武汉工程大学学报
武漢工程大學學報
무한공정대학학보
JOURNAL OF WUHAN INSTITUTE OF TECHNOLOGY
2014年
11期
1-6
,共6页
余训民%金虹%胡丽军%黄雯琦%王术智
餘訓民%金虹%鬍麗軍%黃雯琦%王術智
여훈민%금홍%호려군%황문기%왕술지
电镀污泥%铜%硫酸%浸出工艺%动力学
電鍍汙泥%銅%硫痠%浸齣工藝%動力學
전도오니%동%류산%침출공예%동역학
electroplating sludge%copper%sulfuric acid%leaching process%kinetics
以硫酸为浸出剂,对某表面处理工业园电镀废水处理污泥中的铜做了浸出试验研究.将污泥干燥、研磨, X射线衍射和X射线能谱仪分析表明污泥中含铜19.03%.采用单因素优化试验探讨了固液比、反应时间、浸出温度、硫酸质量分数、搅拌速度对铜浸出率的影响.结果表明:当硫酸质量分数为20%,固液比为1∶10,搅拌速率为700 r/min时,在20℃下反应40 min ,铜的浸出率可达97%以上;根据未反应核收缩模型,对硫酸浸铜过程的动力学机理进行了研究,结果表明:硫酸浸铜过程的控制步骤为固体膜扩散控制,其反应级数为0.8282,浸出活化能为11.809 kJ/mol .研究为含铜电镀污泥安全处置提供理论依据.
以硫痠為浸齣劑,對某錶麵處理工業園電鍍廢水處理汙泥中的銅做瞭浸齣試驗研究.將汙泥榦燥、研磨, X射線衍射和X射線能譜儀分析錶明汙泥中含銅19.03%.採用單因素優化試驗探討瞭固液比、反應時間、浸齣溫度、硫痠質量分數、攪拌速度對銅浸齣率的影響.結果錶明:噹硫痠質量分數為20%,固液比為1∶10,攪拌速率為700 r/min時,在20℃下反應40 min ,銅的浸齣率可達97%以上;根據未反應覈收縮模型,對硫痠浸銅過程的動力學機理進行瞭研究,結果錶明:硫痠浸銅過程的控製步驟為固體膜擴散控製,其反應級數為0.8282,浸齣活化能為11.809 kJ/mol .研究為含銅電鍍汙泥安全處置提供理論依據.
이류산위침출제,대모표면처리공업완전도폐수처리오니중적동주료침출시험연구.장오니간조、연마, X사선연사화X사선능보의분석표명오니중함동19.03%.채용단인소우화시험탐토료고액비、반응시간、침출온도、류산질량분수、교반속도대동침출솔적영향.결과표명:당류산질량분수위20%,고액비위1∶10,교반속솔위700 r/min시,재20℃하반응40 min ,동적침출솔가체97%이상;근거미반응핵수축모형,대류산침동과정적동역학궤리진행료연구,결과표명:류산침동과정적공제보취위고체막확산공제,기반응급수위0.8282,침출활화능위11.809 kJ/mol .연구위함동전도오니안전처치제공이론의거.
The experiment was carried out for leaching copper from sludge of electroplating wastewater in a surface treatment industrial park using sulfuric acid as the leaching agent .The sludge was dried and grinded and it's main components were analyzed by using X‐ray diffraction and X‐ray energy spectrome‐ter .Result shows that the sludge contains 19 .03% copper .The effects of sulfuric acid concentration , solid‐to‐liquid ratio ,reaction time ,temperature and stirring speed on the leaching rate of copper were discussed .The results show that the leaching rate of copper is 97% under the conditions of sulfuric acid mass fraction of 20% ,solid‐to‐liquid ratio of 1:10 ,stirring speed of 700 r/min ,reaction time of 40 min and temperature of 20 ℃ .The kinetics of the copper‐leaching process was studied according to the un‐reaction shrinking core model .T he results indicate that the leaching rate of copper is mainly controlled by the solid membrane diffusion rate ,in w hich reaction order is 0 .828 2 and leaching activation energy is 11 .809 kJ/mol . T he study provides a theoretical basis for a safe disposal of copper electroplating sludge .