XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 2973
Jameson, G H, 2007. Method and apparatus for flota-
tion in a fluidized bed, PCT Patent 200810422A1,
September 4, 2008.
Jaques, E, Vollert, L, Akerstrom, B and Seaman, B A, 2021.
Commissioning of the coarse ore flotation circuit at
Cadia Valley Operations – challenges and successes.
Mill Operators Conference 2021. 124–138.
Knaus, O M, 1968. Verfahren zur Flotation von Mineralien
und Vorrichtung zur Durchfuhrung des Verfahrens.
DE Patent No 1,257,704, 4 Jan. 1968.
Kohmuench, J, Mankosa, M, Thanasekaran, H and Hobert,
A, 2018. Improving coarse particle flotation using the
HydroFloat ™ (raising the trunk of the elephant curve).
Miner. Eng.121. 137–145.
Kromah, V, Powoe, S B, Khosravi, R, Neisiani, A A and
Chelgani, S C, 2022. Coarse particle separation by flu-
idized-bed flotation: A comprehensive review. Powder
Technology. 409. 117831. ISSN 0032-5910. doi:
10.1016/j.powtec.2022.117831.
Mankosa, M J and Luttrell, G H, 2002. Air-assisted density
separator device and method, U.S Patent 6,425,485,
July 30, 2002.
Mudd, G M, 2009. The Sustainability of Mining
in Australia: Key Production Trends and Their
Environmental Implications for the Future.
Department of Civil Engineering, Monash University,
ISBN: 978-0-9803199-4-1.
Nenno, V E, Lashkul, A V, Leppinen, J O and Bjorklof, S
V, 2004. Apparatus for separation of solids in froth, U.
S Patent 6,776,292, August 17, 2004.
Rötzer, N and Schmidt, M, 2020. Historical, Current,
and Future Energy Demand from Global Copper
Production and Its Impact on Climate Change.
Resources. 9 (4) 44. (doi: 10.3390/resources9040044).
Wang, G, Nguyen, A V, Mitra, S, Joshi, J, Jameson, G J and
Evans, G M, 2016. A review of the mechanisms and
models of bubble-particle detachment in froth flota-
tion. Sep. Purif. Technol. 170. 155–172.
Urizar., D., 2011. Procedure and apparatus of the con-
centration of hydrophobic materials. U.S. Patent No
8,038,012, 18 Oct. 2011.
Jameson, G H, 2007. Method and apparatus for flota-
tion in a fluidized bed, PCT Patent 200810422A1,
September 4, 2008.
Jaques, E, Vollert, L, Akerstrom, B and Seaman, B A, 2021.
Commissioning of the coarse ore flotation circuit at
Cadia Valley Operations – challenges and successes.
Mill Operators Conference 2021. 124–138.
Knaus, O M, 1968. Verfahren zur Flotation von Mineralien
und Vorrichtung zur Durchfuhrung des Verfahrens.
DE Patent No 1,257,704, 4 Jan. 1968.
Kohmuench, J, Mankosa, M, Thanasekaran, H and Hobert,
A, 2018. Improving coarse particle flotation using the
HydroFloat ™ (raising the trunk of the elephant curve).
Miner. Eng.121. 137–145.
Kromah, V, Powoe, S B, Khosravi, R, Neisiani, A A and
Chelgani, S C, 2022. Coarse particle separation by flu-
idized-bed flotation: A comprehensive review. Powder
Technology. 409. 117831. ISSN 0032-5910. doi:
10.1016/j.powtec.2022.117831.
Mankosa, M J and Luttrell, G H, 2002. Air-assisted density
separator device and method, U.S Patent 6,425,485,
July 30, 2002.
Mudd, G M, 2009. The Sustainability of Mining
in Australia: Key Production Trends and Their
Environmental Implications for the Future.
Department of Civil Engineering, Monash University,
ISBN: 978-0-9803199-4-1.
Nenno, V E, Lashkul, A V, Leppinen, J O and Bjorklof, S
V, 2004. Apparatus for separation of solids in froth, U.
S Patent 6,776,292, August 17, 2004.
Rötzer, N and Schmidt, M, 2020. Historical, Current,
and Future Energy Demand from Global Copper
Production and Its Impact on Climate Change.
Resources. 9 (4) 44. (doi: 10.3390/resources9040044).
Wang, G, Nguyen, A V, Mitra, S, Joshi, J, Jameson, G J and
Evans, G M, 2016. A review of the mechanisms and
models of bubble-particle detachment in froth flota-
tion. Sep. Purif. Technol. 170. 155–172.
Urizar., D., 2011. Procedure and apparatus of the con-
centration of hydrophobic materials. U.S. Patent No
8,038,012, 18 Oct. 2011.