Bioleaching Experiments on a Low-Grade Complex Zinc Ore from Inner Mongolia

Jia Feng Li; Lin Lin Tong; Qiao Chen; Zhe Nan Jin; Hong Ying Yang

doi:10.4028/www.scientific.net/SSP.262.155

Paper Titles

Comparative Bioleaching and Mineralogical Characterization of Black Shale-Hosted Ores and Corresponding Flotation Concentrates
p.139

Effect of X-Ray µCT Scanning on the Growth and Activity of Microorganisms in a Heap Bioleaching System
p.143

Pilot-Scale Bioleaching of Metals from Pyritic Ashes
p.147

The Use of Heap Bioleaching as a Pre-Treatment for Platinum Group Metal Leaching
p.151

Bioleaching Experiments on a Low-Grade Complex Zinc Ore from Inner Mongolia
p.155

Investigation of Intermediates Evolutions during Bornite Bioleaching by Mesophilic Mixed Bacteria
p.159

A Comparison of Bioleaching Behavior of Two Pure Chalcopyrite Minerals through Investigating Chalcopyrite Crystallographic Properties
p.164

Effect of Marmatite on Bioleaching Behaviors of Chalcopyrite
p.168

Influence of Citrate on Metal Dissolution and Respiration Rate of Microbial Leaching Cultures
p.172

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Bioleaching Experiments on a Low-Grade Complex Zinc Ore from Inner Mongolia

Abstract:

When dealing with a low-grade complex Zinc ore from Inner Mongolia, problems of low leaching rate, high energy consumption, low economic benefits and pollution were encountered. To treat this low-grade zinc ore economically and effectively, bioleaching was used. This approach produces reliable data for an environmentally friendly and efficient processing of the zinc ore. The results indicate that Zinc occurs in the ore mainly as sphalerite, the latter also containing Indium. The experimental results demonstrated an excellent leaching performance: A leaching rate of nearly 100% is achieved at a temperature of 45°C, a pulp concentration of 10%, an initial pH of 1.8, and an aeration rate of 0.8m³/h. In the initial stage the leaching rate is higher than at the end. It starts with 85% of zinc leaching rate in three days. The Indium in the sphalerite is leached almost completely. This makes a further comprehensive use of such resources possible.

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Periodical:

Solid State Phenomena (Volume 262)

Pages:

155-158

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.262.155

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Online since:

August 2017

Authors:

Jia Feng Li, Lin Lin Tong, Qiao Chen, Zhe Nan Jin, Hong Ying Yang*

Keywords:

Bioleaching, Complex Zinc Ore, Environmentally Efficient, Environmentally Friendly, Inner Mongolia, Low-Grade

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