中国有色金属学报(英文版)
中國有色金屬學報(英文版)
중국유색금속학보(영문판)
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
2013年
10期
3068-3075
,共8页
郭耀广%黄鹏%张武刚%袁学武%范凤霞%王焕丽%柳建设%王兆慧
郭耀廣%黃鵬%張武剛%袁學武%範鳳霞%王煥麗%柳建設%王兆慧
곽요엄%황붕%장무강%원학무%범봉하%왕환려%류건설%왕조혜
浸出%尾矿%重金属%溶解速率
浸齣%尾礦%重金屬%溶解速率
침출%미광%중금속%용해속솔
leaching%tailings%heavy metals%dissolution rate
德兴铜矿的4#尾矿库废水来源包括碱性浮选矿浆和附近露天矿山的酸性废水(AMD)。因此,酸性矿山废水的酸化作用极可能造成尾矿中重金属的浸出。通过实验室的批次实验对德兴铜矿尾矿中锌、铜、铁和锰的浸出行为进行了研究,对pH值、温度、颗粒大小和接触时间对重金属浸出的影响进行了讨论。结果表明,锌、铜、铁和锰是尾矿中的主要重金属,石英类脉石矿物是尾矿的主要成分。尾矿的溶解反应受酸度控制,其动力学可以根据非均相反应的模型来表达,通过表面化学反应作为速率决定步骤的核收缩模型来解释。这些重金属的浸出依赖于pH值和接触时间。批次实验研究得出,锌、铜、铁和锰在pH=2.0时的最大浸出率分别为5.4%、5.8%、11.1%和34.1%。重金属的溶出与温度呈正相关性。颗粒大小不会改变这些重金属的浸出趋势,但会略微导致重金属的最高浓度和平均水平的下降。
德興銅礦的4#尾礦庫廢水來源包括堿性浮選礦漿和附近露天礦山的痠性廢水(AMD)。因此,痠性礦山廢水的痠化作用極可能造成尾礦中重金屬的浸齣。通過實驗室的批次實驗對德興銅礦尾礦中鋅、銅、鐵和錳的浸齣行為進行瞭研究,對pH值、溫度、顆粒大小和接觸時間對重金屬浸齣的影響進行瞭討論。結果錶明,鋅、銅、鐵和錳是尾礦中的主要重金屬,石英類脈石礦物是尾礦的主要成分。尾礦的溶解反應受痠度控製,其動力學可以根據非均相反應的模型來錶達,通過錶麵化學反應作為速率決定步驟的覈收縮模型來解釋。這些重金屬的浸齣依賴于pH值和接觸時間。批次實驗研究得齣,鋅、銅、鐵和錳在pH=2.0時的最大浸齣率分彆為5.4%、5.8%、11.1%和34.1%。重金屬的溶齣與溫度呈正相關性。顆粒大小不會改變這些重金屬的浸齣趨勢,但會略微導緻重金屬的最高濃度和平均水平的下降。
덕흥동광적4#미광고폐수래원포괄감성부선광장화부근로천광산적산성폐수(AMD)。인차,산성광산폐수적산화작용겁가능조성미광중중금속적침출。통과실험실적비차실험대덕흥동광미광중자、동、철화맹적침출행위진행료연구,대pH치、온도、과립대소화접촉시간대중금속침출적영향진행료토론。결과표명,자、동、철화맹시미광중적주요중금속,석영류맥석광물시미광적주요성분。미광적용해반응수산도공제,기동역학가이근거비균상반응적모형래표체,통과표면화학반응작위속솔결정보취적핵수축모형래해석。저사중금속적침출의뢰우pH치화접촉시간。비차실험연구득출,자、동、철화맹재pH=2.0시적최대침출솔분별위5.4%、5.8%、11.1%화34.1%。중금속적용출여온도정정상관성。과립대소불회개변저사중금속적침출추세,단회략미도치중금속적최고농도화평균수평적하강。
The wastewater source of 4# tailing pond in Dexing copper mine consists of alkaline flotation pulp and acid mine drainage (AMD) from the nearby opencast mine. Therefore, the heavy metals in tailing ore are very likely to be released due to acidification from AMD. The leaching behaviors of Zn, Cu, Fe and Mn in mine tailings from Dexing copper mine were investigated by a series of laboratory batch experiments. The effectcs of pH, temperature, particle size and contact time on the leachability of such heavy metals were examined. It was evident that Zn, Cu, Fe and Mn were major heavy metals in the tailings while gangue minerals like quartz were major constituents in examined tailings. The tailing dissolution reaction was controlled by the acid, whose kinetics could be expressed according to the heterogeneous reaction models and explained by a shrinking core model with the surface chemical reaction as the rate-controlling step. The leachability of all metals examined depended on pH and contact time. The batch studies indicated that the maximum leaching ratios of Zn, Cu, Fe and Mn at pH 2.0 were 5.4%, 5.8%, 11.1%and 34.1%, respectively. The dissolubility of all metals examined was positively correlated to the temperatures. The particle size would not change dissolution tendency of those heavy metals, but decrease the concentrations of leached heavy metals.