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
4期
1086-1092
,共7页
李晓晖%周桂英%黄松涛%温建康%丁建南
李曉暉%週桂英%黃鬆濤%溫建康%丁建南
리효휘%주계영%황송도%온건강%정건남
界面乳化物%固体微粒%细菌%红外光谱
界麵乳化物%固體微粒%細菌%紅外光譜
계면유화물%고체미립%세균%홍외광보
interfacial crud%solid particle%bacteria%infrared spectrum
测试微生物浸出液萃取过程中界面乳化物生成率。采用相差显微镜观察乳化液显微结构,并对萃后有机相进行吸收曲线和红外光谱检测,研究硫化镍钴矿微生物浸出液在萃取过程中界面乳化的原因。结果表明:微生物浸出液在萃取除杂过程中界面乳化物生成率随萃取次数的增加而增加。界面乳化物中含有黄钾铁矾、二氧化硅和细菌等物质,并且有机相结构发生变化,红外光谱结果显示有机相 P—O—H 键吸收峰消失,吸收曲线测试发现370 nm处出现了吸收峰。萃取过程中P204的P—O—H键断裂并与铁离子结合形成了配合物。在微生物浸出液中,固体微粒、浸矿细菌的累积以及有机相结构变化导致了界面乳化物的形成。
測試微生物浸齣液萃取過程中界麵乳化物生成率。採用相差顯微鏡觀察乳化液顯微結構,併對萃後有機相進行吸收麯線和紅外光譜檢測,研究硫化鎳鈷礦微生物浸齣液在萃取過程中界麵乳化的原因。結果錶明:微生物浸齣液在萃取除雜過程中界麵乳化物生成率隨萃取次數的增加而增加。界麵乳化物中含有黃鉀鐵礬、二氧化硅和細菌等物質,併且有機相結構髮生變化,紅外光譜結果顯示有機相 P—O—H 鍵吸收峰消失,吸收麯線測試髮現370 nm處齣現瞭吸收峰。萃取過程中P204的P—O—H鍵斷裂併與鐵離子結閤形成瞭配閤物。在微生物浸齣液中,固體微粒、浸礦細菌的纍積以及有機相結構變化導緻瞭界麵乳化物的形成。
측시미생물침출액췌취과정중계면유화물생성솔。채용상차현미경관찰유화액현미결구,병대췌후유궤상진행흡수곡선화홍외광보검측,연구류화얼고광미생물침출액재췌취과정중계면유화적원인。결과표명:미생물침출액재췌취제잡과정중계면유화물생성솔수췌취차수적증가이증가。계면유화물중함유황갑철반、이양화규화세균등물질,병차유궤상결구발생변화,홍외광보결과현시유궤상 P—O—H 건흡수봉소실,흡수곡선측시발현370 nm처출현료흡수봉。췌취과정중P204적P—O—H건단렬병여철리자결합형성료배합물。재미생물침출액중,고체미립、침광세균적루적이급유궤상결구변화도치료계면유화물적형성。
The production rate of interfacial crud was evaluated during the extraction process of bioleaching. The emulsion microstructure was observed by phase contrast microscopy, and the organic phase after extraction was studied by absorption curve and IR analysis. The formation reason of interfacial crud in nickel and cobalt sulfide ore bioleaching during the extraction process was investigated. The results show that the product rate of interfacial crud increases with increasing cycle times. The interfacial crud contains jarosite, silica and bacterial. And the organic phase structure changes, IR results show that the characteristic absorption peak of P—O—H bond in the organic phase disappears, and the adsorption curve shows a new adsorption peak appears at 370 nm. The P—O—H bond of P204 breaks and combines with Fe3+to form a complexes in the extraction process. The micro-solid particles, cumulative leaching bacteria and organic phase with changed structure lead to the formation of interfacial crud in microbial leaching solution.
