有色金属科学与工程
有色金屬科學與工程
유색금속과학여공정
JIANGXI NONFERROUS METALS
2013年
6期
1-7
,共7页
闵小波%陈杰%梁彦杰%柴立元%张海静%柯勇%王延
閔小波%陳傑%樑彥傑%柴立元%張海靜%柯勇%王延
민소파%진걸%량언걸%시립원%장해정%가용%왕연
重金属废渣%水热硫化%浮选回收
重金屬廢渣%水熱硫化%浮選迴收
중금속폐사%수열류화%부선회수
heavy-metal-containing sludge%hydrothermal sulfidation%floatation recovery
以某冶炼废水处理工段所产生的废渣为处理对象,采用水热硫化-浮选工艺对其进行资源化处理.实验首先采用正交实验法对水热硫化的影响因素进行考察,结果认为温度是影响废渣中金属锌(Zn)硫化的主要因素,其次为固液比、反应时间和硫磺添加量.最优水热硫化条件为:硫化时间4 h,温度200°C,固液比1∶3,硫磺添加量18%,在最优条件下废渣中Zn硫化率可以达到90%以上.后续的浮选考察了粒径、抑制剂(CMC)、浮选温度和浮选pH值对硫化产物可浮性的影响.研究认为温度是影响人造硫化物浮选的主要因素,最优浮选参数为:粒径38μm、温度60℃、CMC:200 g/t、pH=8.最优条件下,一次粗选,精矿Zn品位可达28.8%,Zn的回收率为55.16%.
以某冶煉廢水處理工段所產生的廢渣為處理對象,採用水熱硫化-浮選工藝對其進行資源化處理.實驗首先採用正交實驗法對水熱硫化的影響因素進行攷察,結果認為溫度是影響廢渣中金屬鋅(Zn)硫化的主要因素,其次為固液比、反應時間和硫磺添加量.最優水熱硫化條件為:硫化時間4 h,溫度200°C,固液比1∶3,硫磺添加量18%,在最優條件下廢渣中Zn硫化率可以達到90%以上.後續的浮選攷察瞭粒徑、抑製劑(CMC)、浮選溫度和浮選pH值對硫化產物可浮性的影響.研究認為溫度是影響人造硫化物浮選的主要因素,最優浮選參數為:粒徑38μm、溫度60℃、CMC:200 g/t、pH=8.最優條件下,一次粗選,精礦Zn品位可達28.8%,Zn的迴收率為55.16%.
이모야련폐수처리공단소산생적폐사위처리대상,채용수열류화-부선공예대기진행자원화처리.실험수선채용정교실험법대수열류화적영향인소진행고찰,결과인위온도시영향폐사중금속자(Zn)류화적주요인소,기차위고액비、반응시간화류광첨가량.최우수열류화조건위:류화시간4 h,온도200°C,고액비1∶3,류광첨가량18%,재최우조건하폐사중Zn류화솔가이체도90%이상.후속적부선고찰료립경、억제제(CMC)、부선온도화부선pH치대류화산물가부성적영향.연구인위온도시영향인조류화물부선적주요인소,최우부선삼수위:립경38μm、온도60℃、CMC:200 g/t、pH=8.최우조건하,일차조선,정광Zn품위가체28.8%,Zn적회수솔위55.16%.
The paper describes the application of hydrothermal sulfidation and flotation for the metal recovery from the sludge which is produced after the metallurgical waste water treatment. Experiment is carried out to investigate the influencing factors of hydrothermal sulfidation by orthogonal experimentation. The result shows that temperature is the most significant factor on the sulfidation of Zn, followed by solid-to-liquid ratio, reaction time and reagent dosage of sulfur. The optimum operating process parameters are established as follows:reaction time (4 h);temperature (200 °C);solid-to-liquid ratio(3∶1);the reagent dosage of sulfur (18 %). Under these experimental conditions, the sulfidation extent of zinc is greater than 90 %. The subsequent flotation investigates the effects of particle size, depressant dosage (CMC), temperature and pH value on the flotabilities of synthetic ZnS. The results indicate that temperature is the major factor to influence the flotation. Under the optimal conditions (particle size: 38 μm, temperature: 60 ℃, CMC: 200 g/t and pH value:8), the grade of zinc concentrate can reach 28.8%with recovery efficiency of 55.16%in one roughing stage .
