Chemical Composition Data of the Main Stages of Copper Production from Sulfide Minerals in Chile: A Review to Assist Circular Economy Studies

Barros, Kayo Santana; Vielmo, Vicente Schaeffer; Moreno, Belén Garrido; Riveros, G.; Cifuentes, Gerardo; Bernardes, Andréa Moura

doi:10.3390/min12020250

Cited by 24 publications

(6 citation statements)

References 140 publications

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“…The main chemical reagents used in the metallurgical flotation process of copper sulphide minerals and present in copper mining tailings are presented below [ 2 , 47 ]. The following types of reagents are disclosed: (i) acids, (ii) alkalis or pH regulators, (iii) modifiers, (iv) collectors, (v) foaming agents, and (vi) flocculants ( Table 1 ).…”

Section: Processing Of Sulphide Ores and Mine Tailings: Management Ex...mentioning

confidence: 99%

Socio-Environmental Risks Linked with Mine Tailings Chemical Composition: Promoting Responsible and Safe Mine Tailings Management Considering Copper and Gold Mining Experiences from Chile and Peru

Cacciuttolo

Cano

Custodio

2023

Toxics

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There is a need to define mine tailings in a clear, precise, multidisciplinary, transdisciplinary, and holistic manner, considering not only geotechnical and hydraulic concepts but also integrating environmental and geochemical aspects with implications for the sustainability of mining. This article corresponds to an independent study that answers questions concerning the definition of mine tailings and the socio-environmental risks linked with mine tailings chemical composition by examining the practical experience of industrial-scale copper and gold mining projects in Chile and Peru. Definitions of concepts and analysis of key aspects in the responsible management of mine tailings, such as characterization of metallic–metalloid components, non-metallic components, metallurgical reagents, and risk identification, among others, are presented. Implications of potential environmental impacts from the generation of acid rock drainage (ARD) in mine tailings are discussed. Finally, the article concludes that mine tailings are potentially toxic to both communities and the environment, and cannot be considered as inert and innocuous materials; thus, mine tailings require safe, controlled, and responsible management with the application of the most high management standards, use of the best available technologies (BATs), use of best applicable practices (BAPs), and implementation of the best environmental practices (BEPs) to avoid risk and potential socio-environmental impact due to accidents or failure of tailings storage facilities (TSFs).

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Section: Processing Of Sulphide Ores and Mine Tailings: Management Ex...mentioning

confidence: 99%

Socio-Environmental Risks Linked with Mine Tailings Chemical Composition: Promoting Responsible and Safe Mine Tailings Management Considering Copper and Gold Mining Experiences from Chile and Peru

Cacciuttolo

Cano

Custodio

2023

Toxics

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“…Copper is one of the most critical metals to human innovation, essential for technological progress and the functioning of electronic appliances that we use every day. − Although copper is not considered as a rare element in the earth’s crust, , mining and production of this metal require complex and challenging processing . Conventional extraction processes from the majority of copper-fertile ores is undertaken via comminution/grinding, concentration (commonly by several cycles of flotation), followed by smelting and/or leaching and electrofining. , Thus, copper processing involves high temperatures, acidification, and use of aggressive chemicals, such as surfactants, flocculants, lixiviants, and adsorbents. The majority of chemicals involved cannot be recycled, primarily because their retrieval is hampered by the complex, multiphase nature of the mixtures treated in copper processing.…”

Section: Introductionmentioning

confidence: 99%

“…6 Conventional extraction processes from the majority of copper-fertile ores is undertaken via comminution/grinding, concentration (commonly by several cycles of flotation), followed by smelting and/or leaching and electrofining. 3,7 Thus, copper processing involves high temperatures, acidification, and use of aggressive chemicals, such as surfactants, flocculants, lixiviants, and adsorbents. The majority of chemicals involved cannot be recycled, primarily because their retrieval is hampered by the complex, multiphase nature of the mixtures treated in copper processing.…”

Section: Introductionmentioning

confidence: 99%

Polyethylenimine–Silica–Magnetic Nanoparticle Composites for Efficient Extraction of Dissolved Copper from Aqueous Solutions and Multiphase Mixtures

Semenova

Vidallon

Suzuki

et al. 2023

ACS Appl. Nano Mater.

