XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 3333
Garcia, L.V., Ho, Y.-C., Myo Thant, M.M., et al. (2023).
Lithium in a sustainable circular economy: A compre-
hensive review. Processes 11(2): 418.
Gibson, C.E., Aghamirian, M., Grammatikopoulos, T., et
al. (2021). The recovery and concentration of spodu-
mene using dense media separation. Minerals 11(6):
649.
Gibson, C.E., Aghamirian, M. and Grammatikopoulos,
T.A. (2017). A review: The benefication of lithium
minerals from hard rock deposits, Min. Eng.
Gorain, B., Franzidis, J. and Manlapig, E. (2000).
Flotation cell design: application of fundamental prin-
ciples. Julius Kruttschnitt Mineral Research Centre.
Indooroopilly. Queensland. Australia: 1502–1512.
Han, S., Sagzhanov, D., Pan, J., et al. (2022). Direct
Extraction of Lithium from α-Spodumene by
Salt Roasting–Leaching Process. ACS Sustainable
Chemistry &Engineering 10(40): 13495–13504.
Hasanov, A., Rahimboev, B. and Mirzanova, Z.M., L.
(2023). Development and processing of lithium-con-
taining ores and man-made waste. Sanoatda raqamli
texnologiyalar 1(2): 112–122.
Jia, W., Jiao, F., Zhu, H., et al. (2021). Mitigating the
negative effects of feldspar slime on spodumene flota-
tion using mixed anionic/cationic collector. Minerals
Engineering 168: 106813.
Kulkarni, R. and Somasundaran, P. (1980). Flotation chem-
istry of hematite/oleate system. Colloids and Surfaces
1(3–4): 387–405.
Legault-Seguin, E., Mohns, C., Rylatt, M., et al. (2016).
Dense medium separation–an effective and robust
pre-concentration technology. 48th Annu. Meet. Can.
Miner. Process 44: 1–32.
Liu, Y., Ma, B., Lü, Y., et al. (2023). A review of lithium
extraction from natural resources. International Journal
of Minerals, Metallurgy and Materials 30(2): 209–224.
Manser, R.M. (1975). Handbook of silicate flotation,
Warren spring laboratory.
Moon, K.S. and Fuerstenau, D.W. (2003). Surface crys-
tal chemistry in selective flotation of spodumene (LiAl
[SiO3] 2) from other aluminosilicates. International
Journal of Mineral Processing 72(1–4): 11–24.
Oliazadeh, M., Aghamirian, M., Ali, S., et al. (2018).
Flowsheet development for benefication of lithium
minerals from hard rock deposits. Extraction 2018,
Springer: 2293–2307.
Rai, B., Sathish, P., Tanwar, J., et al. (2011). A molecular
dynamics study of the interaction of oleate and dodec-
ylammonium chloride surfactants with complex alu-
minosilicate minerals. Journal of Colloid and Interface
Science 362(2): 510–516.
Rezaee, M., Han, S., Sagzhanov, D., et al. (2021).
Microwave-assisted calcination of spodumene for effi-
cient, low-cost and environmentally friendly extraction
of lithium. Powder Technology 397: 116992.
Shu, K., Xu, L., Wu, H., et al. (2020). Selective flotation
separation of spodumene from feldspar using sodium
alginate as an organic depressant. Separation and
Purification Technology 248: 117122.
Skipp, G. and Brownfield, I.K. (1993). Improved density
gradient separation techniques using sodium polytung-
state and a comparison to the use of other heavy liquids,
US Department of the Interior, US GS Denver, CO.
Sousa, A.B., Amarante, M. and Leite, M.M. (2000).
Beneficiation studies on a spodumene ore from portu-
gal. Developments in Mineral Processing, Elsevier. 13:
C11-40–C11-46.
Tadesse, B., Makuei, F., Albijanic, B., et al. (2019). The
beneficiation of lithium minerals from hard rock ores:
A review. Minerals Engineering 131: 170–184.
Wang, L., Sun, W., Hu, Y.-H., et al. (2014). Adsorption
mechanism of mixed anionic/cationic collectors
in Muscovite—Quartz flotation system. Minerals
Engineering 64: 44–50.
Xie, R., Zhu, Y., Liu, J., et al. (2021). Research status of
spodumene flotation: A review. Mineral Processing and
Extractive Metallurgy Review 42(5): 321–334.
Xu, L., Hu, Y., Tian, J., et al. (2016). Selective flotation sep-
aration of spodumene from feldspar using new mixed
anionic/cationic collectors. Minerals Engineering 89:
84–92.
Xu, L., Hu, Y., Wu, H., et al. (2016). Surface crystal chem-
istry of spodumene with different size fractions and
implications for flotation. Separation and Purification
Technology 169: 33–42.
Xu, L., Wu, H., Dong, F., et al. (2013). Flotation and
adsorption of mixed cationic/anionic collectors on
muscovite mica. Minerals Engineering 41: 41–45.
Yelatontsev, D. and Mukhachev, A. (2021). Processing of
lithium ores: Industrial technologies and case studies–
A review. Hydrometallurgy 201: 105578.
Zhu, G., Cao, Y., Wang, Y., et al. (2020). Surface chemistry
features of spodumene with isomorphous substitution.
Minerals Engineering 146: 106139.
