2944 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
Imhof, R.M., Brown, J.V., 2000. Imhoflot—Evolution of
pneumatic flotation. in Major Trends in Development
of Sulfide Ores Up-Grading in the 21st Century
Conference Proceedings.
Imhof, R.M., Brown, J.V., Lotzien, R.M., 2004.
Development of pneumatic flotation incorporating
centrifugal separation. Erzmetall 57 (2), 69–76.
Imhof, R.M., et al., 2005. The successful application of
pneumatic flotation technology for the removal of
silica by reverse flotation at the iron ore pellet plant
of Compania Minera Huasco, Chile. Centenary of
Flotation Symposium.
Imhof, R.M., Lotzien, R., Sobek, S., 1993. Pneumatic flo-
tation: a reliable procedure for a correct plant layout. in
XVIII International Mineral Processing Congress Sydney.
Australia.
Iveson, S.M., et al. 2022. Full-scale trial of the REFLUX ™
flotation cell. Miner. Eng. 179, 107447.
Leistner, T., Embrechts, M., Leißner, T., Chehreh Chelgani,
S., Osbahr, I., Möckel, R., Peuker, U.A., Rudolph, M.,
2016. A study of the reprocessing of fine and ultrafine
cassiterite from gravity tailing residues by using various
flotation techniques. Miner. Eng. 96–97, 94–98.
Leistner, T., Peuker, U.A., Rudolph, M., 2017. How gangue
particle size can affect the recovery of ultrafine and fine
particles during froth flotation. Miner. Eng. 109, 1–9.
Trahar, W.J., Warren, L.J., 1976. The flotability of very
fine particles—A review. Int. J. Miner. Process. 3 (2),
103–131.
Mohanty, M., et al., 2005. Performance Optimisation of
the Imhoflot G-Cell for. Fine Coal Cleaning.
Pyle, L., Tabosa, E., Vianna, S., Sinclair, S., Valery, W.
2022, Future (and present) trends in circuit design,
IMPC Asia-Pacific 2022, Melbourne 22–24 August,
Australia, p. 1068–1083.
Trahar, W.J., 1981. A rational interpretation of the role of
particle size in flotation. Int. J. Miner. Process. 8 (4),
289–327.
Veliz S., P., et al. 2016. A comparison from pilot test to
industrial results –Implementation of pneumatic
technology in molybdenum selective flotation plant.
in 12th International Mineral Processing Conference-
Procemin 2016. Santiago, Chile.
Yáñez, A., Kupka, N., Tunç, B., Suhonen, J., Rinne, A.
2024, Fine and ultrafine flotation with the Concorde
Cell ™—A journey, Minerals Engineering, Volume 206,
108538, doi: 10.1016/j.mineng.2023.108538.
Young, C.A., SME Mineral Processing and Extractive
Metallurgy Handbook. 2019: Society for Mining,
Metallurgy &Exploration.
Young, M., et al., 2006. Jameson cell: The “comeback” in
base metals applications using improved design and
flowsheet. in Proceedings 38th Annual Meeting of the
Canadian Mineral Processors.
Imhof, R.M., Brown, J.V., 2000. Imhoflot—Evolution of
pneumatic flotation. in Major Trends in Development
of Sulfide Ores Up-Grading in the 21st Century
Conference Proceedings.
Imhof, R.M., Brown, J.V., Lotzien, R.M., 2004.
Development of pneumatic flotation incorporating
centrifugal separation. Erzmetall 57 (2), 69–76.
Imhof, R.M., et al., 2005. The successful application of
pneumatic flotation technology for the removal of
silica by reverse flotation at the iron ore pellet plant
of Compania Minera Huasco, Chile. Centenary of
Flotation Symposium.
Imhof, R.M., Lotzien, R., Sobek, S., 1993. Pneumatic flo-
tation: a reliable procedure for a correct plant layout. in
XVIII International Mineral Processing Congress Sydney.
Australia.
Iveson, S.M., et al. 2022. Full-scale trial of the REFLUX ™
flotation cell. Miner. Eng. 179, 107447.
Leistner, T., Embrechts, M., Leißner, T., Chehreh Chelgani,
S., Osbahr, I., Möckel, R., Peuker, U.A., Rudolph, M.,
2016. A study of the reprocessing of fine and ultrafine
cassiterite from gravity tailing residues by using various
flotation techniques. Miner. Eng. 96–97, 94–98.
Leistner, T., Peuker, U.A., Rudolph, M., 2017. How gangue
particle size can affect the recovery of ultrafine and fine
particles during froth flotation. Miner. Eng. 109, 1–9.
Trahar, W.J., Warren, L.J., 1976. The flotability of very
fine particles—A review. Int. J. Miner. Process. 3 (2),
103–131.
Mohanty, M., et al., 2005. Performance Optimisation of
the Imhoflot G-Cell for. Fine Coal Cleaning.
Pyle, L., Tabosa, E., Vianna, S., Sinclair, S., Valery, W.
2022, Future (and present) trends in circuit design,
IMPC Asia-Pacific 2022, Melbourne 22–24 August,
Australia, p. 1068–1083.
Trahar, W.J., 1981. A rational interpretation of the role of
particle size in flotation. Int. J. Miner. Process. 8 (4),
289–327.
Veliz S., P., et al. 2016. A comparison from pilot test to
industrial results –Implementation of pneumatic
technology in molybdenum selective flotation plant.
in 12th International Mineral Processing Conference-
Procemin 2016. Santiago, Chile.
Yáñez, A., Kupka, N., Tunç, B., Suhonen, J., Rinne, A.
2024, Fine and ultrafine flotation with the Concorde
Cell ™—A journey, Minerals Engineering, Volume 206,
108538, doi: 10.1016/j.mineng.2023.108538.
Young, C.A., SME Mineral Processing and Extractive
Metallurgy Handbook. 2019: Society for Mining,
Metallurgy &Exploration.
Young, M., et al., 2006. Jameson cell: The “comeback” in
base metals applications using improved design and
flowsheet. in Proceedings 38th Annual Meeting of the
Canadian Mineral Processors.