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Design of micro/nanoadsorbents developed for effective copper extraction should consider methods of their retrieval from relevant copper-rich environments, which are commonly complex multiphase mixtures, such as slurries of polluted soils and sediments, copper minerals including lowgrade ores, and industrial and mining wastes. This work reports integration of copper-chelating polyethylenimine (PEI) with a robust silica network and highly magnetic magnetite nanoparticles, resulting in magnetic PEI−silica nanocomposite microparticles that enable efficient binding of copper ions in both aqueous solutions and complex, multiphase mixtures with subsequent retrieval using magnetic force. Produced via simple emulsion templating, these nanocomposite particles can withstand highly acidic conditions and multiple copper extraction cycles, without loss of efficiency after five consecutive cycles of copper extraction. PEI−silica−magnetic nanoparticles composites effectively bind all copper ions leached into an aqueous phase and allow their rapid magnetically induced separation from aqueous solutions and mixtures of both coarse and fine solid particles, demonstrating promising results for progress toward more sustainable copper extraction techniques.

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“…The chemical composition of copper concentrates in Chile varies depending on the region where it is obtained. As an example, Table 1 shows a comparison of typical compositions of concentrates from Chuquicamata [2] and of copper sulfide minerals in Northern Chile [3]. The former represented about 5% of the total Chilean copper production in 2022 [2].…”

Section: Introductionmentioning

confidence: 99%

“…Here, emphasis is made on the compositions of copper, arsenic, antimony, and bismuth in the several products and effluents obtained during the stages of roasting, smelting, converting, anode casting, and electrowinning. The information shown in Figure 1 is based on plant data collected at the Chuquicamata mine by Barros et al [3]. It shows that the contents of arsenic, antimony, and bismuth in such streams are significant and, thus, deserve further analysis.…”

Section: Introductionmentioning

confidence: 99%

An Overview of the Behavior of Concentrates with Arsenic, Antimony, and Bismuth under Roasting Conditions

Aracena,

Véliz,

Jerez

et al. 2023

Minerals

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It is well-known that the mining industry in Chile and the world is searching for eco-friendly, highly efficient mineral treatments. This is because the content of toxic elements such as arsenic, antimony, and bismuth have increased in the copper concentrates in the last years. This trend has affected the market of this metal, as well as increased the potential of producing solid wastes that represent a threat to the environment. In this paper, a review on the fundamentals of the current treatments aimed at removing arsenic, antimony, and bismuth from copper concentrates under roasting conditions is presented. The literature survey included the research conducted from 2000 until now and is focused on the different types of roasting of copper concentrates reported in the literature. A summary of the experimental conditions and major findings of each work is discussed. Depending on the type of roasting, the behavior of arsenic, antimony, and bismuth species during the experiments is analyzed.

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Chemical Composition Data of the Main Stages of Copper Production from Sulfide Minerals in Chile: A Review to Assist Circular Economy Studies

Cited by 24 publications

References 140 publications

Socio-Environmental Risks Linked with Mine Tailings Chemical Composition: Promoting Responsible and Safe Mine Tailings Management Considering Copper and Gold Mining Experiences from Chile and Peru

Socio-Environmental Risks Linked with Mine Tailings Chemical Composition: Promoting Responsible and Safe Mine Tailings Management Considering Copper and Gold Mining Experiences from Chile and Peru

Polyethylenimine–Silica–Magnetic Nanoparticle Composites for Efficient Extraction of Dissolved Copper from Aqueous Solutions and Multiphase Mixtures

An Overview of the Behavior of Concentrates with Arsenic, Antimony, and Bismuth under Roasting Conditions

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