RU2538559C1 - Preparation method of minerals for testing of action of floatation reagents for benefication of platinum-bearing ores and their benefication products - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: preparation method of minerals for testing of an action of floatation reagents, for benefication of platinum-bearing ores and their benefication products involves mixing of a mineral with a platinum-bearing reagent, separation, water washing and drying in the air of a solid phase. As a platinum-bearing reagent, a colloidal sol of platinum is used, which is obtained at the ratio of a chloroplatinic acid and a reducing agent with stabilising properties of 1:(0.1-0.75).

EFFECT: improving efficient preparation of minerals for testing of action of new floatation reagents.

2 dwg, 1 tbl, 1 ex

Description

The invention relates to the field of mineral processing, in particular to flotation separation of noble metals and sulfide minerals with associated noble metals from crushed raw materials, and can be used in the study of new flotation reagents designed to enrich platinum-containing ores and enrichment products containing noble metals.

It is known that the effectiveness of reagents in the flotation of precious metals is usually evaluated on concentrates and ore products. Such a research method is expensive due to the high cost of analyzes for the content of gold or platinum metals in the obtained flotation products and is not informative enough to obtain reliable information about the selectivity of reagent fixation on nanosized particles of noble metals.

There is a method of preparing minerals that simulates the natural activation of the surface of silicate minerals by alkaline earth metal ions in order to study the mechanism and methods of deactivation of these minerals and adsorption of flotation collectors [Methods for the study of the flotation process. Melik-Gaykazyan V.I., Abramov A.A., Rubinstein Yu.B. and others. - M .: Nedra, 1990. - S.121-122].

The disadvantage of this method is that in this method the preparation of minerals is carried out to study the effect of oxyhydryl collectors on the flotation of quartz.

Known methods for producing catalysts in which chemically reduced colloidal sols of noble metals are applied to the surface of the supports, or the sol is formed directly in the presence of the support. In the preparation of colloidal sols of platinum metals, sodium citrate or tannin reducing agents having stabilizing properties can be used. The concentration of stabilizer affects the size and stability of the resulting colloidal particles. Platinum sols with average sizes of 1.5–4 nm are formed upon the reduction of PCVC with an excess of sodium citrate [Chemical precipitation of metals from solutions. Sviridov V.V., Vorobyova T.N., Gaevskaya T.V., Stepanova L.I. Universitetskoye Publishing House - Minsk - 1987, pp. 122-127].

The disadvantage of this method is that for the preparation of catalysts, Al (OH) ₃ , TiO ₂ , SiO ₂ , MgO, CaCO ₃ and other non-sulfide minerals are used as carriers, and the sol is obtained with an excess of reducing agent.

The closest in technical essence and the achieved result is a method for preparing sulfide minerals by treatment with a solution of platinum chloride, as a result of which irregular islet precipitations of metal platinum appear on the surface of the sulfide mineral during reductive adsorption [TV Nedosekina, T. Ivanova, V. Stepanova .AT. Study of the interaction of complexing agents with platinum under flotation conditions. // Mountain Information and Analytical Bulletin - 2006. - No. 8. Chanturia V.A., Nedosekina T.V., Stepanova V.V. Experimental and analytical methods for studying the influence of complexing agents on the flotation properties of platinum. // FTPPRI. - 2008. - No. 3, p. 68 (prototype)].

The disadvantages of this method are significant changes in the hydrophobic properties of the surface of the carrier mineral under the influence of chlorine-containing acid, as well as the uneven structure of the coating of mineral particles, which differs in large islet precipitations of platinum and therefore does not ensure reproducibility of the results of flotation and sorption experiments.

The purpose of the invention is to increase the efficiency of preparing minerals for studying the action of new flotation reagents designed for the selective separation of nanosized particles of noble metals from ores and enrichment products, for example platinum and platinum-containing minerals, in a flotation concentrate.

The technical result obtained by the implementation of the method is to obtain samples of minerals that mimic natural objects containing colloidal particles of platinum on the surface to conduct a quick and inexpensive experimental assessment of the selective properties of new flotation reagents.

This goal is achieved by using the preparation of minerals before researching new flotation reagents, including the preparation of a colloidal sol of platinum and the adsorption of sol on the surface of the carrier mineral. Moreover, a solution of platinum chloride is used as a platinum-containing solution, and tannin or another reducing agent with stabilizing properties is used as a reducing agent with stabilizing properties. The ratio and concentration of the components are chosen so that the average diameter of the platinum particles deposited on the mineral is 50-200 nm, and the thickness of the ligand layer of the stabilizer formed on the surface of the mineral particles does not lead to a decrease in the rate of adsorption of the reagents and does not slow down the flotation process. As a carrier mineral, pyrrhotite or another mineral, a natural carrier of noble metals, is used. To ensure a more uniform distribution of Pt particles over the surface of the support, it is proposed to obtain a colloidal sol directly in the presence of the support.

