Well-controlled column bioleaching of a low-grade copper ore by a novel equipment
来源期刊:中南大学学报(英文版)2015年第9期
论文作者:WANG Jun HU Ming-hao ZHAO Hong-bo TAO Lang GAN Xiao-wen QIN Wen-qing QIU Guan-zhou
文章页码:3318 - 3325
Key words:bioleaching; column leaching; multi-factors; copper sulfide ores
Abstract: For the low-grade copper sulfide ores with 0.99% of copper, of which 41.5% was primary copper sulfide, and 54.5% was secondary copper sulfide, well-controlled column bioleaching on a novel equipment was carried out to investigate the optimal conditions of pre-leaching, particle sizes of ores, temperature, spray intensity and strain consortium. Results show that copper extraction of 91.11% can be obtained after 90 d with the optimal pH value of pre-leaching of 0.8; the pH values of pre-leaching significantly affect the final copper extractions. Copper extractions of 93.11%, 91.04% and 80.45% can be obtained for the bioleaching of ores with particles size of 5-8 mm, 5-15 mm and 5-20 mm, respectively. Copper extractions are 83.77% and 91.02% for bioleaching under the conditions of room temperature and 35 oC. Copper extractions are 77.25%, 85.45% and 91.12% for the bioleaching when flow rate of spray was 5 L/(h·m2), 10 L/(h·m2) and 15 L/(h·m2), respectively. Additionally, the strain consortium C3 is the best among the four strain consortia in bioleaching. By considering the energy consumption, the optimal conditions of bioleaching in this work are determined as pH of pre-leaching of 0.8, particles size of 5-15 mm, temperature of 35 °C, spray intensity of 15 L/(h·m2), and strain consortium C3.
WANG Jun(王军)1, 2, HU Ming-hao(胡明皓)1, 2, ZHAO Hong-bo(赵红波)1, 2, TAO Lang(陶浪)1, 2, GAN Xiao-wen(甘晓文)1, 2, QIN Wen-qing(覃文庆)1, 2, QIU Guan-zhou(邱冠周)1, 2
(1. School of Minerals Processing & Bioengineering, Central South University, Changsha 410083, China;
2 Key Lab of Biohydrometallurgy of Ministry of Education (Central South University), Changsha 410083, China)
Abstract:For the low-grade copper sulfide ores with 0.99% of copper, of which 41.5% was primary copper sulfide, and 54.5% was secondary copper sulfide, well-controlled column bioleaching on a novel equipment was carried out to investigate the optimal conditions of pre-leaching, particle sizes of ores, temperature, spray intensity and strain consortium. Results show that copper extraction of 91.11% can be obtained after 90 d with the optimal pH value of pre-leaching of 0.8; the pH values of pre-leaching significantly affect the final copper extractions. Copper extractions of 93.11%, 91.04% and 80.45% can be obtained for the bioleaching of ores with particles size of 5-8 mm, 5-15 mm and 5-20 mm, respectively. Copper extractions are 83.77% and 91.02% for bioleaching under the conditions of room temperature and 35 oC. Copper extractions are 77.25%, 85.45% and 91.12% for the bioleaching when flow rate of spray was 5 L/(h·m2), 10 L/(h·m2) and 15 L/(h·m2), respectively. Additionally, the strain consortium C3 is the best among the four strain consortia in bioleaching. By considering the energy consumption, the optimal conditions of bioleaching in this work are determined as pH of pre-leaching of 0.8, particles size of 5-15 mm, temperature of 35 °C, spray intensity of 15 L/(h·m2), and strain consortium C3.
Key words:bioleaching; column leaching; multi-factors; copper sulfide ores
