XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 2023
REFERENCES
Ancian, Frenay, &Dandois. (1997). Comparison of the
Knelson and Falcon centrifugal separators. Mozley inter-
national conference. https://minerals.seprosystems
.com/wp-content/uploads/2019/09/University
-of-Liege-Comparison-of-the-Knelson-and-Falcon
-Centrifugal-Separators-1.pdf.
Burt, R. (1999). The role of gravity concentration in mod-
ern processing plants. Minerals Engineering, 12(11),
1291–1300. doi: 10.1016/S0892-6875(99)00117-X.
Cuney, M., Marignac, C., &Weisbrod, A. (1992). The
Beauvoir topaz-lepidolite albite granite (Massif Central,
France) the disseminated magmatic Sn-Li-Ta-Nb-Be
mineralization. Economic Geology, 87(7), 1766–1794.
doi: 10.2113/gsecongeo.87.7.1766.
Das, A., &Sarkar, B. (2018). Advanced Gravity
Concentration of Fine Particles: A Review. Mineral
Processing and Extractive Metallurgy Review, 39(6),
359–394. doi: 10.1080/08827508.2018.1433176.
Dehaine, Q., Foucaud, Y., Kroll-Rabotin, J.-S., &
Filippov, L. O. (2019). Experimental investigation into
the kinetics of Falcon UF concentration: Implications
for fluid dynamic-based modelling. Separation and
Purification Technology, 215, 590–601. doi: 10.1016
/j.seppur.2019.01.048.
Demeusy, B., Arias-Quintero, C. A., Butin, G., Lainé, J.,
Tripathy, S. K., Marin, J., Dehaine, Q., &Filippov, L.
O. (2023). Characterization and Liberation Study
of the Beauvoir Granite for Lithium Mica Recovery.
Minerals, 13(7), 950. doi: 10.3390/min13070950.
Deveau, C. (2006). Improving Fine Particle Gravity Recovery
through Equipment Behavior Modification. 18.
Deveau, C. (2016, September 3). Falcon Gravity
Concentrators and the Tantalum Mining Coporation.
Sepro Mineral Systems Inc. https://minerals.sepro
systems.com/falcon-gravity-concentrators-and-the
-tantalum-mining-coporation/.
Duan, C., Wen, X., Shi, C., Zhao, Y., Wen, B., &He, Y.
(2009). Recovery of metals from waste printed circuit
boards by a mechanical method using a water medium.
Journal of Hazardous Materials, 166(1), 478–482. doi:
10.1016/j.jhazmat.2008.11.060.
EMILI: Projet d’exploitation du Lithium de Beauvoir. (2023).
https://emili.imerys.com/.
European Commission. (2020). Critical Raw Materials
Resilience: Charting a Path towards greater Security
and Sustainability. https://ec.europa.eu/docsroom
/documents/42849.
Falconer, A. (2003). Gravity Separation: Old Technique/New
Methods. Physical Separation in Science and Engineering,
12(1), 31–48. doi: 10.1080/1478647031000104293.
Farajzadeh, S., &Chehreh Chelgani, S. (2022). Gravity
separation by falcon concentrator- an over review.
Separation Science and Technology, 57(13), 2145–2164.
doi: 10.1080/01496395.2022.2028836.
Filippov, L. O., Dehaine, Q., &Filippova, I. V. (2016). Rare
earths (La, Ce, Nd) and rare metals (Sn, Nb, W) as by-
products of kaolin production – Part 3: Processing of
fines using gravity and flotation. Minerals Engineering,
95, 96–106. doi: 10.1016/j.mineng.2016.06.004.
Foucaud, Yann., Dehaine, Q., Filippov, Lev. O., &
Filippova, I. V. (2019). Application of Falcon
Centrifuge as a Cleaner Alternative for Complex
Tungsten Ore Processing. Minerals, 9(7), 448. doi:
10.3390/min9070448.