The invention is illustrated by drawings, where figure 1 shows a micrograph of a particle of pyrrhotite with irregular islet precipitations of metal platinum taken from a sample of pyrrhotite prepared for research of reagents according to the prototype (Platinum deposited on pyrrhotite. The sample was prepared by the prototype method). Figure 2 shows a micrograph of a pyrrhotite particle with colloidal Pt particles uniformly distributed over the surface of the carrier, prepared for studies of reagents according to the method of preparing minerals for studying the action of flotation reagents for the enrichment of platinum-containing ores and products of their enrichment (Platinum deposited on pyrrhotite. The sample was prepared by the proposed method). The table shows the results of parallel flotation experiments of pyrrhotite, artificially enriched with platinum, according to the proposed method and the prototype method, in the presence of MTX and BKS collectors and their combinations.

The method is implemented as follows. A glass container equipped with a Teflon stirrer is mounted on the heater, deionized water is poured and heated to 60 ° C, a solution of platinum hydrochloric acid and a solution to neutralize the acid are added. The mixture is brought to a boil. Then, with vigorous stirring, a solution, for example, tannin, is introduced and crushed pyrrhotite is added. The resulting suspension containing a colloidal sol of platinum and pyrrhotite is mixed. The solid phase is separated, washed with water and dried in air.

In a preferred embodiment, a ratio of platinum hydrochloric acid to tannin is used, from 1: (0.1-0.75). The average diameter of platinum neoplasms deposited on pyrrhotite particles, according to the results obtained on SEM LEO 1420VP, was 60-150 nm, and platinum neoplasms were uniformly distributed over the surface of mineral particles.

When implementing the method using:

- deionized, double-distilled water GOST 6709-72;

- 1.4% aqueous solution of potassium carbonate K ₂ CO ₃ grade HCh; GOST 4221-76;

- 0.1% aqueous solution of tannin C ₇₆ H ₅₂ O ₄₆ grade H; TU 6-09-50-23-66-8;

- 0.2% solution of platinum hydrochloric acid H ₂ [PtCl ₆ ] 6H ₂ O (PCVC);

- carrier mineral (monomineral fraction of pyrrhotite containing at least 95% of the main mineral).

To obtain a platinum sol in laboratory conditions, deionized water is poured into a flask with a reflux condenser, which is heated, a solution of a platinum-containing reagent and a neutralization reagent are introduced. The solution was brought to a boil. Then, with vigorous stirring, a reducing agent with stabilizing properties and a crushed mineral are introduced. The resulting suspension containing a colloidal sol of platinum and pyrrhotite is mixed. The solid phase is separated, washed with water and dried in air.

To confirm the effectiveness of the developed method, the surface of the mineral after platinum deposition is examined on a LEO 1420VP analytical scanning electron microscope with an INCA 350 X-ray energy dispersive microanalyzer. A series of flotation studies of a new collector reagent were performed on the mineral samples prepared by this method.

Example

Pour 100 ml of deionized water into the flask, which is heated to 60 ° C, add 5 ml of a 0.2% solution of platinum hydrochloric acid and 2.5 ml of a 1.4% solution of potassium carbonate, and bring the mixture to a boil. Then, with vigorous stirring, 5 ml of a 0.1% tannin solution and 10 g of pyrrhotite (particle size - 0.063 + 0.044 mm) are introduced. The resulting suspension containing a colloidal sol of platinum and pyrrhotite is stirred for 15 minutes. The solid phase is separated, washed with water and dried in air.

According to the results obtained using an electron microscope, the average diameter of tumors of platinum deposited on the particles of pyrrhotite by the proposed method was 100 nm. The average platinum content in the resulting sample (0.52 mg Pt / g).

In a similar way to obtain a sol of platinum in the ratio of PCVC and tannin 1: 0.1; 1: 0.25; 1: 0.75; 1: 1; 1: 2, 1: 5. Adsorption of Pt from sol on a mineral is carried out at a weight ratio of mineral to water phase (T: G) of 1: 5; 1:10; 1:20.

From experimental data it follows that after contact with the sol obtained in the ratios of PCVC and tannin 1: 1; 1: 2, 1: 5, increases the thickness of the ligand layer of the stabilizer formed on the surface of the mineral particles, which leads to a decrease in the flotation rate. Therefore, it is preferable to obtain rats using the ratio of 1: (0.1-0.75).

When studying the combination of a new flotation reagent MTX and butyl xanthogenate (BCS), the reliability of the results of flotation experiments conducted on samples of pyrrhotite with platinum was 95%.

The table shows the results of parallel flotation experiments using xanthate (BKS) and MTX reagent conducted on mineral samples prepared in the conditions of the prototype method and the proposed method. From the results of the table it follows that the convergence of parallel experiments in the proposed method is higher than in the prototype method.

Claims (1)

A method of preparing minerals for studying the action of flotation reagents for the enrichment of platinum-containing ores and products of their enrichment, including mixing the mineral with a platinum-containing reagent, isolating, washing with water and drying the solid phase in air, characterized in that the platinum-containing colloidal sol obtained when the ratio of platinum hydrochloric acid and a reducing agent with stabilizing properties of 1: (0.1-0.75).

Images