708 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
McFadzean, B. Marozva, T. Wiese, J. Flotation frother
mixtures: Decoupling the sub-processes of froth stabil-
ity, froth recovery and entrainment. Miner. Eng. 2016,
85, 72–79.
Mielczarski, J.A., Mielczarski, E. and Cases, J.M. (1998)
‘Influence of chain length on adsorption of xanthates
on chalcopyrite’, International Journal of Mineral
Processing, 52(4), pp. 215–231.
Mpongo, M. and Siame, E. (2010), ‘Effect of collector,
frother and depressant addition on the copper recovery
and concentrate grade of the Nchanga underground
scavenger circuit of Konkola copper mine -Zambia’,
African Journal of Science and Technology 7(1).
Muzenda, E., 2010. An investigation into the effect of water
quality on flotation performance. World Academy of
Science, Engineering and Technology, Volume 69.
Ostadrahimi, M., Farrokhpay, S., Gharibi, K., Dehghani,
A. and Aghajanloo, M. (2021), ‘Effects of flotation
operational parameters on froth stability and froth
recovery’, Journal of the Southern African Institute.
of Mining and Metallurgy 121, 11–20.
Özün, S. and Ergen, G. (2019) ‘Determination of Optimum
Parameters for Flotation of Galena: Effect of Chain
Length and Chain Structure of Xanthates on Flotation
Recovery’, ACS Omega, 4(1), pp. 1516–1524.
Park, S., Huang, K. and Yoon, R.-H. (2018), ‘Predicting
bubble coarsening in flotation froth: Effect of contact
angle and particle size’, Minerals Engineering 127,
256–264.
Sheni, N.R., Corin, K.C. and Wiese, J. (2018) Considering
the effect of pulp chemistry during flotation on froth
stability. Minerals Engineering 116, 15–23.
Taguta, J., O’Connor, C.T. and McFadzean, B. (2017) ‘The
effect of the alkyl chain length and ligand type of thiol
collectors on the heat of adsorption and floatability
of sulfide minerals’, Minerals Engineering. Elsevier,
110(July 2016), pp. 145–152.
Wiese, J.G., Harris, P.J., Bradshaw, D. (2010) The effect
of increased frother dosage on froth stability at
high depressant dosages. Minerals Engineering 23,
1010–1017.
Wiese, J.G. 2009. Investigating Depressant Behaviour
in the Flotation of Selected Merensky Ores, (MSc.
Eng Thesis). University of Cape Town, Faculty of
Engineering and the Built Environment, Chemical
Engineering Department, Cape Town, South Africa.
Wiese, J., Harris, P. and Bradshaw, D. (2005), ‘The influ-
ence of the reagent suite on the flotation of ores from
the Merensky reef’, Minerals Engineering 18, 189–198.
Xie, D., Zhang, X., Morbidelli, M., Wu, H. (2016)
‘Competitive Adsorption of Xanthates with Different
Chain Lengths on Chalcopyrite Particles’, Industrial
and Engineering Chemistry Research, 55(5),
pp. 1461–1468.
McFadzean, B. Marozva, T. Wiese, J. Flotation frother
mixtures: Decoupling the sub-processes of froth stabil-
ity, froth recovery and entrainment. Miner. Eng. 2016,
85, 72–79.
Mielczarski, J.A., Mielczarski, E. and Cases, J.M. (1998)
‘Influence of chain length on adsorption of xanthates
on chalcopyrite’, International Journal of Mineral
Processing, 52(4), pp. 215–231.
Mpongo, M. and Siame, E. (2010), ‘Effect of collector,
frother and depressant addition on the copper recovery
and concentrate grade of the Nchanga underground
scavenger circuit of Konkola copper mine -Zambia’,
African Journal of Science and Technology 7(1).
Muzenda, E., 2010. An investigation into the effect of water
quality on flotation performance. World Academy of
Science, Engineering and Technology, Volume 69.
Ostadrahimi, M., Farrokhpay, S., Gharibi, K., Dehghani,
A. and Aghajanloo, M. (2021), ‘Effects of flotation
operational parameters on froth stability and froth
recovery’, Journal of the Southern African Institute.
of Mining and Metallurgy 121, 11–20.
Özün, S. and Ergen, G. (2019) ‘Determination of Optimum
Parameters for Flotation of Galena: Effect of Chain
Length and Chain Structure of Xanthates on Flotation
Recovery’, ACS Omega, 4(1), pp. 1516–1524.
Park, S., Huang, K. and Yoon, R.-H. (2018), ‘Predicting
bubble coarsening in flotation froth: Effect of contact
angle and particle size’, Minerals Engineering 127,
256–264.
Sheni, N.R., Corin, K.C. and Wiese, J. (2018) Considering
the effect of pulp chemistry during flotation on froth
stability. Minerals Engineering 116, 15–23.
Taguta, J., O’Connor, C.T. and McFadzean, B. (2017) ‘The
effect of the alkyl chain length and ligand type of thiol
collectors on the heat of adsorption and floatability
of sulfide minerals’, Minerals Engineering. Elsevier,
110(July 2016), pp. 145–152.
Wiese, J.G., Harris, P.J., Bradshaw, D. (2010) The effect
of increased frother dosage on froth stability at
high depressant dosages. Minerals Engineering 23,
1010–1017.
Wiese, J.G. 2009. Investigating Depressant Behaviour
in the Flotation of Selected Merensky Ores, (MSc.
Eng Thesis). University of Cape Town, Faculty of
Engineering and the Built Environment, Chemical
Engineering Department, Cape Town, South Africa.
Wiese, J., Harris, P. and Bradshaw, D. (2005), ‘The influ-
ence of the reagent suite on the flotation of ores from
the Merensky reef’, Minerals Engineering 18, 189–198.
Xie, D., Zhang, X., Morbidelli, M., Wu, H. (2016)
‘Competitive Adsorption of Xanthates with Different
Chain Lengths on Chalcopyrite Particles’, Industrial
and Engineering Chemistry Research, 55(5),
pp. 1461–1468.