Influence of Electrolyte Impurities from E-Waste Electrorefining on Copper Extraction Recovery

Djokić, Jovana; Radovanović, Dragana; Nikolovski, Zlatko; Andjic, Z.; Kamberović, Željko

doi:10.3390/met11091383

Cited by 3 publications

(1 citation statement)

References 36 publications

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“…As the practice of operating plants using SX-EW technology shows, productive solutions obtained by leaching copper ores contain a number of elements, compounds and suspended solids, some of which can create problems during extraction [ [3], [4]] and electrolysis [ [5], [6]]. The main constituents to be constantly monitored are Cu2+, Fe3+ and/or pH [ [7], [8]].…”

Section: Introductionmentioning

confidence: 99%

English Testing of the optimum extragent for solvent-extraction of Almaly deposit copper

Chepushtanova¹,

Yessirkegenov²,

Mamyrbayeva³

et al. 2022

KIMS/CUMR/MShKP

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For the solvent extraction of copper from pregnant leach solutions, (PLS) a wide range of modern extractants is currently offered on the market, and its choice is a very important issue in the production of copper using the SX-EW (Solvent Extraction and Electrowinning) technology. The purpose of this work was to determine the optimal copper extractant for processing productive solutions of the Almaly deposit using the SX-EW. The studies were carried out with a productive solution obtained by leaching copper ores from the Almaly deposit of composition, g/dm3: 1) Cu– 0.262, Fe–17.97, SiO2–0.36. The results of copper extraction from model solutions showed that the maximum extraction of copper (94%) is observed when using the extractant 5% Acorga 5640, while the other extractants did not provide a high degree of extraction of 10% Lix984 - 93%; 10% Acorga 5640 - 91%; 10% Acorga 5910 and 10% Acorga 5747 - 85% each. According to the results of the retraction process, a high degree of copper extraction from the organic phase (90.2 and more) was ensured when using extractants of 5% Acorga 5640, 10% Lix984, and 10% Acorga 5640, the minimum - at 10% Acorga 5910 (88.2%). For the extraction of copper from the productive solution of the Almaly deposit 5% Acorga 5640 was chosen as the optimal extractant.

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Section: Introductionmentioning

confidence: 99%

English Testing of the optimum extragent for solvent-extraction of Almaly deposit copper

Chepushtanova¹,

Yessirkegenov²,

Mamyrbayeva³

et al. 2022

KIMS/CUMR/MShKP

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Recovery of precious metals from industrial wastewater towards resource recovery and environmental sustainability: A critical review

et al. 2022

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Recovery of Valuable Metals from Wastewater using Electrochemical

Oktiawan,

Sarminingsih,

Purwono

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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Today, wastewater is already considered a secondary resource due to its abundant nutrients, chemical energy content and other valuable constituents. However, recovery of valuable resources such as valuable metals from wastewater interesting to investigate. This study aims to recover valuable metalfrom wastewater using electrocoagulation (EC). This study used a cylindrically-shaped EC reactor with a total volume of 1500 mL. EC reactors are equipped with cathodes and anodes, which are spiral and cylindrical respectively. The result shows that the initial pH is low at 0.39, then decreases to 0.16 within 1 minute. After that, the pH gradually increases until it reaches its peak at 3.48 after 60 minutes. After 45 minutes, the pH increased significantly, suggesting that the electrocoagulation process could lead to an increase in pH in the wastewater. After 15 minutes, the temperature began to rise gradually, reaching 39.3°C after 60 minutes. This increase in temperature may be due to the ongoing electrocoagulation reaction and the heating effect of electrical voltage. Cr, a valuable metal, has a concentration of 2.09 mg/L, which dramatically decreases to 1.12 mg/L after 1 minute. Cr concentrations continued to decrease until they reached a low of 0.13 mg/L after 30 minutes. This indicates a significant recovery of Cr from wastewater.

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Influence of Electrolyte Impurities from E-Waste Electrorefining on Copper Extraction Recovery

Cited by 3 publications

References 36 publications

English Testing of the optimum extragent for solvent-extraction of Almaly deposit copper

English Testing of the optimum extragent for solvent-extraction of Almaly deposit copper

Recovery of precious metals from industrial wastewater towards resource recovery and environmental sustainability: A critical review

Recovery of Valuable Metals from Wastewater using Electrochemical

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