着重评述了难处理硫化矿的矿物结构、性质及表面特征与各种电化学因素、细菌氧化机制与难处理硫化矿细菌强化浸出、浸矿基因工程菌以及生物反应器等方面的研究进展.指出缩短生物氧化周期长是细菌强化氧化研究的核心;将细菌繁殖和矿物氧化两个过程分开进行的"分离器-发生器"设备设计,是一值得推广的高效生物反应器.
参考文献
| [1] | 廖梦霞,邓天龙.难处理硫化矿生物湿法冶金研究进展(I)微生物氧化工艺技术研究[J].稀有金属,2004(04):767-770. |
| [2] | Blight K.;Ralph D.E. .Pyrite surfaces after bio-leaching: a mechanism for bio-oxidation[J].Hydrometallurgy,2000(3):227-237. |
| [3] | Ubaldini S;Veglio F;Toro L et al.Biooxidation of arsenopyrite to improve gold cyanidation: study of some parameters and comparison with grinding[J].International Journal of Mineral Processing,1997,52:65. |
| [4] | Sato H;Nakazawa H;Kudo Y .Effect of silver chloride on the bioleaching of chal-copyrite concentrate[J].International Journal of Mineral Processing,2000,59:17. |
| [5] | 杨洪英,杨立,赵玉山,陈刚,吕久吉,范有静.氧化亚铁硫杆菌对黄铁矿和毒砂氧化行为的研究[J].有色金属,2002(z1):114-116. |
| [6] | 杨洪英,杨立,魏绪钧.氧化亚铁硫杆菌(SH-T)氧化毒砂的机理[J].中国有色金属学报,2001(02):323-327. |
| [7] | 杨洪英,杨立,赵玉山,陈刚,吕久吉,范有静.氧化亚铁硫杆菌对难处理金矿石中常见硫化物单矿物的氧化[J].有色金属,2001(03):9-12. |
| [8] | 李九玲,亓锋,徐庆生.矿物中呈负价态之金--毒砂和含砷黄铁矿中"结合金"化学状态的进一步研究[J].自然科学进展,2002(09):952-958. |
| [9] | 邱兆明;穰玫;邱隆伟 .黄铁矿及毒砂中负氧化数金的发现及判定[J].长春地质学院学报,1994,24(02):168. |
| [10] | 杨洪英,杨立,赵玉山,陈刚,吕久吉,范有静.难处理金矿石中硫化物细菌氧化的活性序列[J].有色金属,2002(02):42-44. |
| [11] | 童雄.微生物浸矿的理论与实践[M].北京:冶金工业出版社,1997 |
| [12] | 杨洪英,杨立,魏绪钧.细菌氧化难浸金矿石的矿物学研究探讨[J].有色金属,2000(01):86-90. |
| [13] | 杨洪英,杨立,魏绪钧,孙铭.高砷金精矿工艺矿物学和细菌氧化[J].有色金属,2000(04):64-67. |
| [14] | 杨洪英,杨立,魏绪钧,陈刚,范有静.耐热耐砷氧化亚铁硫杆菌(SH-T)的驯化和特性研究[J].有色金属,2000(03):55-57. |
| [15] | 商维君;СоложенкинПМ.细菌在矿物工程中的应用[J].国外金属矿选矿,1991(05):1. |
| [16] | 浸矿技术委会.浸矿技术[M].北京:原子能出版社,1994 |
| [17] | T. A. FOWLERI;F. K. CRUNDWELL .Leaching of zinc sulfide by Thiobacillus ferrooxidans: bacterial oxidation of the sulfur product layer increases the rate of zinc sulfide dissolution at high concentrations of ferrous ions[J].Applied and Environmental Microbiology,1999(12):5285-5292. |
| [18] | Fowler TA.;Holmes PR.;Crundwell FK. .Mechanism of pyrite dissolution in the presence of Thiobacillusferrooxidans[J].Applied and Environmental Microbiology,1999(7):2987-2993. |
| [19] | Fowler TA.;Crundwell FK. .Leaching of zinc sulfide by Thiobacillus ferrooxidans: Experiments with acontrolled redox potential indicate no direct bacterial mechanism[J].Applied and Environmental Microbiology,1998(10):3570-3575. |
| [20] | Iglesias N;Carranza F .Treatment of a gold beating arsenopyrite concentrate by ferric sulfate leaching[J].Minerals Engineering,1996,9(03):317. |
| [21] | Deng T L;Liao M X;Wang M H et al.Investigations of accelerating parameters for the biooxidation of low-grade refractory gold ores[J].Minerals Engineering,2000,13(14-15):1543. |
| [22] | 汪模辉;谭龙华;王俊 .金属离子在细菌浸取金属硫化矿中的催化作用[J].应用化学,1997,14(05):55. |
| [23] | 廖梦霞 .低品难处理原生金矿的生物预氧化-无氰法提金绿色工艺研究[D].成都:成都理工大学,1999. |
| [24] | Deng Tianlong;Liao Mengxia;Luo Mei.Study on the megnetization effects to the growth activity for Thiobacillus ferrooxidans[A].云南,2002:184. |
| [25] | 汪模辉,邓天龙,廖梦霞.含砷金矿的磁场强化生物预氧化[J].应用化学,2000(04):362-365. |
| [26] | Habashi F.Textbook of Hydrometallurgy[M].Qubec:SainteFoy,1999:195. |
| [27] | Nakamura A;Noike T;Matsumoto J .Effect of operational conditions on biological Fe(Ⅱ) oxidation with rotating biological contactors[J].Water Research,1986,20:73. |
| [28] | Mazuelos A;Palencia I;Romero R.Design variables in high efficiency reactors for the biooxidation of ferrous iron in solution[A].Part A,Amsterdam,1999:501. |
| [29] | Garcia W J;Palencia I;Carranza F .Biological ferrous iron in packed-bed columns with low-grade sulphide minerial as support[J].Process Biochemistry,1989,24:84. |
| [30] | Lancy E D;Tuovinen O H .Ferrous iron oxidation by thiobacillus ferrooxidans immobilized in calciumalginate[J].Applied Microbiology and Biotechnology,1984,20:94. |
| [31] | Livesey-GoldblattE;TunleyTH;NagyIF.Pilot plant film oxidation (Bacox process) of recycled acidified uranium plant ferrous sulphate leach solution[A].Verlag Chemie,Weinheim,FRG,1977:175. |
| [32] | Armentia H;Webb C .Ferrous sulphate oxidation using thiobacillus ferrooxidans cells immobilized in polyurethane foam support particles[J].Applied Microbiology and Biotechnology,1992,36:697. |
| [33] | Carranza F;Garcia M J .Kinetic comparison of support materials in the bacterial ferrous iron oxidation in packed-bed columns[J].Biochemical and Biophysical Research Communications,1990,2:15. |
| [34] | Grishin S I;Tuovinen O H .Fast kinetics of Fe(Ⅱ) oxidation in packed-bed reactors[J].Applied and Environmental Microbiology,1988,54(12):3092. |
| [35] | Gomez J M;Cantero D .Soporte para la inmovilizacion de un biocatalizador[J].Ingenieria Quimica,1999,354:171. |
| [36] | Mzuelos A;Romero R;Palencia I et al.Countinus feeous iron biooxidation in flooded packed bed reactors[J].Minerals Engineering,1999,12:559. |
| [37] | Mzuelos A;Carranza F;Palencia I et al.High effeciency reactor for the biooxidation of ferrous iron[J].Hydrometallurgy,2000,58:269. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%