Recovery of copper from copper slag and copper slag flotation tailings by oxidative leaching

Urosevic, D. M.; Dimitrijevic, M. D.; Jankovic, Z. D.; Antic, D. V.

doi:10.5277/ppmp150107

Artykuł - szczegóły

Tytuł artykułu

Recovery of copper from copper slag and copper slag flotation tailings by oxidative leaching

Autorzy

Urosevic D. M. , Dimitrijevic M. D. , Jankovic Z. D. , Antic D. V.

Treść / Zawartość

Pełne teksty:

Pobierz

Identyfikatory

DOI

10.5277/ppmp150107

Warianty tytułu

Języki publikacji

Abstrakty

Copper smelter slag and copper smelter slag flotation tailings were leached using sulphuric acid solutions, without or with the addition of either ferric sulphate or hydrogen peroxide. Copper extraction from the slag was typically found to be twice as high as that from the slag flotation tailings. Hydrogen peroxide was determined to be the best lixiviant. Thus, copper and iron extractions were 63.4% and 48.6%, respectively, when leaching the slag with 3 M H2O2, after 120 minutes of reaction at room temperature. Copper dissolution was generally found to be the dominant process within the first 60 minutes of reaction, whereas iron dissolution dominated afterwards.

Słowa kluczowe

copper slag copper slag flotation tailings leaching sulphuric acid ferric sulphate hydrogen peroxide

Wydawca

Oficyna Wydawnicza Politechniki Wrocławskiej

Czasopismo

Physicochemical Problems of Mineral Processing

Rocznik

2015

Tom

Vol. 51, iss. 1

Strony

73--82

Opis fizyczny

Bibliogr. 15 poz., rys., tab.

Twórcy

autor

Urosevic D. M.

Mining and Metallurgical Institute, Zeleni Bulevar 35, 19210 Bor, Serbia

autor

Dimitrijevic M. D.

mdimitrijevic@tf.bor.ac.rs

University of Belgrade, Technical Faculty at Bor, P.O. Box 50, 19210 Bor, Serbia

autor

Jankovic Z. D.

University of Toronto, CFIE, 33 St. George Street, Toronto, Ontario, Canada M5S 2E3

autor

Antic D. V.

University of Belgrade, Technical Faculty at Bor, P.O. Box 50, 19210 Bor, Serbia

Bibliografia

1. ALTUNDOGAN H. S., BOYRAZLI M., TUMEN F., 2004. A study on the sulphuric acid leaching of copper converter slag in the presence of dichromate. Minerals Engineering 17, 465–467.
2. ANAND S., KANTA RAO P., JENA P.K., 1980, Recovery of metal values from copper converter and smelter slags by ferric chloride leaching. Hydrometallurgy 5, 355–365.
3. ANAND S., SARVESWARA RAO K., JENA P.K., 1983. Pressure leaching of copper converter slag using dilute sulphuric acid for the extraction of cobalt, nickel and copper values. Hydrometallurgy 10, 305–312.
4. BANZA A.N., GOCK E., KONGOLO K., 2002. Base metals recovery from copper smelter slag by oxidizin leaching and solvent extraction. Hydrometallurgy 67, 63–69.
5. BESE A.V., 2007. Effect of ultrasound on the dissolution of copper from copper converter slag by acid leaching. Ultrasonics Sonochemistry 14, 790–796.
6. CARRANZA F., ROMERO R., MAZUELOS A., IGLESIAS N., FORCAT O., 2009. Biorecovery of copper from converter slags: Slags characterization and exploratory ferric leaching tests. Hydrometallurgy 97, 39–45.
7. DIMITRIJEVIC M., ANTONIJEVIC M., DIMITRIJEVIC V., 1999. Kinetics of pyrite oxidation by hydrogen peroxide in phosphoric acid solutions, J. Serb. Chem. Soc. 753–764.
8. GBOR P.K., HOQUE S., JIA C.Q., 2006. Dissolution behavior of Fe, Co, and Ni from non-ferrous smelter slag in aqueous sulphur dioxide. Hydrometallurgy 81, 130–141.
9. GORAI B., JANA R.K., PREMCHAND, 2003. Characteristics and utilisation of copper slag – a review. Resources, Conservation and Recycling 39, 299–313.
10. HERREROS O., QUIROZ R., MANZANO E., BOU C., VINALS J., 1998. Copper extraction from reverberatory and flash furnace slags by chlorine leaching. Hydrometallurgy 49, 87–101.
11. KAKSONEN A.H., LAVONEN L., KUUSENAHO M., KOLLI A., NARHI H., VESTOLA E., PUHAKKA J.A., TUOVINEN O.H., 2011. Bioleaching and recovery of metals from final slag waste of the copper smelting industry. Minerals Engineering 24, 1113–1121.
12. LI Y., PAPANGELAKIS V:G., PEREDERIY I., 2009. High pressure oxidative acid leaching of nickel smelter slag characterisation of feed and residue. Hydrometallurgy 97, 185–193.
13. SHEN H.T., FORSSBERG E., 2003. An overview of recovery of metals from slags. Waste Management 23, 933–949.
14. XIE Y., XU Y., YAN L., YANG R., 2005. Recovery of nickel, copper and cobalt from low- grade Ni-Cu sulfide tailings. Hydrometallurgy 80, 54–58.
15. YANG Z., RUI-LIN M., WANG-DONG N., HUI W, 2010. Selective leaching of base metals from copper smelter slag. Hydrometallurgy 103, 25–29.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-9cceeb4d-6fbc-4b8a-a50f-fcb290ee1b15