US EPA

4263224 

Journal Article 

Separation of macro amounts of tungsten and molybdenum by selective precipitation 

Zhao, Z; Cao, C; Chen, X; Huo, G 

2011 

Yes 

Hydrometallurgy
ISSN: 0304-386X 

108 

3-4 

229-232 

10.1016/j.hydromet.2011.04.006 

WOS:000292788200012 

The isomorphism of W and Mo is strong in scheelite-type ores but quite limited or even not existent in wolframite. These differences inspired us to develop some new separation methods by imitating the formation of wolframite, for the precipitation processes are similar to the mineralization processes. Through experimental studies, the reliability of such ways was verified by the precipitation behaviors of W and Mo with different divalent ions. Furthermore, MnSO(4) was chosen as a valuable reagent for the separation and then effects of several variables were evaluated. The results showed that this method worked well in the neutral solution. The optimal temperature was 50 degrees C. Further prolonging the addition time of the precipitation reagent was beneficial. As W concentrations were fixed 0.1 M. with increasing Mo in the range from 0.0125 to 0.8 M, the precipitation of W decreased slightly but was still above 80%. In addition, the method also performed well in industrial solution. All these demonstrated that this method was simple but promising for separating macro amounts of W and Mo. (C) 2011 Elsevier B.V. All rights reserved. 

Tungsten; Molybdenum; Selective precipitation; Manganese sulfate