Kinetics of Chalcopyrite Leaching by Hydrogen Peroxide in Sulfuric Acid

Sokić, Miroslav; Marković, Branislav; Stanković, S.; Kamberović, Željko; Štrbac, Nada; Manojlović, Vaso; Petronijević, Nela

doi:10.3390/met9111173

Cited by 35 publications

(28 citation statements)

References 58 publications

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“…In research on the leaching of bornite done by Pesic and Olson [20], the dissolution of copper from bornite reached 26 to 28% during the first hour of the process in the presence of ferric ion, which are values greater than those obtained in this study in a chloride medium and without the initial presence of ferric ion, as shown in Figure 1. Furthermore, in the studied system, this function can be performed by the Cu 2+ /Cu + redox pair, which was formed from dissolved soluble copper [35], but it is restricted because the leaching systems require the addition of oxygen for the oxidation of the cuprous products [7,36], according to Reactions (4) and (5).…”

Section: Leaching Without Pre-treatmentmentioning

confidence: 99%

“…Traditionally, froth flotation and pyrometallurgical processes have been used for the treatment of copper concentrates from high-grade copper ores [2,3]. However, the constant decrease in ore grade, presence of toxic elements, and stricter environmental legislations make the hydrometallurgical option way more attractive [4,5]. In the last years, research and development have intensified in the search for hydrometallurgical alternatives to the processing of copper concentrates [6][7][8][9][10].…”

Section: Introductionmentioning

confidence: 99%

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Effect of Pre-Treatment with Sodium Chloride/Sulfuric Acid on the Bornite Concentrate Leaching in Chloride Medium

Navarro

Vargas

Bahamonde

et al. 2020

Metals

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In this work, the effect of the pre-treatment of bornite concentrate with a sodium chloride–sulfuric acid mixture prior to leaching with chloride solutions was evaluated. The influence of the dosage of NaCl and the resting time in the copper solution was evaluated. The solid residues of the pre-treatment were characterized by XRD to evaluate the changes that took place in the bornite. The experimental results show that as the sitting time and the amount of sodium chloride added are increased, the dissolution of the sulfide species also increased. The pre-treatment affects Cu preferentially because it has greater mobility than iron in the bornite crystal lattice. The pre-treatment promotes the formation of soluble Cu and Fe species. The efficiency of the pre-treatment depends largely on the formation of hydrochloric acid in the mixture at the particle level, due to the ease with which it diffuses through the bornite particles, achieving greater penetration of the pre-treatment.

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Section: Leaching Without Pre-treatmentmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effect of Pre-Treatment with Sodium Chloride/Sulfuric Acid on the Bornite Concentrate Leaching in Chloride Medium

Navarro

Vargas

Bahamonde

et al. 2020

Metals

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“…Značajan deo bakra u zemljinoj kori nalazi se u obliku halkopirita. On je u polimetaličnim rudama često srastao i pojavljuje se sa drugim sulfidnim mineralima, poput pirita, galenita i sfalerita i mineralima jalovine [1,2]. Pored toga, opšta karakteristika većine eksploatisanih sulfidnih ležišta ogleda se u minerološkoj segregaciji, gde se u površinskim slojevima ležišta koncentriše oksidna ruda, u srednjim slojevima oksidno-sulfidna i konačno u dubljim slojevima ležišta sulfidna ruda.…”

Section: Uvodunclassified

Atmospheric leaching of copper from oxide-sulfide ore using sulfuric acid

Ranitović¹,

Kamberovic²,

Korać³

et al. 2020

Tehnika

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Visoka fleksibilnost, ekonomičnost i ekološka prihvatljivost hidrometalurških operacija nude mogućnost za selektivno dobijanje metala u ranim fazama tehnološkog procesa. To omogućava primenu hidrometalurških operacija u preradi ruda koje, zbog kompleksnog sastava ili niskog sadržaja metala, nisu pogodne za pirometalurški tretman. Nasuprot sulfidnim mineralima, za luženje oksidnih ruda nije potrebno prisustvo oksidansa. U ovom radu prikazani su rezultati ispitivanja uticaja temperature na stepen izluženja bakra iz piritno-halkopiritnog koncentrata rastvorom sumporne kiseline pri atmosferskom pritisku. Na osnovu dobijenih rezultata utvrđeno je da povećanje temeprature luženja značajno doprinosi povećanju efiksanosti izluženja pri čemu nakon 6 sati luženja na 40°C postignuta efiskanost je iznosila 90,6%.

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“…Froth flotation produces copper concentrate with some trace elements that are considered impurities, principally arsenic and antimony, and minor elements such as Cd, Hg, Pb, Bi, Se, and Te. The most common mineralogical species associated with toxic impurities present in copper concentrates are enargite (Cu 3 AsS 4 ), arsenopyrite (FeAsS), rejalgar (AsS), tennantite (Cu 12 As 4 S 13 ), tetrahedrite (Cu 12 Sb 14 S 13 ), and famatinite (Cu 3 SbS 4 ) [1][2][3][4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Leaching of Oxide Copper Ores by Addition of Weak Acid from Copper Smelters

Araya

Toro

Castillo

et al. 2020

Metals

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In this study, weak acid in the curing and leaching stages of copper ore was incorporated, and we analyzed its effect on the dissolution of copper and final impurities. The weak acid corresponds to a wastewater effluent from sulfuric acid plants produced in the gas treatment of copper smelting processes. This effluent is basically water with high acidity (pH-value low at 1), which contains several toxic elements and some valuable metals. The results indicated that there is no positive or negative effect on the incorporation of the weak acid in the curing stage, while the case of the leaching stage is favored. Toxicity characteristic leaching procedure (TCLP) and synthetic precipitation leaching procedure (SPLP) toxicity tests were performed on the solid leaching residues, determining that they accomplish the stability ranges of the impurities (Pb, Cd, Hg, Cr, Ba, Se, As, and Ag).

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Kinetics of Chalcopyrite Leaching by Hydrogen Peroxide in Sulfuric Acid

Cited by 35 publications

References 58 publications

Effect of Pre-Treatment with Sodium Chloride/Sulfuric Acid on the Bornite Concentrate Leaching in Chloride Medium

Effect of Pre-Treatment with Sodium Chloride/Sulfuric Acid on the Bornite Concentrate Leaching in Chloride Medium

Atmospheric leaching of copper from oxide-sulfide ore using sulfuric acid

Leaching of Oxide Copper Ores by Addition of Weak Acid from Copper Smelters

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