Improving Column Flotation Cell Operation in a Copper/Molybdenum Separation Circuit (1f04772a-429e-4435-b5cd-754289fbab84)
- Organization:
- Canadian Institute of Mining, Metallurgy and Petroleum
- Pages:
- 11
- File Size:
- 576 KB
- Publication Date:
- Jan 1, 2010
Abstract
ABSTRACT Testing the effects of bubble size (Db) in a Mo cleaning ?otation column at Highland Valley Copper mine indicated that increasing the proportion of small (< 1 mm) bubbles signi?cantly improved column metallurgical response, compared to typical operation. The results were a three- to four-fold Mo recovery increase and a 1 to 2% Mo (absolute) concentrate grade increase. The improvedcolumn operation produced a 4% Mo plant recovery increase. This study also showed that modelling the ?otation rate constant (k) as an inverse square function of Db was more accurate than considering k to be inversely proportional to Db.
Citation
APA: (2010) Improving Column Flotation Cell Operation in a Copper/Molybdenum Separation Circuit (1f04772a-429e-4435-b5cd-754289fbab84)
MLA: Improving Column Flotation Cell Operation in a Copper/Molybdenum Separation Circuit (1f04772a-429e-4435-b5cd-754289fbab84). Canadian Institute of Mining, Metallurgy and Petroleum, 2010.