US EPA

2630100 

Journal Article 

Pressure leaching technique of smelter dust with high-copper and high-arsenic 

Xu Zhi-feng; Li Qiang; Nie Hua-ping 

2010 

1 

Transactions of Nonferrous Metals Society of China
ISSN: 1003-6326 

20 

S176-S181 

WOS:000278706500034 

The application of pressure leaching technology in the treatment of high-copper and high-arsenic dust was studied. The pressure leaching technique was determined as follows: the liquid to solid ratio (mL/g) of 5:1, the leaching temperature of 453 K, the retention time of 2 h, the initial sulfuric acid concentration of 0.74 mol/L, the oxygen partial pressure of 0.7 MPa, and the agitation speed of 500 r/min. Under these conditions, 95% of copper and 99% of zinc and only 6% of iron in the dust were leached, while about 20% of arsenic was also leached. The leaching technique was optimized further to restrain the leaching of arsenic by adding a small quantity of ferrous iron into the leaching system (c(Fe(2+))=0.036 mol/L). Copper and zinc can be effectively separated from arsenic and iron in the leach. The optimal pressure leaching technique of high-copper and high-arsenic smelter dust is proved to be effective. 

copper; arsenic; smelter dust; pressure leaching