高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2014年
5期
1036-1043
,共8页
赵江曼%朱明龙%张旭%谭文松
趙江曼%硃明龍%張旭%譚文鬆
조강만%주명룡%장욱%담문송
胶质类芽孢杆菌%脱硅%铝土矿%16S rRNA%絮凝%浮选
膠質類芽孢桿菌%脫硅%鋁土礦%16S rRNA%絮凝%浮選
효질류아포간균%탈규%려토광%16S rRNA%서응%부선
Paenibacillus mucilaginosus%desilication%bauxite%16S rRNA%flocculation%flotation
为了获得能够对高硅铝土矿具有生物脱硅作用的硅酸盐细菌,通过亚历山大洛夫无氮培养基从野外采集的土壤样品中分离得到30株固氮解钾细菌。经与矿物的作用实验,选出脱硅能力较高的细菌。经过菌落形态学特征、显微镜染色观察、16S rRNA序列分析,确定该菌株为胶质类芽孢杆菌,并命名为BM-4。实验结果表明BM-4对硅酸盐矿物有一定的脱硅效果,更有利于层状结构硅酸盐矿物的脱硅。该菌株对高岭土和一水硬铝石有较强的吸附、絮凝和浮选作用。单矿物浮选试验结果表明BM-4在高岭土表面的吸附可将高岭土的浮选回收率从50%提高至75%,而对一水硬铝石的吸附可将其浮选回收率从49%降至27%。一水硬铝石:高岭石=5:1的混合矿物采用改进的哈里蒙德浮选管进行浮选试验,矿物的Al/Si由3.05升至8.6,氧化铝的回收率为83%。这说明,研究筛选出的胶质类芽孢杆菌BM-4对层状硅酸盐矿物有较好的溶蚀脱硅效果。通过对矿物表面的吸附,提高高岭土在浮选过程中的浮选回收率,降低一水硬铝石的浮选回收率,能够从两矿的混合体系中通过浮选的方法除去高岭石,提高铝土矿的铝硅比,从而实现应用生物浮选方法用于铝土矿预脱硅的的可能性。
為瞭穫得能夠對高硅鋁土礦具有生物脫硅作用的硅痠鹽細菌,通過亞歷山大洛伕無氮培養基從野外採集的土壤樣品中分離得到30株固氮解鉀細菌。經與礦物的作用實驗,選齣脫硅能力較高的細菌。經過菌落形態學特徵、顯微鏡染色觀察、16S rRNA序列分析,確定該菌株為膠質類芽孢桿菌,併命名為BM-4。實驗結果錶明BM-4對硅痠鹽礦物有一定的脫硅效果,更有利于層狀結構硅痠鹽礦物的脫硅。該菌株對高嶺土和一水硬鋁石有較彊的吸附、絮凝和浮選作用。單礦物浮選試驗結果錶明BM-4在高嶺土錶麵的吸附可將高嶺土的浮選迴收率從50%提高至75%,而對一水硬鋁石的吸附可將其浮選迴收率從49%降至27%。一水硬鋁石:高嶺石=5:1的混閤礦物採用改進的哈裏矇德浮選管進行浮選試驗,礦物的Al/Si由3.05升至8.6,氧化鋁的迴收率為83%。這說明,研究篩選齣的膠質類芽孢桿菌BM-4對層狀硅痠鹽礦物有較好的溶蝕脫硅效果。通過對礦物錶麵的吸附,提高高嶺土在浮選過程中的浮選迴收率,降低一水硬鋁石的浮選迴收率,能夠從兩礦的混閤體繫中通過浮選的方法除去高嶺石,提高鋁土礦的鋁硅比,從而實現應用生物浮選方法用于鋁土礦預脫硅的的可能性。
위료획득능구대고규려토광구유생물탈규작용적규산염세균,통과아력산대락부무담배양기종야외채집적토양양품중분리득도30주고담해갑세균。경여광물적작용실험,선출탈규능력교고적세균。경과균락형태학특정、현미경염색관찰、16S rRNA서렬분석,학정해균주위효질류아포간균,병명명위BM-4。실험결과표명BM-4대규산염광물유일정적탈규효과,경유리우층상결구규산염광물적탈규。해균주대고령토화일수경려석유교강적흡부、서응화부선작용。단광물부선시험결과표명BM-4재고령토표면적흡부가장고령토적부선회수솔종50%제고지75%,이대일수경려석적흡부가장기부선회수솔종49%강지27%。일수경려석:고령석=5:1적혼합광물채용개진적합리몽덕부선관진행부선시험,광물적Al/Si유3.05승지8.6,양화려적회수솔위83%。저설명,연구사선출적효질류아포간균BM-4대층상규산염광물유교호적용식탈규효과。통과대광물표면적흡부,제고고령토재부선과정중적부선회수솔,강저일수경려석적부선회수솔,능구종량광적혼합체계중통과부선적방법제거고령석,제고려토광적려규비,종이실현응용생물부선방법용우려토광예탈규적적가능성。
30 strains of nitrogen-fixing and potassium-dissolving bacterium were screened to remove silicon from low grade bauxite. One strain with best desilication ability was characterized by morpholigical observation, biochemical, physiological identification and 16S rRNA sequence analysis. It was identificated as Paenibacillus mucilaginosus, named BM-4. Results of leaching show BM-4 can desiliconize from silicate minerals with different crystal structures. It exhibits better desilication-efficiency for silicate minerals with layered crystal structures. The adsorption of Paenibacillus mucilaginosus BM-4 on kaolinite and diaspore brings about flocculation and flotation effect. The flotation recovery of kaolinite rises from 50%to 75%, and that of diaspore decreases from 49%to 27%due to adsorption of BM-4. Flotation test of mixed minerals(diaspore:kaolinite=5:1) by modified Hallimond tube shows that Si is effectively removed. The Al/Si ratio rised from 3.05 to 8.6 with 83% Al2O3 recovery. This displays that Paenibacillus mucilaginosus BM-4 screened in this paper has more effective desilication rate for silicate minerals with layered crystal structures. The rise of kaolinite’s and the reduction of disapore’s flotation recovery makes it possible to separate kaolinite from bauxite after adsorption with BM-4.
