Leaching of Pure Chalcocite with Reject Brine and MnO2 from Manganese Nodules

Torres, David; Trigueros, Emilio; Robles, Pedro; Leiva, Williams H.; Jeldres, Ricardo I.; Toledo, Pedro G.; Toro, Norman

doi:10.3390/met10111426

Cited by 9 publications

(3 citation statements)

References 32 publications

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“…Studies have shown that the leaching of caliche using reject brine is technically feasible and delivers similar results than using seawater (Ordóñez et al 2015(Ordóñez et al , 2017. In another study, the use of reject brine in the leaching of pure chalcocite provides better results than the use of seawater (Torres et al 2020).…”

Section: Repurpose (R6)mentioning

confidence: 98%

Toward the Implementation of Circular Economy Strategies: An Overview of the Current Situation in Mineral Processing

Cisternas

Ordóñez

Jeldres

et al. 2021

Mineral Processing and Extractive Metallurgy Review

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Mining resources have played a leading role in the development of humanity, and the demand for these raw materials is expected to increase in the foreseeable future. In addition, new technologies also require the extraction of new critical materials. These trends pose various challenges as there is a limited supply of natural resources, and standard mining and mineral processing practices are associated with significant environmental impacts, such as waste generation, energy and water consumption, and CO 2 emissions. The circular economy (CE) has recently gained attention as a model to address such a complex scenario. This work analyzes the current efforts towards the application of CE in mineral processing. Although advances have been made, this review shows that the most significant material flows and environmental impacts occur near the production sites, which currently limits the closure of loops. Besides, mining industries are conservative regarding the adoption of new technologies or processing strategies, which is another hindrance to the implementation of the CE. Thus, and with few exceptions, while some sectors are already facing advanced stages of CE (namely, CE 3.0), the mineral processing field struggles to advance from the basic CE requirements (i.e, CE 1.0 to CE 2.0).

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Section: Repurpose (R6)mentioning

confidence: 98%

Toward the Implementation of Circular Economy Strategies: An Overview of the Current Situation in Mineral Processing

Cisternas

Ordóñez

Jeldres

et al. 2021

Mineral Processing and Extractive Metallurgy Review

Self Cite

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“…( 2) could be rewritten to include both dependences of the reaction. Then, considering the evident proportional relation between the copper recovery from secondary sulfides and chloride concentration [20,26,27,62,63], the term   is incorporated into the analytical model as factors of both scales, as shown in Equations ( 5) and ( 6). The term   i (chloride concentration, cCl) is defined as the potency of the fraction of the sampled chloride concentration (xi) over the average concentration (x) raised to a mathematical adjustment constant i, where i are the particle levels and heap height.…”

Section: Analytical Models For Heap Leachingmentioning

confidence: 99%

Development of an analytical model for copper heap leaching from secondary sulfides in chloride media in an industrial environment

Saldaña

Salinas‐Rodríguez

Castillo

et al. 2022

Hem Ind

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In multivariate analysis, a predictive model is a mathematical/statistical model that relates a set of independent variables to dependent or response variable(s). This work presents a descriptive model that explains copper recovery from secondary sulfide minerals (chalcocite) taking into account the effects of time, heap height, superficial velocity of leaching flow, chloride concentration, particle size, porosity, and effective diffusivity of the solute within particle pores. Copper recovery is then modelled by a system of first-order differential equations. The results indicated that the heap height and superficial velocity of leaching flow are the most critical independent variables while the others are less influential under operational conditions applied. In the present study representative adjustment parameters are obtained, so that the model could be used to explore copper recovery in chloride media as a part of the extended value chain of the copper sulfides processing.

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“…Chile is the largest copper producer worldwide, with a 27.9% share [2][3][4] of production and 29% of the reserves of this commodity [5]. Copper oxides processed by hydrometallurgy are becoming increasingly scarce in Chile (from 30.8% in 2015 to 12% in 2027), while copper sulphides are being found in more significant amounts [6][7][8]. The National Service of Geology and Mining [2] (SERNAGEOMIN, by his acronym in Spanish) has indicated that 39.2% of copper production takes place through hydrometallurgical processes, but most of the production (60.8%) takes place through flotation processes.…”

Section: Introductionmentioning

confidence: 99%

Analysis of the Dynamics of Rougher Cells on the Basis of Phenomenological Models and Discrete Event Simulation Framework

Saldaña

Neira

Flores

et al. 2021

Metals

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Due to the increase in the amount of copper sulphide minerals processed through concentration processes and the need to improve the efficiency of these production processes, the development of theoretical models is making an important contribution to generating a better understanding of their dynamics, making it possible to identify the optimal conditions for the recovery of minerals, the impact of the independent variables in the responses, and the sensitivity of the recovery to variations in both the input variables and the operational parameters. This paper proposes a method for modeling, sensitizing, and optimizing the mineral recovery in rougher cells using a discrete event simulation (DES) framework and the fitting of analytical models on the basis of operational data from a concentration pilot plant. A sensitivity analysis was performed for low, medium, and high levels of the operative variables and/or parameters. The outcomes of the modeling indicate that the optimum mineral recovery is reached at medium levels of the flow rate of gas, bubble size, turbulence dissipation rate, surface tension, Reynolds number of bubble, bubble–particle contact angle, superficial gas velocity and gas hold-up in the froth zone. Additionally, the optimal response is reached at maximum levels of particle size and density and at minimum levels of bubble speed, fluid kinematic viscosity and fluid density in the sampled range. Finally, the recovery has an asymptotic behavior over time; however, the optimum recovery depends on an economic analysis, examining the marginalization of the response over time in an operational context.

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Leaching of Pure Chalcocite with Reject Brine and MnO2 from Manganese Nodules

Cited by 9 publications

References 32 publications

Toward the Implementation of Circular Economy Strategies: An Overview of the Current Situation in Mineral Processing

Toward the Implementation of Circular Economy Strategies: An Overview of the Current Situation in Mineral Processing

Development of an analytical model for copper heap leaching from secondary sulfides in chloride media in an industrial environment

Analysis of the Dynamics of Rougher Cells on the Basis of Phenomenological Models and Discrete Event Simulation Framework

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