2888 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
Finch, J., Cilliers, J. J., &Yianatos, J. (2007). Column
Flotation. In M. Fuerstenau, G. J. Jameson, &R. H.
Yoon (Eds.), Froth Flotation—a century of innovation
(pp. 681–738). Society for Mining, Metallurgy and
Exploration, Inc.
Gorain, B. K. (2005, 6–9 June, 2005). Optimisation of
Flotation Circuits With Large Flotation Cells Centenary
of Flotation Symposium, Brisbane.
Grau, R., Davoise, D., Yáñez, A., &López, Á. (2019).
Optimizing the froth area of large mechanical flotation
cells Procemin Geomet 2019, Santiago, Chile.
Hoang, D., Kupka, N., Peuker, U. A., &Rudolph, M.
(2018). Flotation study of fine grained carbonaceous
sedimentary apatite ore – Challenges in process min-
eralogy and impact of hydrodynamics. Minerals
Engineering, 121, 196–204. doi: 10.1016/j.mineng
.2018.03.021.
Jalili, A., Bermudez, G., Cardoso, C., Mendivil, M.,
Altun, O., &del Aguilla, H. (2023, November 6–9,
2023). Spider crowder upgrade: recent advancement in
froth management journey 11th International Flotation
Conference (Flotation ‘23), Cape Town, South Africa.
Jameson, G. J. (2010). New directions in flotation machine
design. Minerals Engineering, 23(11), 835–841. doi:
10.1016/j.mineng.2010.04.001.
Kupka, N., Suhonen, J., Bird, M., &Yañez, A. (2023a).
Benchmarking the metallurgical performance of the
Concorde CellTM at lab, pilot and industrial scales
55th Annual Canadian Mineral Processors Operators
Conference, Ottawa, Canada.
Kupka, N., Suhonen, J., Tunc, B., Yáñez, A., &Rinne, A.
(2023b, 6th to 9th of November, 2023). Metallurgical
performance of the Concorde CellTM at industrial scale
Flotation ‘23, Cape Town, South Africa.
Kupka, N., &Yañez, A. (2022, 08-09.02.2022). Opening
a new way to fine and ultrafine particles recovery in flo-
tation with the Concorde Cell Conference in Minerals
Engineering 2022, Luleå, Sweden.
Tunc, B., Bilal, D., Grau, R., Kupka, N., Saari, J., &
Yáñez, A. (2022). New insight on ultrafine flota-
tion with the Concorde CellTM. 17th International
Mineral Processing Symposium, Istanbul, Turkey.
Wills, B. A., &Finch, J. (2016). Wills’ Mineral Processing
Technology—An Introduction to the Practical Aspects of
Ore Treatment and Mineral Recovery (Eighth Edition
ed.). Butterworth-Heinemann.
Yáñez, A., Kupka, N., Tunç, B., Suhonen, J., &Rinne, A.
(2024). Fine and ultrafine flotation with the Concorde
CellTM – A journey. Minerals Engineering, 206,
108538. doi: 10.1016/j.mineng.2023.108538.
Yáñez, A., Morales, P., Coddou, F., Elgueta, H., Ortiz, J.
M., Perez, C., &Cortes, G. (2009, 23-26.08.2009).
Gas dispersion characterization of TankCell ®-300
at Chuquicamata concentrator 48th Conference of
Metallurgists, Sudbury, Canada.
Zheng, X., Franzidis, J. P., &Johnson, N. W. (2006).
Modelling of entrainment in industrial flotation cells:
Water recovery and degree of entrainment. Minerals
Engineering, 19(11), 1191–1203. doi: http://dx.doi
.org/10.1016/j.mineng.2005.11.005
Finch, J., Cilliers, J. J., &Yianatos, J. (2007). Column
Flotation. In M. Fuerstenau, G. J. Jameson, &R. H.
Yoon (Eds.), Froth Flotation—a century of innovation
(pp. 681–738). Society for Mining, Metallurgy and
Exploration, Inc.
Gorain, B. K. (2005, 6–9 June, 2005). Optimisation of
Flotation Circuits With Large Flotation Cells Centenary
of Flotation Symposium, Brisbane.
Grau, R., Davoise, D., Yáñez, A., &López, Á. (2019).
Optimizing the froth area of large mechanical flotation
cells Procemin Geomet 2019, Santiago, Chile.
Hoang, D., Kupka, N., Peuker, U. A., &Rudolph, M.
(2018). Flotation study of fine grained carbonaceous
sedimentary apatite ore – Challenges in process min-
eralogy and impact of hydrodynamics. Minerals
Engineering, 121, 196–204. doi: 10.1016/j.mineng
.2018.03.021.
Jalili, A., Bermudez, G., Cardoso, C., Mendivil, M.,
Altun, O., &del Aguilla, H. (2023, November 6–9,
2023). Spider crowder upgrade: recent advancement in
froth management journey 11th International Flotation
Conference (Flotation ‘23), Cape Town, South Africa.
Jameson, G. J. (2010). New directions in flotation machine
design. Minerals Engineering, 23(11), 835–841. doi:
10.1016/j.mineng.2010.04.001.
Kupka, N., Suhonen, J., Bird, M., &Yañez, A. (2023a).
Benchmarking the metallurgical performance of the
Concorde CellTM at lab, pilot and industrial scales
55th Annual Canadian Mineral Processors Operators
Conference, Ottawa, Canada.
Kupka, N., Suhonen, J., Tunc, B., Yáñez, A., &Rinne, A.
(2023b, 6th to 9th of November, 2023). Metallurgical
performance of the Concorde CellTM at industrial scale
Flotation ‘23, Cape Town, South Africa.
Kupka, N., &Yañez, A. (2022, 08-09.02.2022). Opening
a new way to fine and ultrafine particles recovery in flo-
tation with the Concorde Cell Conference in Minerals
Engineering 2022, Luleå, Sweden.
Tunc, B., Bilal, D., Grau, R., Kupka, N., Saari, J., &
Yáñez, A. (2022). New insight on ultrafine flota-
tion with the Concorde CellTM. 17th International
Mineral Processing Symposium, Istanbul, Turkey.
Wills, B. A., &Finch, J. (2016). Wills’ Mineral Processing
Technology—An Introduction to the Practical Aspects of
Ore Treatment and Mineral Recovery (Eighth Edition
ed.). Butterworth-Heinemann.
Yáñez, A., Kupka, N., Tunç, B., Suhonen, J., &Rinne, A.
(2024). Fine and ultrafine flotation with the Concorde
CellTM – A journey. Minerals Engineering, 206,
108538. doi: 10.1016/j.mineng.2023.108538.
Yáñez, A., Morales, P., Coddou, F., Elgueta, H., Ortiz, J.
M., Perez, C., &Cortes, G. (2009, 23-26.08.2009).
Gas dispersion characterization of TankCell ®-300
at Chuquicamata concentrator 48th Conference of
Metallurgists, Sudbury, Canada.
Zheng, X., Franzidis, J. P., &Johnson, N. W. (2006).
Modelling of entrainment in industrial flotation cells:
Water recovery and degree of entrainment. Minerals
Engineering, 19(11), 1191–1203. doi: http://dx.doi
.org/10.1016/j.mineng.2005.11.005