8
M., Poole, C.F. (Eds.), Encyclopedia of Separation
Science. Academic Press, USA, pp. 1502–1512.
[6] Grönstrand, S., Niitti, T., Rinne, A., Turunen, J.,
2006. Enhancement of flow dynamics of existing flo-
tation cells. In: 38th Annual Meeting of the Canadian
Mineral Processors. Canadian Mineral Processors
CIM, Ottawa, Canada, pp. 404–422.
[7] Gupta, A., Yan, D., 2006. Mineral Processing Design
and Operations, second ed., Chapter 16, pp 555–
603, Elsevier B.V.
[8] Harris, C.C., 1976. Flotation Machines, in Flotation
(ed M.C. Fuerstenau), Chapter 27, pp 753–815
(AIME: New York).
[9] Leon, C., Porras, M., 2013. Mejora de la Recuperación
de cobre por Control Metalúrgico en la Etapa de
Molienda y Flotación en Concentradora Antamina.
In Perumin 31 Convencion Minera, Arequipa, Peru.
[10] Mesa, D., Brito-Parada, P.R., 2019. Scale-up in
froth flotation: A state-of-the-art review. Sep. Purif.
Technol. 210, 950–962.
[11] Morgan, S., Weekes, B., Jakowetz, A., Arnold, S.,
Taylor, S, Keokhounsy, S. Lakanen, J., Tiitinen, J.,
2021. Nui Phao Mine – A Study On The Effect
Of Flotation Mechanism Wear On Metallurgical
Performance. In: Proceedings 15th AusIMM Mill
Operators Conference 2021, pp. 152–166, The
Australasian Institute of Mining and Metallurgy:
Brisbane.
[12] Morgan, S., Weekes, B., Jakowetz, A., Litson, S.,
Taylor, S., Do, T.L., Bourke, P., 2017. Nui Phao
Mine – Flotation Circuit Upgrade. In: Proceedings
MetPlant 2017, pp 230–253, The Australasian
Institute of Mining and Metallurgy: Melbourne.
[13] Nelson, M.G., Lelinski, D., Gronstrand, S., 2009.
Design and Operation of Mechanical Flotation
Machines. In: Malhotra, D., Taylor, P.R., Spiller,
E., LeVier, M. (Eds.), Recent Advances in Mineral
Processing Plant Design. SME, USA, pp. 168–189.
[14] Oravainen, H., Allenius H., 2007. Development of
Outokumpu Flotation Machines. In: Fuerstenau,
M.C., Jameson, G., Yoon, R.H. (Eds.), Froth
Flotation: A Century of Innovation. SME, USA,
pp. 656–666.
[15] Outotec, 2011. Outotec FloatForce ® generates sav-
ings by improving recovery and efficiency. Outotec
Customer Case, Outotec In Action Bulletin.
[16] Rinne, A., 2023. Celebrating our 50th anniver-
sary in mechanical flotation. In Metso public web
site, last access November 2024. https://www.metso
.com/insights/blog/mining-and-metals/celebrating
-our‑50th-anniversary-in-mechanical-flotation/.
[17] Rinne, A., Peltola, A., 2008. On lifetime costs of flo-
tation operations, Miner. Eng. 21 (2008) 846–850.
[18] Valdivia, H., Plasencia, L., Zapana, O., 2011.
Incremento del Porcentaje de Recuperación de Cobre
en Compañia Minera Antamina. In Perumin 30
Convención Minera, Arequipa, Peru.
[19] Wills, B., Finch, J., 2016. Froth flotation, Wills’
Mineral Processing Technology 1984, Chapter 12th,
Elsevier, 2016, pp. 265–380.
[20] Yianatos, J., Bergh, L., Pino, C., Vinnett, L., Muñoz,
C., Yañez, A., 2012. Industrial evaluation of a new
flotation mechanism for large flotation cells. Miner.
Eng. 36–38, 262–271.
