资源描述:
《铁氧化细菌分离及其浸出钼镍尾矿试验》由会员上传分享,免费在线阅读,更多相关内容在工程资料-天天文库。
1、doi:10.3969/j.issn.1007-7545.2016.07.005铁氧化细菌的分离及其浸出钼镍尾矿试验薛洪其1,杨爱江1,2,邓秋静1,2,姚维3,黎丹丹1(1.贵州大学资源与环境工程学院,贵阳550025;2.贵州大学环境工程规划设计研究所,贵阳550025;3.贵州江航环保科技有限公司,贵州遵义563000)摘要:从钼镍矿区矿坑废水中分离出1株嗜酸性硫杆菌,通过对该菌株形态及理化特征检测分析,初步鉴定为氧化亚铁硫杆菌(Acidithiobacillusferrooxidans,A.f菌)。以FeSO4·7H2O和
2、钼镍尾矿作为能量来源对其驯化培养,并利用驯化与非驯化的A.f菌进行摇瓶浸出钼镍尾矿试验。结果表明,驯化后的A.f菌更有利于尾矿中金属的浸出,4种目标金属浸出率大小顺序为Ni>Zn>As>Mo,钼镍尾矿中Ni、Mo、Zn、As在驯化细菌作用下最大浸出率分别为62.41%、55.66%、41.87%、12.04%,比非驯化组高2~8个百分点;A.f菌浸矿过程中,存在细菌对矿物的直接作用机理及细菌产生的H+、Fe3+对矿物的间接作用机理,H+在尾矿Ni、Zn的浸出中占主导作用,而As、Mo的浸出主要依靠Fe3+对矿物的持续氧化作用。关键
3、词:氧化亚铁硫杆菌;驯化;钼镍尾矿;生物浸出;机理中图分类号:TF18文献标志码:A文章编号:1007-7545(2016)07-0000-00IsolationofIronOxidizationBacteriumandBioleachingfromNi-MoTailingsXUEHong-qi1,YANGAi-jiang1,2,DENGQiu-jing1,2,YAOWei3,LIDan-dan1(1.CollegeofResourceandEnvironmentalEngineering,GuizhouUniversity,Gu
4、iyang550025,China;2.InstitutionofEnvironmentalEngineeringPlanningandDesign,GuizhouUniversity,Guiyang550025,China;3.GuizhouJianghangEnvironmentalProtectionTechnologyCompanyLimited,Zunyi563000,Guizhou,China)Abstract:Oneacidophilicthiobacillusbacteriumisolatedfromacidmin
5、edrainageofnickel-molybdenumwasidentifiedasAcidithiobacillusferrooxidans(A.f)bymorphologicalandphysiologicalcharacteristicsanalysis.ItwasdomesticatedapplyingNi-MooretailingsandFeSO4·7H2Oasenergysources.BioleachingofNi-Mooretailingswithdomesticatedandnon-domesticatedA.
6、fwascarriedoutinshakeflasks.TheresultsshowthatdomesticatedA.fwasmoreconducivetoleachingmetalsfromtailings,thesequenceofleachingrateoffourtargetmetalsisNi>Zn>As>Mowiththemaximumextractionrateof62.41%,55.66%,41.87%,and12.04%,whichis2~8percentpointhigherthanthatofnon-acc
7、limatedgroup.Thebioleachingmechanismswereattributedtobeoxidationbybacterialandchemicalsolubilizationbymicrobially-producedH+andFe3+.H+playsadominantroleinleachingofNiandZnfromtailings,whileleachingofAsandMomainlyreliesoncontinuedoxidationbyFe3+.Keywords:Acidithiobacil
8、lusferrooxidans;acclimatization;Ni-Motailings;bioleaching;mechanisms微生物浸矿技术因其具有传统冶金工艺无法媲美的优势已经引起广泛关注,且其投资成本低,符合节约能源和绿色环保理念,将
