14
[22] Wiese, J., Harris, P., (2012). The effect of frother
type and dosage on flotation performance in
the presence of high depressant concentrations,
Minerals Engineering, Volumes 36–38, Pages 204–
210, ISSN 0892-6875, https://doi.org/10.1016
/j.mineng.2012.03.028.
[23] Bikerman, J.J., (1973). Foams. Springer-Verlag, New
York.
[24] Morar, S., Hatfield, D., Barbian, N., Bradshaw, D.,
Cilliers, J.,Triffett, B., (2006). A comparison of flo-
tation froth stability measurements and their use in
the prediction of concentrate grade. IMPC 2006 -
Proceedings of 23rd International Mineral Processing
Congress.
[25] Cappuccitti, F., and J. E. Nesset. (2009). Frother
and collector effects on flotation cell hydrodynam-
ics and their implication on circuit performance.
In Proceedings of the 48th Annual Conference of
Metallurgists of CIM, Advances in Mineral Processing
Science and Technology, Sudbury, Ontario, August
23–26, 169–80.
[22] Wiese, J., Harris, P., (2012). The effect of frother
type and dosage on flotation performance in
the presence of high depressant concentrations,
Minerals Engineering, Volumes 36–38, Pages 204–
210, ISSN 0892-6875, https://doi.org/10.1016
/j.mineng.2012.03.028.
[23] Bikerman, J.J., (1973). Foams. Springer-Verlag, New
York.
[24] Morar, S., Hatfield, D., Barbian, N., Bradshaw, D.,
Cilliers, J.,Triffett, B., (2006). A comparison of flo-
tation froth stability measurements and their use in
the prediction of concentrate grade. IMPC 2006 -
Proceedings of 23rd International Mineral Processing
Congress.
[25] Cappuccitti, F., and J. E. Nesset. (2009). Frother
and collector effects on flotation cell hydrodynam-
ics and their implication on circuit performance.
In Proceedings of the 48th Annual Conference of
Metallurgists of CIM, Advances in Mineral Processing
Science and Technology, Sudbury, Ontario, August
23–26, 169–80.