XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 563
REFERENCES
Dworzanowski, M., 2010. Optimizing the performance of
wet drum magnetic separators. Journal of The South
African Institute of Mining and Metallurgy. 110 (11):
643–653.
Ezhov, A. M., Shvaljov, Y. B., 2015. Dry magnetic sepa-
ration of iron ore of the bakchar deposit. Procedia
Chemistry. 15: 160–166.
Ghaffour, N., Missimer, T. M., Amy, G. L., 2013. Technical
review and evaluation of the economics of water desali-
nation: Current and future challenges for better water
supply sustainability. Desalination. 309: 197–207.
Hu, Y. H., 2013. Discussion on dry separation of fine-
grained materials. Nonferrous Metals (Mineral
Processing Section) 4: 52–55. (in Chinese)
Karmazin, V., Bikbov, M., Bikbov, A., 2002. The energy sav-
ing technology of beneficiation of iron ore. Magnetic
and Electrical Separation. 11 (4): 211–224.
Mcnab, B., Jankovic, A., David, D., Payne, P., 2009.
Processing of magnetite iron ores–comparing grind-
ing options. Australasian Institute of Mining and
Metallurgy, Perth, Australia. 277–287.
Mei, C. G., Cai, H. H., Li, B. Q., Tang, H., 2021.
Experimental Research on the Beneficiation of Fine-
particle Grade Magnetite Ore. Mining Engineering. 19
(5): 14–19. (in Chinese)
Sun, Y. S., Zhou, W. T., Han, Y. X., Li, Y. J., 2020.
Strengthening liberation and separation of magne-
tite ore via magnetic pulse pretreatment: An indus-
trial test study. Advanced Powder Technology. 31 (5):
2101–2109.
Sun, J. X., Meng, N., Gao, Z. Z., Chen, X. Y., 2022. Dry
pre-separation test of drum magnetic separator. Mining
Engineering. 20 (4): 34–38. (in Chinese)
Tripathy, S. K., Banerjee, P. K., Suresh, N., Murthy, Y. R.,
Singh, V., 2017. Dry high-intensity magnetic separa-
tion in mineral industry—A review of present status
and future prospects. Mineral Processing and Extractive
Metallurgy Review. 38 (6): 339–365.
Tripathy, S. K., Suresh, N., 2017. Influence of particle size
on dry high-intensity magnetic separation of paramag-
netic mineral. Advanced Powder Technology. 28 (3):
1092–1102.
Xiong, D., Lu, L., Holmes, R. J., 2015. Developments in
the physical separation of iron ore: magnetic separation.
Iron Ore, Mineralogy, Processing and Environmental
Sustainability. 283–307.
Yi, F., Chen, L. Z., Zeng, J. W., Ren, X. J., 2022. Separation
characteristics of dry high-intensity drum magnetic
separator. Minerals Engineering. 189: 107861.
Zheng, J. L., 1995. A study on improving magnetic separa-
tion selectivity. Mining and Metallurgy. 4 (2): 72–78.
(in Chinese)
Zhang, J. S., Shen, J. L., Xu, L. S., Zhang, Q., 2023. The
CO2 emission reduction path towards carbon neutrality
in the Chinese steel industry: a review. Environmental
Impact Assessment Review. 99: 107017.
REFERENCES
Dworzanowski, M., 2010. Optimizing the performance of
wet drum magnetic separators. Journal of The South
African Institute of Mining and Metallurgy. 110 (11):
643–653.
Ezhov, A. M., Shvaljov, Y. B., 2015. Dry magnetic sepa-
ration of iron ore of the bakchar deposit. Procedia
Chemistry. 15: 160–166.
Ghaffour, N., Missimer, T. M., Amy, G. L., 2013. Technical
review and evaluation of the economics of water desali-
nation: Current and future challenges for better water
supply sustainability. Desalination. 309: 197–207.
Hu, Y. H., 2013. Discussion on dry separation of fine-
grained materials. Nonferrous Metals (Mineral
Processing Section) 4: 52–55. (in Chinese)
Karmazin, V., Bikbov, M., Bikbov, A., 2002. The energy sav-
ing technology of beneficiation of iron ore. Magnetic
and Electrical Separation. 11 (4): 211–224.
Mcnab, B., Jankovic, A., David, D., Payne, P., 2009.
Processing of magnetite iron ores–comparing grind-
ing options. Australasian Institute of Mining and
Metallurgy, Perth, Australia. 277–287.
Mei, C. G., Cai, H. H., Li, B. Q., Tang, H., 2021.
Experimental Research on the Beneficiation of Fine-
particle Grade Magnetite Ore. Mining Engineering. 19
(5): 14–19. (in Chinese)
Sun, Y. S., Zhou, W. T., Han, Y. X., Li, Y. J., 2020.
Strengthening liberation and separation of magne-
tite ore via magnetic pulse pretreatment: An indus-
trial test study. Advanced Powder Technology. 31 (5):
2101–2109.
Sun, J. X., Meng, N., Gao, Z. Z., Chen, X. Y., 2022. Dry
pre-separation test of drum magnetic separator. Mining
Engineering. 20 (4): 34–38. (in Chinese)
Tripathy, S. K., Banerjee, P. K., Suresh, N., Murthy, Y. R.,
Singh, V., 2017. Dry high-intensity magnetic separa-
tion in mineral industry—A review of present status
and future prospects. Mineral Processing and Extractive
Metallurgy Review. 38 (6): 339–365.
Tripathy, S. K., Suresh, N., 2017. Influence of particle size
on dry high-intensity magnetic separation of paramag-
netic mineral. Advanced Powder Technology. 28 (3):
1092–1102.
Xiong, D., Lu, L., Holmes, R. J., 2015. Developments in
the physical separation of iron ore: magnetic separation.
Iron Ore, Mineralogy, Processing and Environmental
Sustainability. 283–307.
Yi, F., Chen, L. Z., Zeng, J. W., Ren, X. J., 2022. Separation
characteristics of dry high-intensity drum magnetic
separator. Minerals Engineering. 189: 107861.
Zheng, J. L., 1995. A study on improving magnetic separa-
tion selectivity. Mining and Metallurgy. 4 (2): 72–78.
(in Chinese)
Zhang, J. S., Shen, J. L., Xu, L. S., Zhang, Q., 2023. The
CO2 emission reduction path towards carbon neutrality
in the Chinese steel industry: a review. Environmental
Impact Assessment Review. 99: 107017.