M., Poole, C.F. (Eds.), Encyclopedia of Separation
Science. Academic Press, USA, pp. 1502–1512.
[6] Grönstrand, S., Niitti, T., Rinne, A., Turunen, J.,
2006. Enhancement of flow dynamics of existing flo-
tation cells. In: 38th Annual Meeting of the Canadian
Mineral Processors. Canadian Mineral Processors
CIM, Ottawa, Canada, pp. 404–422.
[7] Gupta, A., Yan, D., 2006. Mineral Processing Design
and Operations, second ed., Chapter 16, pp 555–
603, Elsevier B.V.
[8] Harris, C.C., 1976. Flotation Machines, in Flotation
(ed M.C. Fuerstenau), Chapter 27, pp 753–815
(AIME: New York).
[9] Leon, C., Porras, M., 2013. Mejora de la Recuperación
de cobre por Control Metalúrgico en la Etapa de
Molienda y Flotación en Concentradora Antamina.
In Perumin 31 Convencion Minera, Arequipa, Peru.
[10] Mesa, D., Brito-Parada, P.R., 2019. Scale-up in
froth flotation: A state-of-the-art review. Sep. Purif.
Technol. 210, 950–962.
[11] Morgan, S., Weekes, B., Jakowetz, A., Arnold, S.,
Taylor, S, Keokhounsy, S. Lakanen, J., Tiitinen, J.,
2021. Nui Phao Mine – A Study On The Effect
Of Flotation Mechanism Wear On Metallurgical
Performance. In: Proceedings 15th AusIMM Mill
Operators Conference 2021, pp. 152–166, The
Australasian Institute of Mining and Metallurgy:
Brisbane.
[12] Morgan, S., Weekes, B., Jakowetz, A., Litson, S.,
Taylor, S., Do, T.L., Bourke, P., 2017. Nui Phao
Mine – Flotation Circuit Upgrade. In: Proceedings
MetPlant 2017, pp 230–253, The Australasian
Institute of Mining and Metallurgy: Melbourne.
[13] Nelson, M.G., Lelinski, D., Gronstrand, S., 2009.
Design and Operation of Mechanical Flotation
Machines. In: Malhotra, D., Taylor, P.R., Spiller,
E., LeVier, M. (Eds.), Recent Advances in Mineral
Processing Plant Design. SME, USA, pp. 168–189.
[14] Oravainen, H., Allenius H., 2007. Development of
Outokumpu Flotation Machines. In: Fuerstenau,
M.C., Jameson, G., Yoon, R.H. (Eds.), Froth
Flotation: A Century of Innovation. SME, USA,
pp. 656–666.
[15] Outotec, 2011. Outotec FloatForce ® generates sav-
ings by improving recovery and efficiency. Outotec
Customer Case, Outotec In Action Bulletin.
[16] Rinne, A., 2023. Celebrating our 50th anniver-
sary in mechanical flotation. In Metso public web
site, last access November 2024. https://www.metso
.com/insights/blog/mining-and-metals/celebrating
-our‑50th-anniversary-in-mechanical-flotation/.
[17] Rinne, A., Peltola, A., 2008. On lifetime costs of flo-
tation operations, Miner. Eng. 21 (2008) 846–850.
[18] Valdivia, H., Plasencia, L., Zapana, O., 2011.
Incremento del Porcentaje de Recuperación de Cobre
en Compañia Minera Antamina. In Perumin 30
Convención Minera, Arequipa, Peru.
[19] Wills, B., Finch, J., 2016. Froth flotation, Wills’
Mineral Processing Technology 1984, Chapter 12th,
Elsevier, 2016, pp. 265–380.
[20] Yianatos, J., Bergh, L., Pino, C., Vinnett, L., Muñoz,
C., Yañez, A., 2012. Industrial evaluation of a new
flotation mechanism for large flotation cells. Miner.
Eng. 36–38, 262–271.