Garcia, L.V., Ho, Y.-C., Myo Thant, M.M., et al. (2023).
Lithium in a sustainable circular economy: A compre-
hensive review. Processes 11(2): 418.
Gibson, C.E., Aghamirian, M., Grammatikopoulos, T., et
al. (2021). The recovery and concentration of spodu-
mene using dense media separation. Minerals 11(6):
649.
Gibson, C.E., Aghamirian, M. and Grammatikopoulos,
T.A. (2017). A review: The benefication of lithium
minerals from hard rock deposits, Min. Eng.
Gorain, B., Franzidis, J. and Manlapig, E. (2000).
Flotation cell design: application of fundamental prin-
ciples. Julius Kruttschnitt Mineral Research Centre.
Indooroopilly. Queensland. Australia: 1502–1512.
Han, S., Sagzhanov, D., Pan, J., et al. (2022). Direct
Extraction of Lithium from α-Spodumene by
Salt Roasting–Leaching Process. ACS Sustainable
Chemistry &Engineering 10(40): 13495–13504.
Hasanov, A., Rahimboev, B. and Mirzanova, Z.M., L.
(2023). Development and processing of lithium-con-
taining ores and man-made waste. Sanoatda raqamli
texnologiyalar 1(2): 112–122.
Jia, W., Jiao, F., Zhu, H., et al. (2021). Mitigating the
negative effects of feldspar slime on spodumene flota-
tion using mixed anionic/cationic collector. Minerals
Engineering 168: 106813.
Kulkarni, R. and Somasundaran, P. (1980). Flotation chem-
istry of hematite/oleate system. Colloids and Surfaces
1(3–4): 387–405.
Legault-Seguin, E., Mohns, C., Rylatt, M., et al. (2016).
Dense medium separation–an effective and robust
pre-concentration technology. 48th Annu. Meet. Can.
Miner. Process 44: 1–32.
Liu, Y., Ma, B., Lü, Y., et al. (2023). A review of lithium
extraction from natural resources. International Journal
of Minerals, Metallurgy and Materials 30(2): 209–224.
Manser, R.M. (1975). Handbook of silicate flotation,
Warren spring laboratory.
Moon, K.S. and Fuerstenau, D.W. (2003). Surface crys-
tal chemistry in selective flotation of spodumene (LiAl
[SiO3] 2) from other aluminosilicates. International
Journal of Mineral Processing 72(1–4): 11–24.
Oliazadeh, M., Aghamirian, M., Ali, S., et al. (2018).
Flowsheet development for benefication of lithium
minerals from hard rock deposits. Extraction 2018,
Springer: 2293–2307.
Rai, B., Sathish, P., Tanwar, J., et al. (2011). A molecular
dynamics study of the interaction of oleate and dodec-
ylammonium chloride surfactants with complex alu-
minosilicate minerals. Journal of Colloid and Interface
Science 362(2): 510–516.
Rezaee, M., Han, S., Sagzhanov, D., et al. (2021).
Microwave-assisted calcination of spodumene for effi-
cient, low-cost and environmentally friendly extraction
of lithium. Powder Technology 397: 116992.
Shu, K., Xu, L., Wu, H., et al. (2020). Selective flotation
separation of spodumene from feldspar using sodium
alginate as an organic depressant. Separation and
Purification Technology 248: 117122.
Skipp, G. and Brownfield, I.K. (1993). Improved density
gradient separation techniques using sodium polytung-
state and a comparison to the use of other heavy liquids,
US Department of the Interior, US GS Denver, CO.
Sousa, A.B., Amarante, M. and Leite, M.M. (2000).
Beneficiation studies on a spodumene ore from portu-
gal. Developments in Mineral Processing, Elsevier. 13:
C11-40–C11-46.
Tadesse, B., Makuei, F., Albijanic, B., et al. (2019). The
beneficiation of lithium minerals from hard rock ores:
A review. Minerals Engineering 131: 170–184.
Wang, L., Sun, W., Hu, Y.-H., et al. (2014). Adsorption
mechanism of mixed anionic/cationic collectors
in Muscovite—Quartz flotation system. Minerals
Engineering 64: 44–50.
Xie, R., Zhu, Y., Liu, J., et al. (2021). Research status of
spodumene flotation: A review. Mineral Processing and
Extractive Metallurgy Review 42(5): 321–334.
Xu, L., Hu, Y., Tian, J., et al. (2016). Selective flotation sep-
aration of spodumene from feldspar using new mixed
anionic/cationic collectors. Minerals Engineering 89:
84–92.
Xu, L., Hu, Y., Wu, H., et al. (2016). Surface crystal chem-
istry of spodumene with different size fractions and
implications for flotation. Separation and Purification
Technology 169: 33–42.
Xu, L., Wu, H., Dong, F., et al. (2013). Flotation and
adsorption of mixed cationic/anionic collectors on
muscovite mica. Minerals Engineering 41: 41–45.
Yelatontsev, D. and Mukhachev, A. (2021). Processing of
lithium ores: Industrial technologies and case studies–
A review. Hydrometallurgy 201: 105578.
Zhu, G., Cao, Y., Wang, Y., et al. (2020). Surface chemistry
features of spodumene with isomorphous substitution.
Minerals Engineering 146: 106139.