Investigation of Bioleaching of a Low Grade Nickel-Cobalt-Copper Sulfide Ore with High Magnesium as Olivine and Serpentine from Lao

Bo Wei Chen; Liu Lu Cai; Biao Wu; Xue Liu; Jian Kang Wen

doi:10.4028/www.scientific.net/AMR.825.396

Paper Titles

Effects of Individual Use, Mixed Culture and Sulfur Addition on the Effectiveness of Nickel Laterite Ore Bioelaching with Penicillium verruculosum and Galactomyces geotrichum
p.380

Hydrogen Sulphide Production at Alkaline, Neutral and Acid pH by a Bacterial Consortium Isolated from Peruvian Mine Tailing and Wetland
p.384

Immobilization of New Isolated Iron Oxidizing Bacteria on Natural Carriers
p.388

Impact of the Hydraulic Retention Time on the Performance of a Sulfidogenic Bioreactor
p.392

Investigation of Bioleaching of a Low Grade Nickel-Cobalt-Copper Sulfide Ore with High Magnesium as Olivine and Serpentine from Lao
p.396

Investigation of the Effect of pH Operating Conditions on Bioleaching of Low-Grade Chalcopyrite in Column Reactors
p.401

Isolation and Characterization of Actinomycetes from Acidic Cultures of Ores and Concentrates
p.406

Low Grade Copper Sulfide Ore Bioleaching in a New Bioreactor
p.410

Minimum Aeration in Acidithiobacillus ferrooxidans Cultures Required to Maintain Substrate Oxidation without Oxygen Limitation
p.414

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 825Investigation of Bioleaching of a Low Grade...

Investigation of Bioleaching of a Low Grade Nickel-Cobalt-Copper Sulfide Ore with High Magnesium as Olivine and Serpentine from Lao

Abstract:

Shake flask bioleaching of a low-grade nickel-cobalt-copper sulfide ore from Lao was investigated to test the technical feasibility to recovery metals from this ore. The mineralogical results indicated that the valuable minerals were disseminated finely and the ore had a low content of sulfur and high content of iron and magnesium, which was very harmful for bioleaching. The effects of different parameters such as the amount of acid addition, inoculation volume, initial pH, temperature and leaching time on the bioleaching performance of the ore were evaluated after pre-leaching with dilute acid. The results showed that nickel, cobalt, copper leaching rates reached 81.61%, 80.75%, 70.97% at 33 °C and 83.40%, 82.13%, 70.34% at 45 °C. The mineralogical analysis of the leaching residues revealed that the leaching rate of nickel sulfide was more than 92% and the unleached nickel was mainly present as nickel silicate.

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Periodical:

Advanced Materials Research (Volume 825)

Pages:

396-400

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.825.396

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Online since:

October 2013

Authors:

Bo Wei Chen, Liu Lu Cai, Biao Wu, Xue Liu, Jian Kang Wen

Keywords:

Bioleaching, Magnesium, Nickel, Sulfide Ore

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