| [1] | 任婉侠, 李培军, 何娜, 等. 异养微生物在金属生物淋滤技术中的应用. 生态学杂志, 2007,26(11):1835-1841 Ren W. X., Li P. J., He N., et al. Application of heterotrophic microorganisms in metals removal by bioleaching. Chinese Journal of Ecology, 2007,26(11):1835-1841(in Chinese) |
| [2] | Olson G. J., Brierley J. A., Brierley C. L. Bioleaching review part B: Progress in bioleaching: Applications of microbial processes by the mineral industries. Applied and Microbiological Biotechnology, 2003,63(3):249-257 |
| [3] | Zhou H. B., Zeng W. M., Yang Z. F., et al. Bioleaching of chalcopyrite concentrate by a moderately thermophilic culture in a stirred tank reactor. Bioresource Technology, 2009,100(2):515-520 |
| [4] | Brandl H., Bosshard R., Wegmann M. Computer-munching microbes: Metal leaching from electronic scrap by bacteria and fungi. Hydrometallurgy, 2001,59(2-3):319-326 |
| [5] | Choi N. S., Cho K. S., Kim D. S., et al. Microbial recovery of copper from printed circuit boards of waste computer by Acidithiobacillus ferrooxidans. Journal of Environmental Science and Health Part A, 2004,39(11-12):2973-2982 |
| [6] | 周培国, 郑正, 彭晓成, 等. 氧化亚铁硫杆菌浸出线路板中铜的研究. 环境污染治理技术与设备, 2006,7(12):126-128 Zhou P.G., Zheng Z., Peng X. C., et al. Study on copper leaching from printed circuit board by Thiobacillus ferrooxidans. Techniques and Equipment for Environmental Pollution Control, 2006,7(12):126-128(in Chinese) |
| [7] | Ilyas S., Anwar M. A., Niazi S. B., et al. Bioleaching of metals from electronic scrap by moderately thermophilic acidophilic bacteria. Hydrometallurgy, 2007,88(1-4):180-188 |
| [8] | Wang J. W., Bai J. F., Xu J. Q., et al. Bioleaching of metals from printed wire boards by Acidithiobacillus ferrooxidans and Acidithiobacillus thiooxidans and their mixture. Journal of Hazardous Materials, 2009,172(2-3):1100-1105 |
| [9] | Yang T., Xu Z., Wen J. K., et al. Factors influencing bioleaching copper from waste printed circuit boards by Acidithiobacillus ferrooxidans. Hydrometallurgy, 2009,97(1-2):29-32 |
| [10] | Liang G. B., Mo Y. W., Zhou G. F. Novel strategies of bioleaching metals from printed circuit boards (PCBs) in mixed cultivation of two acidophiles. Enzyme and Microbial Technology, 2010,47(7):322-326 |
| [11] | 高顺枝, 罗兴章, 聂耳, 等. 氧化亚铁硫杆菌浸铜作用研究. 环境工程学报, 2010,4(3):677-682 Gao S. Z., Luo X. Z, Nie E., et al. Role of Acidithiobacillus ferrooxidans in bioleaching of copper. Chinese Journal of Environmental Engineering, 2010,4(3):677-682(in Chinese) |
| [12] | Xiang Y., Wu P. X., Zhu N. W., et al. Bioleaching of copper from waste printed circuit boards by bacterial consortium enriched from acid mine drainage. Journal of Hazardous Materials, 2010,184(1-3):812-818 |
| [13] | Zhu N. W., Xiang Y., Zhang T., et al. Bioleaching of metal concentrates of waste printed circuit boards by mixed culture of acidophilic bacteria. Journal of Hazardous Materials, 2011,192(2):614-619 |
| [14] | Temple K. L., Colmer A. R. The autotrophic oxidation of iron by a new bacterium Thiobacillus ferrooxidans. Journal of Bacteriolgy, 1951,62(5):605-611 |
| [15] | Rawlings D. E. Heavy metal mining using microbes. Annual Review Microbiology, 2002,56:65-91 |
| [16] | 周顺桂, 王世梅, 余素萍, 等. 污泥中氧化亚铁硫杆菌的分离及其应用效果. 环境科学, 2003,24(5):56-60 Zhou X. G., Wang S. M., Yu S. P., et al. Isolation of Thiobacillus ferrooxidans and its application on heavy metal bioleaching from sewage sludge. Environmental Science, 2003,24(5):56-60(in Chinese) |
| [17] | 程刚, 王向东, 蒋文举, 等. 微波预处理和微生物联合煤炭脱硫技术初探. 环境工程学报, 2008,2(3):408-421 Cheng G., Wang X. D., Jang W. J., et al. Preliminary study on biodesulfurization technology of coal in combination with microwave pretreatment. Chinese Journal of Environmental Engineering, 2008,2(3):408-421(in Chinese) |
| [18] | Silverman M. P., Lundgren D. G. Studies on the chemoautotrophic iron bacterium Ferrobacillus ferrooxidans. I. An improved medium and a harvesting procedure for securing high cell yields. Journal of Bacteriology, 1959,77(5):642-647 |
| [19] | Visca P., Bianchi E., Polidoro M., et al. A new solid medium for isolating and enumerating Thiobacillus ferrooxidans. Journal of General and Applied Microbiology, 1989,35(2):71-81 |
| [20] | Anders B. J., Colin W. Ferric sulphate oxidation using Thiobacillus ferrooxidans: A review. Process Biochemistry, 1995,30(3):225-236 |
| [21] | Daoud J., Karamanev D. Formation of jarosite during Fe2+ oxidation by Acidithiobacillus ferrooxidans. Minerals Engineering, 2006,19(9):960-967 |