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МЕЖДУНАРОДНАЯ НАУЧНО-ПРАКТИЧЕСКАЯ КОНФЕРЕНЦИЯ

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Cборник НОАН - 5 лет Том I

МЕЖДУНАРОДНАЯ НАУЧНО-ПРАКТИЧЕСКАЯ КОНФЕРЕНЦИЯ
«ИНТЕГРАЦИЯ НАУКИ, ОБРАЗОВАНИЯ И ПРОИЗВОДСТВА – ЗАЛОГ ПРОГРЕССА И
ПРОЦВЕТАНИЯ», ТОМ I, ГОРОД НАВОИ, РЕСПУБЛИКА УЗБЕКИСТАН, 2022
- 104 -
Hydrogen peroxide were used for leaching pyrite in sulphuric acid
condition. The investigation held in various parameters: temperature, stirring
speed, particle size and concentrations of H
2
O
2
and H
2
SO
4
[4]. The results of
investigations indicate that, increasing the stirring speed and the sulphuric
concentration decreases the pyrite dissolution. Furthermore, the leaching rate is
directly proportional to the hydrogen peroxide consumption.
O
2
and Fe
3+
have also been found as the two most essential oxidizers for
pyrite oxidation [5]. These oxidants, including varying pH, Eh, stirring speeds,
grain size and temperatures setup to study pyrite leaching [5]. Investigations
establishes that the addition of oxidants, Fe
3+
and O
2
, considerably inclines the
rate of pyrite dissolution. In order to maintain high redox potential, further adding
catalysts in the presence of these oxidants, leads to maximum oxidation rate of
pyrite mineral.
The kinetics of leaching pyrite within potassium dichromate solution was
investigated [6]. The parameters studied were: stirring rate, temperature and
particle size have been examined. The reaction
O
H
Cr
SO
Fe
H
O
Cr
FeS
2
3
2
4
3
2
7
2
2
19
10
4
2
38
5
2
+
+
+
=
+
+
+
−
+
+
−
From the results of these investigations revealed that the rate of leaching is
limited by the chemical reaction on the surface particles. Besides this, the toxicity
of potassium dichromate can cause serious problems to the environment, which
making it hazardous method in mineral processing.
Catalytic application of manganese could be another option to increase
oxidation rate of pyrite. Because manganese has the feature, which increases the
redox potential of the solution. The previous studies show, that the effectiveness
of the bioleaching process of arsenopyritic gold ore improved by adding
pyrolusite [7]. As a result, the bio-oxidation process was decreased obviously and
leaching rate of gold from low grade sulphide ores reached 95,8% by cyanide
leaching.
Based on a review of the literature, lot of investigations have been carried
out on the oxidation of sulphide minerals using chemical, electrochemical and
bioleaching techniques. There has been a fair amount of investigations into the
ferric dissolution of pyrite, and there is no enough redox potentials occurring
during this investigations, whereas the oxidation rate would be lower than redox
potentials in bioleaching. Electrochemical principles can be applied to increase
leaching rate, by adding several catalysts in the presence of O
2
and Fe
3+
.
Therefore, it is important to use catalytic application to leaching process of
pyrite.
References
1. S.R. la Brooy, H.G. Linge, G.S. Walker, Review of gold extraction from ores, Miner.
Eng., 7 (1994), pp. 1213-1241

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