Gardiner, N. J., Roberts, J. J., Johnson, G., Smith, D. J.,
Bond, C. E., Knipe, R., Haszeldine, S., Gordon, S., &
O’Donnell, M. (2023). Geosciences and the Energy
Transition. Earth Science, Systems and Society, 3, 10072.
doi: 10.3389/esss.2023.10072.
Goupy, J., &Creighton, L. (2008). Introduction to design
of experiments: With JMP examples (3. ed., 2. printing).
SAS Publ.
Gourcerol, B., Gloaguen, E., Melleton, J., Tuduri, J., &
Galiegue, X. (2019). Re-assessing the European lithium
resource potential – A review of hard-rock resources
and metallogeny. Ore Geology Reviews, 109, 494–519.
doi: 10.1016/j.oregeorev.2019.04.015.
Henckens, T. (2021). Scarce mineral resources: Extraction,
consumption and limits of sustainability. Resources,
Conservation and Recycling, 169, 105511. doi:
10.1016/j.resconrec.2021.105511.
Herrington, R. (2021). Mining our green future. Nature
Reviews Materials, 6(6), 456–458. doi: 10.1038
/s41578-021-00325-9.
Honaker, R. Q., Wang, D., &Ho, K. (1996). Application
of the Falcon Concentrator for fine coal clean-
ing. Minerals Engineering, 9(11), 1143–1156. doi:
10.1016/0892-6875(96)00108-2.
Kökkılıç, O., Langlois, R., &Waters, K. E. (2015). A
design of experiments investigation into dry separation
using a Knelson Concentrator. Minerals Engineering,
72, 73–86. doi: 10.1016/j.mineng.2014.09.025.
Kroll Rabotin, J.-S. (2010). Analyse physique et modélisa-
tion de la séparation centrifuge de particules ultr-fines en
film fluant: Application au séparateur industriel Falcon.
https://oatao.univ-toulouse.fr/7083/1/kroll_rabotin
.pdf.
REFERENCES
Ancian, Frenay, &Dandois. (1997). Comparison of the
Knelson and Falcon centrifugal separators. Mozley inter-
national conference. https://minerals.seprosystems
.com/wp-content/uploads/2019/09/University
-of-Liege-Comparison-of-the-Knelson-and-Falcon
-Centrifugal-Separators-1.pdf.
Burt, R. (1999). The role of gravity concentration in mod-
ern processing plants. Minerals Engineering, 12(11),
1291–1300. doi: 10.1016/S0892-6875(99)00117-X.
Cuney, M., Marignac, C., &Weisbrod, A. (1992). The
Beauvoir topaz-lepidolite albite granite (Massif Central,
France) the disseminated magmatic Sn-Li-Ta-Nb-Be
mineralization. Economic Geology, 87(7), 1766–1794.
doi: 10.2113/gsecongeo.87.7.1766.
Das, A., &Sarkar, B. (2018). Advanced Gravity
Concentration of Fine Particles: A Review. Mineral
Processing and Extractive Metallurgy Review, 39(6),
359–394. doi: 10.1080/08827508.2018.1433176.
Dehaine, Q., Foucaud, Y., Kroll-Rabotin, J.-S., &
Filippov, L. O. (2019). Experimental investigation into
the kinetics of Falcon UF concentration: Implications
for fluid dynamic-based modelling. Separation and
Purification Technology, 215, 590–601. doi: 10.1016
/j.seppur.2019.01.048.
Demeusy, B., Arias-Quintero, C. A., Butin, G., Lainé, J.,
Tripathy, S. K., Marin, J., Dehaine, Q., &Filippov, L.
O. (2023). Characterization and Liberation Study
of the Beauvoir Granite for Lithium Mica Recovery.
Minerals, 13(7), 950. doi: 10.3390/min13070950.
Deveau, C. (2006). Improving Fine Particle Gravity Recovery
through Equipment Behavior Modification. 18.
