[1] 李廷梁.俄罗斯难浸金矿的生物冶金技术[J].贵金属,1998,19(1):54-56.
[2] 许鹏秋译.难浸金矿石采用Polycom 高压辊磨矿的进展[J].国外黄金参考,1997,3:8-13.
[3] 张兴仁,傅文章.国内外主要类型难浸金矿的处理方法[J].国外金属矿选矿,1998,7:2-6.
[4] 《浸矿技术》编委会.浸矿技术[M].北京:原子能出版社,1994.
[5] 黄强译.难浸金矿石细菌氧化工艺应用进展[J].国外黄金参考,2000,(7-8):38-45.
[6] D A Holtum.难处理硫化金矿的细菌堆浸[J].湿法冶金,1995,3:56-64.
[7] Satoru Asia,Yasuhiro Konish,Kat uya Yoshida.Kinetic model for batch bacterial dissolution of pyritear ticles by hiobacillus ferr ooxidans[J].Chemical Engineering Science,1998,47(1):133-139.
[8] Marcos G,Monroy Fernandez Christian Mustin,Philippede Dona to.Occurences at mineral-bacteria inter face during oxidation of arenopyrite by thiobacillus ferr ooxidans [J].Biotechnology and Bioengineering,1995,46:13-21.
[9] D M Miller.Bio-oxidation of gold-bearing arsenopyrite/pyrite concentrate[D].MSc Disser tation.South Afvica:University of Cape Town,1990.
[10] S Ubaldini,F Vegilo,L T oro.Biooxidation of arsenopyrite to improve gold cyanidation study of some parametersand comparison with grinding[J].Miner Process.1997,52:65-80.
[11] 李洪牧,柯家骏.Cu2+对氧化亚铁硫杆菌(T.f)生长活性的影响[J].黄金,2000,6:27-29.
[12] M Elzeky, Y A Attia.Effect of bacterial adaption on hnietics and mechanisms of bioleaching ferrous sulfides[J].The Chemical Engineer ing Journal,1995,(56):115-124.
[13] Ake Sandstr o¨m.用嗜中温菌和嗜高温微生牧浸出复杂硫化矿[J].湿法冶金,1998,6:57-62.
[14] 黄孔宣译,难浸金矿石微生物氧化厂[J].国外黄金参考,1997,7:17-23.
[15] L. Breriey,细菌的氧化作用[J].湿法冶金,1996,12:44-47.[16] 裘荣庆.处理难浸含砷金作用的微生物及其浸出砷的机理[J].微生物提金工艺,1989,7.
[17] 王营茹,魏以和, 钟康年.细菌氧化-炭浸法处理含砷难浸金矿[J].湿法冶金, 1998,9:27-30.
[18] 裘荣庆.微生物冶金的研究和应用现状[J].微生物学通报,1995,22(3):180-183.
[19] 向兰.含砷金矿石细菌预氧化—氰化提金的渗滤柱浸研究[J].黄金,1994,3:30-34.
[20] 王力军.难处理金矿石预处理技术综述[J].黄金,2000,1:38-45.
[21] 陈顺方,钟文远.难浸硫化金矿的微生物氧化预处理及应用现状[J].国外金属矿选矿,2000,2:6-8. |