1) Recycling water in beneficiation process
选矿环水
3) water intake of dressing works
选矿取水
4) mineral processing wastewater
选矿废水
1.
Lead-zinc mineral processing wastewater was treated by polymeric ferric sulfate(PFS) and a complex coagulant of PFS-FeSO4.
采用聚合硫酸铁(PFS)和PFS-FeSO4复合混凝剂处理铅锌矿选矿废水。
2.
And the experiment results show that FeCl_3 is the best coagulant for treating mineral processing wastewater.
以硫酸铝[Al2(SO4)3]、硫酸铁[Fe2(SO4)3]、三氯化铁(FeCl3)、氯化铝(AlCl3)为混凝剂处理选矿废水,探讨了不同混凝剂的处理效果及三氯化铁处理砷、镉等离子的混凝机理。
3.
The properties of mineral processing wastewater from Fankou Mine were discussed, and the influence of flocculants,such as DPA150,PAM-I,PAM-IV,SH930 and 3#,and ferric chloride,on the settlement efficiency of the wastewater,and the influence of the wastewater treated using these reagents on the flotation of galena,were investigated.
介绍了凡口选矿废水的来源特点。
5) flotation wastewater
选矿废水
1.
Study on treating flotation wastewater by Fenton reagent;
Fenton试剂处理选矿废水机理研究
2.
The flotation wastewater of anglesite and laphalerite was treated by NaClO process.
采用次氯酸钠法处理铅锌硫化矿选矿废水,考察了废水初始pH、NaClO加入量及反应时间对选矿废水COD去除率的影响。
3.
The treatment of remainder xanthate in flotation wastewater by Fenton reagent was investigated.
研究了用Fenton试剂处理某选矿废水中残余的黄药,分别考查了氧化时间、反应初始pH值、Fe2+浓度及H2O2用量对黄药降解效果的影响,用正交试验确定了四个因素的最好条件。
6) froth float of ore fresh water
选矿给水
补充资料:地下水水资源评价(见水资源评价)
地下水水资源评价(见水资源评价)
d ixiashui shuiziyuan Ping】ia地下水水资源评价见水资源评价。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条