Deveau, C. (2016, September 3). Falcon Gravity
Concentrators and the Tantalum Mining Coporation.
Sepro Mineral Systems Inc. https://minerals.sepro
systems.com/falcon-gravity-concentrators-and-the
-tantalum-mining-coporation/.
Duan, C., Wen, X., Shi, C., Zhao, Y., Wen, B., &He, Y.
(2009). Recovery of metals from waste printed circuit
boards by a mechanical method using a water medium.
Journal of Hazardous Materials, 166(1), 478–482. doi:
10.1016/j.jhazmat.2008.11.060.
EMILI: Projet d’exploitation du Lithium de Beauvoir. (2023).
https://emili.imerys.com/.
European Commission. (2020). Critical Raw Materials
Resilience: Charting a Path towards greater Security
and Sustainability. https://ec.europa.eu/docsroom
/documents/42849.
Falconer, A. (2003). Gravity Separation: Old Technique/New
Methods. Physical Separation in Science and Engineering,
12(1), 31–48. doi: 10.1080/1478647031000104293.
Farajzadeh, S., &Chehreh Chelgani, S. (2022). Gravity
separation by falcon concentrator- an over review.
Separation Science and Technology, 57(13), 2145–2164.
doi: 10.1080/01496395.2022.2028836.
Filippov, L. O., Dehaine, Q., &Filippova, I. V. (2016). Rare
earths (La, Ce, Nd) and rare metals (Sn, Nb, W) as by-
products of kaolin production – Part 3: Processing of
fines using gravity and flotation. Minerals Engineering,
95, 96–106. doi: 10.1016/j.mineng.2016.06.004.
Foucaud, Yann., Dehaine, Q., Filippov, Lev. O., &
Filippova, I. V. (2019). Application of Falcon
Centrifuge as a Cleaner Alternative for Complex
Tungsten Ore Processing. Minerals, 9(7), 448. doi:
10.3390/min9070448.
Gardiner, N. J., Roberts, J. J., Johnson, G., Smith, D. J.,
Bond, C. E., Knipe, R., Haszeldine, S., Gordon, S., &
O’Donnell, M. (2023). Geosciences and the Energy
Transition. Earth Science, Systems and Society, 3, 10072.
doi: 10.3389/esss.2023.10072.
Goupy, J., &Creighton, L. (2008). Introduction to design
of experiments: With JMP examples (3. ed., 2. printing).
SAS Publ.
Gourcerol, B., Gloaguen, E., Melleton, J., Tuduri, J., &
Galiegue, X. (2019). Re-assessing the European lithium
resource potential – A review of hard-rock resources
and metallogeny. Ore Geology Reviews, 109, 494–519.
doi: 10.1016/j.oregeorev.2019.04.015.
Henckens, T. (2021). Scarce mineral resources: Extraction,
consumption and limits of sustainability. Resources,
Conservation and Recycling, 169, 105511. doi:
10.1016/j.resconrec.2021.105511.
Herrington, R. (2021). Mining our green future. Nature
Reviews Materials, 6(6), 456–458. doi: 10.1038
/s41578-021-00325-9.
Honaker, R. Q., Wang, D., &Ho, K. (1996). Application
of the Falcon Concentrator for fine coal clean-
ing. Minerals Engineering, 9(11), 1143–1156. doi:
10.1016/0892-6875(96)00108-2.
Kökkılıç, O., Langlois, R., &Waters, K. E. (2015). A
design of experiments investigation into dry separation
using a Knelson Concentrator. Minerals Engineering,
72, 73–86. doi: 10.1016/j.mineng.2014.09.025.
Kroll Rabotin, J.-S. (2010). Analyse physique et modélisa-
tion de la séparation centrifuge de particules ultr-fines en
film fluant: Application au séparateur industriel Falcon.
https://oatao.univ-toulouse.fr/7083/1/kroll_rabotin
.pdf.