SU1661233A1 - Method of biochemical leaching of lean ores - Google Patents

Abstract

The invention relates to the bioleaching of precious and non-ferrous metals. The purpose of the invention is to increase the recovery rate. The leaching of metals, such as gold and mercury, is carried out using the alkaline residue from the production of ergosterone, which is the bottom residue of distillation of the alkaline-alkaline hydrolyzate of baker's yeast, as the leaching reagent. The method allows to increase the degree of extraction of metals from hard-to-recover ores and tailings. 3 tab.

Description

one

(21) 4665761/02 (22) 09.01.89 (46) 0707.91.Byul # 25

(71) Institute of Mineral Resources

(72) V.V. Medvedkova, A. N. Grebnev and E. P. Andreeva

(53) 669.21 / 791.3 (088.8)

(56) Metallurgists, 1986, 5G282DEP TU 64-60431-5, 06-89.

Non-ferrous metals, 1987, No. 11, p. 106-108. (54) METHOD OF BIOCHEMICAL LEAKING OF VALUABLE COMPONENTS FROM POOR ORES

(57) The invention relates to the bio-leaching of precious and non-ferrous metals. The purpose of the invention is to increase the recovery rate. The leaching of metals, such as gold and mercury, is carried out using an alkaline residue from the production of ergosterone, a vat residue from the alcohol-alkaline hydrolyzate of baker's yeast, as a leaching agent. The method allows to increase the degree of extraction of metals from hard-to-recover ores and tailings 3 table.

The invention relates to the metallurgy of non-ferrous and noble metals, in particular to biochemical methods of extraction.

The aim of the invention is to increase the recovery rate

The method is carried out as follows.

Distillation residues of alcohol-alkaline hydrolyzate of Baker's yeast - waste of ergosterone production (Vit.Dz) is used as a leaching agent. The alkaline waste reagent (alkali) used is a dark brown opaque liquid with the following technical properties: KOH 11–13%, HPK37000 mg / l, ash residue 21000 mg / l, dry residue 39000 mg / l, specific gravity 1.171 g / mm3.

The studies are carried out on gold-bearing ores, in which the bulk of gold is represented as small and fine particles, containing 2.4 g / t (off-balance ores) on tailings containing 2.2 g / t of gold, associated with sulphides and silicates. , on mercury poor ores containing mercury in ore 0.428 and 0.009%, presented in the form of cinnabar.

Experiments with different solvents were carried out under comparable conditions. A portion of the ore with a particle size of 1-0.074 mm is mixed with reagents, the concentration of which, in terms of rta, changes the dry substance in the range of 0.1-20%, T., potassium permanganate from the oxidant is added to the pulp from 5-10 g / l. The process proceeds with stirring on rocking chairs, the duration of experiments is 5-10 days

The most active biochemical reagents, alkaline solutions of belcosine, alkaline hydrolysates of belcosine, as well as the proposed preparation SCHO, are used in the studies. The hydrolysis of belcosine is carried out in a 20% caustic soda at 80-100 ° C for 2 hours. The initial concentration (maximum) of this bioreagent is 4% of dry matter, the remaining concentrations are obtained by diluting it.

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PRI me R 1. Gold-bearing ore weighing 20 g, crushed to 90%, class — 0.074 mm, is leached by various biological products for 5 days. with occasional shaking on the rockers, the ratio, concentration of reagents is variable. As reagents - analogs, the solutions of Belkozina, Belkosin hydrolysates, as well as the proposed first preparation, SchO, are being used.

From the data of Table 1 it can be seen that from ore, in which more than 70% of gold is presented in the form of free small particles, the intensity of the extraction of gold with the application of this reagent increases with increasing its concentration. It has been established that, at concentrations of 1% and above, their leaching capacity decreases, which is associated with the polymerization of their constituents. , EXAMPLE 2. Tails are being investigated in (of which the bulk of gold is included in sulphides, silicates and other minerals; free gold is practically not available. The research procedure is similar to Example 1, An alkaline solution of belcosine and the preparation of SchO.

From the data of Table 2, it can be seen that gold from tailings with alkaline solutions of belkoleen is not sufficiently leached, and the treatment is no more than 23-27.4%, regardless of the concentration of the preparation. When using SCHO, the extraction of gold into solution increases with a change in the concentration of the pea- agent from 0.1 to 4% by a factor of 3.2 and is 83.4%, which is possible only with

Results of leaching of gold ores, organic compounds, compounds

the dissolution of this preparation is not only free particles of gold, but also various gold-containing minerals.

PRI me R 3. Mercury ores are leached. The leaching method is similar to examples 1 and 2. The results are shown in table 3.

From the data of Table 3 it can be seen that the mercury solution with merkozina is practically not leached. Extraction of mercury into the solution, regardless of the concentration of belkosin, does not exceed 6.1–6.8% in 5 days. processing. SCHO for 5 days, leaching in the solution passes 23.2% of mercury, and for 15 days. leaching into a solution of poorer ore is a third of the metal.

The results indicate that it is possible to process poor mercury ores by the heap leaching method, which allows a substantial expansion of the raw material base by involving in the processing of poor ores and dumps of existing enterprises.

Claims (1)

Invention Formula A method of biochemical leaching of valuable components from poor ores, mainly gold from quartz-clay ores and mercury, including treating the ore with yeast biomass hydrolysis products in the presence of an oxidizing agent, characterized in that, in order to increase the recovery rate, the treatment is carried out using products of the hydrolysis of the biomass of yeast bottoms from the distillation of alcohol-alkaline shdrolizat baker's drozhzhey - waste production ergosteoona Table 1 Leaching results of gold ore tailings Cake Initial Solution Cake Initial Solution Cake Initial Solution Cake Initial Solution Cake Initial 77 100 27.4 72.6 100 25 75 100 0.2 about ABOUT l yu so W Table 3 Results of leaching of mercury with alkaline biologics Enrichment Product Mercury,% Content Extraction solution ek ore similar Cake Source ore Solution Cake Source ore Solution Keck Source Ore Solution Cake Source ore Solution Keck Source Ore 0.402 0.428 0.401 0.428 0.4 0.428 0.364 0.428 0.329 0.428 0,006 0,009 Note By a known method Belkozina solution, 1%, 5 days. Belkozina solution, 20%, 5 days. NaOH + CML0 (control), 5 days The proposed method SCHO 0.4%; 5 days SCHO 4%, 5 days. SCHO 4%, 15 days.