Mendeleev N 124, pp. 120132). Polyphosphate copper complexes are used in industry, in particular, when drilling wells as effective plasticizers and so on. (E. A. Prodan et al. Tripolyphosphates and their use. Publishing House "Science and Technology", Minsk, 1969, p. 119 120, m 224, 339 341, 412).

 The essence of the invention is as follows: the original copper pyrite ore containing free and finely dispersed in copper sulfides and pyrite gold, as well as silver tellurides, is ground in a calcareous medium (St. CaO content up to 35 mg / l), classified according to the class of 74 μm ; pulp with a particle size of 72% of the class minus 74 microns is conditioned in an alkaline medium at pH 8.5 to 9.0 with a new activator of copper, pyrite and precious metal minerals with a water-soluble complex of copper polyphosphate, then in the presence of sulfhydryl collectors of xanthate and mercaptobenzothiazole and T-80 blowing agent the minerals of copper, pyrite and precious metals are separated into a collective concentrate.

 The technical result achieved is as follows.

Studies have shown that the introduction into conditioning pulp of copper-pyrite ore containing noble metals, at high alkalinity of the pulp (pH 8.5 to 9.0) of a new activator of copper minerals, pyrite and noble metals, a water-soluble complex of copper polyphosphate unexpectedly allowed to obtain higher technological indicators by reducing losses with tailings of the collective flotation of copper, pyrite sulfur, gold and silver. In the course of studies it was found that this creates conditions for enhancing the selective fixation of xanthate on useful minerals in the presence of a water-soluble complex of copper polyphosphate;
the level of alkalinity of the pulp during separation (pH 8.5 to 9.0) provides the conditions for being in the liquid phase of the pulp and the active interaction with the surface of copper minerals, gold-containing pyrite and silver tellurides of copper-polyphosphate complex anions (know-how of the proposed method), contributing to selective fixing on these surfaces of the collector;
the coincidence of the levels of alkalinity of the pulp and the presence in the liquid phase of copper-polyphosphate complex anions can significantly reduce the consumption of activator to obtain the optimal technological effect.

 A significant difference between the proposed solution and the prototype and its advantage is that in the proposed method, as a new activator of minerals of copper and silver, free gold and gold-containing pyrite, a water-soluble complex of copper polyphosphate is introduced into the conditioning of alkaline pulp, the use of which as a flotation reagent was not revealed in the study of the patent and scientific and technical literature.

 The following are examples confirming the possibility of carrying out the claimed invention.

 Example 1 (implementation of the proposed method).

 Copper pyrite ore, containing 1.53% copper, 1.3 g / t gold, 14.8 g / t silver and 21.9% pyrite sulfur, is ground in a calcareous medium (St. CaO content ≅ 35 mg / l) , after classification, the pulp with a particle size of 72% of the class minus 74 μm is conditioned for 3 min in an alkaline medium at pH 9.0 with a water-soluble complex of copper pyrophosphate (phosphate ion flow rate 20 g / t), then collectors are introduced: xanthogenate 70 g / t and mercaptobenzothiazole 30 g / t, after stirring for 3 min in the presence of T-80 blowing agents, 16 g / t release copper, silver and ash minerals into the foam product pyrite containing pyrite for 10 minutes; after purging for 7 min in the presence of 20 g / t of xanthate, a collective copper-pyrite concentrate containing gold and silver is obtained: dump tailings are the chamber product of collective flotation. The experiments were conducted in a closed cycle.

As a result of flotation received:
collective concentrate with a copper content of 4.32% gold 3.34 g / t, silver 39.55% and sulfur 47.3% and extraction of copper 96.12% gold 87.3% silver 90.86% and sulfur 73 , 48% yield call. concentrate 34%
dump tailings with a copper content of 0.09% gold 0.25 g / t, silver 2.05 g / t, sulfur 8.8% and copper recovery 3.88% gold 12.7% silver 9.14% and sulfur 26.5- (see table, op. 4).

 Example 2 (implementation of the prototype method).

 The copper-pyrite pulp containing precious metals and ores of the same composition (see Example 1) is conditioned in a calcareous medium (St. CaO ≅ mg / l) with copper sulfate 100 g / t for 3 min, then mixed with xanthate collectors 70 g / t and mercaptobenzothiazole 30 g / t, then, in the presence of T-80 blowing agent, 16 g / t float minerals of copper, silver and gold-containing pyrite in the foam product for 10 min; after purging for 7 min in the presence of 20 g / t of xanthate, a collective copper-pyrite concentrate containing gold and silver is obtained; chamber product emit dump tailings.

As a result of flotation received:
a collective concentrate with a copper content of 4.42% gold 3.09 g / t, silver 37.6 g / t and sulfur 42.2% and copper 92.97% gold 78.04% silver 83.34% and sulfur 61.83%
dump tailings with a copper content of 0.16% gold 0.42 g / t, silver 3.60 g / t, sulfur 12.47% and copper recovery 7.03% gold 21.96% silver 16.66% and sulfur 38.17% (see table, op. 1).

 The table shows the results of collective flotation under various conditions of activation of copper, silver, and gold-containing pyrite minerals: in the presence of a pyrophosphate complex of copper with a ratio of copper and pyrophosphate of 1: 5 10 g / t phosphate ion (op. 2), 15 g / t ( op. 3), 20 g / t (op. 4) 30 g / t (op. 5); in the presence of a copper pyrophosphate complex at a ratio of copper and pyrophosphate of 1:10 20 g / t in phosphate ion (option 6; and in the presence of a tripolyphosphate copper complex at a ratio of copper to tripolyphosphate of 1 5 15 g / t in phosphate ion (op. 7 ); in the presence of a copper hexametaphosphate complex at a ratio of copper to hexametaphosphate 1 5 15 g / t in phosphate ion (option 8); in the presence of a mixture of copper and pyrophosphate in a ratio of 1 2 (at this ratio precipitate) 20 g / t phosphate ion (op. 9).

 As can be seen from op. 9, the use of copper pyrophosphate as an activator, which is a finely divided precipitate at a ratio of copper to pyrophosphate 1 2, worsens flotation performance compared to the prototype method in which copper sulfate is used in an alkaline medium (op. 1).

 As shown by the results of experiments (2-8), the use of polyphosphate copper complexes as an activator provides equally efficient flotation of copper, gold, silver, and sulfur, regardless of the number of phosphate atoms in the polyphosphate anion.

 There is a certain limit to the optimal ratios of copper and pyrophosphate ions, ensuring the presence in the solution of the maximum amount of water-soluble complexes of copper polyphosphates (op. 4, 6, 9), as well as the optimal consumption of activator (op. 2, 3, 4, 5).

The advantages of the proposed method of flotation of copper-pyrite ores containing precious metals:
the possibility of obtaining high technological parameters of the flotation of minerals of copper, silver, gold-containing pyrite from lime pulps by enhancing the selectivity of the process;
cost reduction due to low costs of the new activator reagent.

Claims (1)

 A method of flotation of copper pyrite ores containing precious metals, including grinding, classification, conditioning of pulp in an alkaline medium with a copper-containing activator of copper, pyrite and noble metal minerals, mixing with sulfide collectors and a blowing agent, and the separation of copper, pyrite and noble metal minerals into a collective concentrate characterized in that as an activator of the minerals of copper, pyrite and noble metals, water-soluble complexes of polyphosphate me and.

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