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Oxidation of pyrite: Consequences and significance
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This paper presents the most important studies on the oxidation of pyrite particularly in aqueous solutions. The consequences of pyrite oxidation was examined, as well as its importance, from both the technical-technological and environmental points of view. The oxidation of pyrite was considered in two parts. The spontaneous oxidation of pyrite in nature was described in the first part, with this part comprising pyrite oxidation in deposits depots and mines. It is explained how way natural electrochemical processes lead to the decomposition of pyrite and other minerals associated with pyrite. The oxidation of pyrite occurring during technological processes such as grinding, flotation and leaching, was shown in the second part. Particular emphasis was placed on the oxidation of pyrite during leaching. This part includes the leaching of sulphide and oxide ores, the leaching of pyrite coal and the leaching of refractory gold-bearing ores (pressure oxidation, bacterial oxidation, oxidation by means of strong oxidants and the electrolysis of pyrite suspensions). Various mechanisms of pyrite oxidation and of the galvanic interaction of pyrite with other sulphide minerals are shown.
National Library of Serbia
Title: Oxidation of pyrite: Consequences and significance
Description:
This paper presents the most important studies on the oxidation of pyrite particularly in aqueous solutions.
The consequences of pyrite oxidation was examined, as well as its importance, from both the technical-technological and environmental points of view.
The oxidation of pyrite was considered in two parts.
The spontaneous oxidation of pyrite in nature was described in the first part, with this part comprising pyrite oxidation in deposits depots and mines.
It is explained how way natural electrochemical processes lead to the decomposition of pyrite and other minerals associated with pyrite.
The oxidation of pyrite occurring during technological processes such as grinding, flotation and leaching, was shown in the second part.
Particular emphasis was placed on the oxidation of pyrite during leaching.
This part includes the leaching of sulphide and oxide ores, the leaching of pyrite coal and the leaching of refractory gold-bearing ores (pressure oxidation, bacterial oxidation, oxidation by means of strong oxidants and the electrolysis of pyrite suspensions).
Various mechanisms of pyrite oxidation and of the galvanic interaction of pyrite with other sulphide minerals are shown.
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