中国有色金属学报
中國有色金屬學報
중국유색금속학보
The Chinese Journal of Nonferrous Metals
2015年
8期
2218-2225
,共8页
刘新星%王国华%谢建平%李寿朋%郭玉洁%潘昊旻
劉新星%王國華%謝建平%李壽朋%郭玉潔%潘昊旻
류신성%왕국화%사건평%리수붕%곽옥길%반호민
生物预氧化%难处理含硫金精矿%微生物群落%化学条件控制%两步氧化法
生物預氧化%難處理含硫金精礦%微生物群落%化學條件控製%兩步氧化法
생물예양화%난처리함류금정광%미생물군락%화학조건공제%량보양화법
bio-oxidation%refractory gold-bearing sulfide concentrate%microbial community%chemical condition control%two-step oxidation approach
难处理含硫金精矿的生物预氧化方法前景广阔,但是由于生物预氧化反应速度慢、氧化周期长等因素的存在,严重影响该法在实际应用中的推广.因此,研究生物预氧化技术的强化方法已成为推动该技术发展的关键因素.为达到强化目的,总结了3个方面的强化策略:首先,分析了微生物群落的组成优化,通过组合氧化能力更强的微生物群落来达到强化目的;其次,控制溶液的化学条件,以保证微生物的代谢和功能发挥;最后,对预氧化工艺进行改进,构建更高效的生化反应条件.通过这些方法,难处理含硫金精矿生物预氧化效果可望得到有效强化.
難處理含硫金精礦的生物預氧化方法前景廣闊,但是由于生物預氧化反應速度慢、氧化週期長等因素的存在,嚴重影響該法在實際應用中的推廣.因此,研究生物預氧化技術的彊化方法已成為推動該技術髮展的關鍵因素.為達到彊化目的,總結瞭3箇方麵的彊化策略:首先,分析瞭微生物群落的組成優化,通過組閤氧化能力更彊的微生物群落來達到彊化目的;其次,控製溶液的化學條件,以保證微生物的代謝和功能髮揮;最後,對預氧化工藝進行改進,構建更高效的生化反應條件.通過這些方法,難處理含硫金精礦生物預氧化效果可望得到有效彊化.
난처리함류금정광적생물예양화방법전경엄활,단시유우생물예양화반응속도만、양화주기장등인소적존재,엄중영향해법재실제응용중적추엄.인차,연구생물예양화기술적강화방법이성위추동해기술발전적관건인소.위체도강화목적,총결료3개방면적강화책략:수선,분석료미생물군락적조성우화,통과조합양화능력경강적미생물군락래체도강화목적;기차,공제용액적화학조건,이보증미생물적대사화공능발휘;최후,대예양화공예진행개진,구건경고효적생화반응조건.통과저사방법,난처리함류금정광생물예양화효과가망득도유효강화.
Growing demand of gold makes it essential to recover gold from refractory gold-bearing sulfide concentrates. Bio-oxidation method of refractory gold-bearing concentrates is a promising technology, but the widely utilization of bio-oxidation in the gold pre-treatment industry is limited by the low reaction rate and long oxidation cycle. Therefore, the intensifying approaches become the key factor to improve this technology. To achieve the intensification goal, three strategies were summarized in this work. Firstly, optimization of the microbial community was analyzed with the purpose of constructing more promising mixed cultures. Secondly, the chemical conditions were controlled to enhance the metabolism and function of the microorganisms. Thirdly, new processing approaches were improved to create more favorable conditions for biological and chemical reactions. When the bio-oxidation process is subjected to these strengthening strategies, the bio-oxidation efficiency will be elevated significantly.
