3490 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
DECLARATION OF COMPETING
INTEREST
The authors declare that they have no known competing
financial interests or personal relationships that could have
appeared to influence the work reported in this paper.
ACKNOWLEDGMENTS
This paper was supported by Vale S.A in the context of
developing new beneficiation routes for iron ore. The sup-
port of Clariant, Brazil as a partner in this project is deeply
appreciated. The support of GeoRessources Laboratory,
University of Lorraine, is greatly acknowledged.
REFERENCES
Bandelin, 2016. Sonopuls Ultrasonic Homogenizers:
Instructions for Use.No Title [WWW Document].
URL https://bandelin.com/Bedienungsanleitung/HD
/HD3xxx_GB_BANDELIN.pdf.
Chu, H., Chen, L., Lu, D., Wang, Y., Zheng, X., 2022.
Ultrasonic pretreatment of spodumene with dif-
ferent size fractions and its influence on flotation.
Ultrason. Sonochem. 82, 105889. doi: 10.1016
/j.ultsonch.2021.105889.
Donskoi, E., Collings, A.F., Poliakov, A., Bruckard,
W.J., 2012. Utilisation of ultrasonic treatment for
upgrading of hematitic/goethitic iron ore fines. Int.
J. Miner. Process. 114–117, 80–92. doi: 10.1016
/j.minpro.2012.10.005.
Farrokhpay, S., Filippov, L., Fornasiero, D., 2021. Flotation
of Fine Particles: A Review. Miner. Process. Extr.
Metall. Rev. 42, 473–483. doi: 10.1080/08827508
.2020.1793140.
Gungoren, C., Ozdemir, O., Wang, X., Ozkan, S.G.,
Miller, J.D., 2019. Effect of ultrasound on bubble-
particle interaction in quartz-amine flotation system.
Ultrason. Sonochem. 52, 446–454. doi: 10.1016
/j.ultsonch.2018.12.023.
ICMM, n.d. Tailings Reduction Roadmap [WWW
Document]. 2022. URL https://www.icmm.com
/website/publications/pdfs/innovation/2022
/roadmap_tailings-reduction.pdf?cb=20771.
Malayoglu, U., Ozkan, S.G., 2019. Effects of ultrasound
on desliming prior to feldspar flotation. Minerals 9,
1–18. doi: 10.3390/min9120784.
Marques, M.L.S., Filippov, L.O., Silva, L.A., Pereira, A.M.,
Prates, L.M., Correia, J.C., Souza, J.D., Filippova,
I. V., 2023. Exploring the Challenges and Advances
in Concentrating Ultrafine Iron Ore Particles with a
Focus on Goethite. Miner. Process. Extr. Metall. Rev.
0, 1–14. doi: 10.1080/08827508.2023.2282698.
Mascarenhas, T.D.S., Marques, M.L.S., Silva, M.B.,
Gonçalves, T.A.R., Botelho, G.D., 2023. Conversion
of an Existing Industrial Facility of Pellet Feed
Filtration To Tailings Filtration 277–287. doi:
10.5151/2594-357x-40127.
Napier-Munn, T., Wills, B.A., 2005. Wills’ Mineral
Processing Technology, Wills’ Mineral Processing
Technology. doi: 10.1016/B978-0-7506-4450-1
.X5000-0.
Silva, K., Filippov, L.O., Piçarra, A., Flilippova, I. V., Lima,
N., Skliar, A., Faustino, L., Filho, L.L., 2021. New per-
spectives in iron ore flotation: Use of collector reagents
without depressants in reverse cationic flotation of
quartz. Miner. Eng. 170, 107004. doi: 10.1016/j.
mineng.2021.107004.
Silva, K., Silva, L.A., Pereira, A.M., Bastos, L.C., Correia,
J.C.G., Piçarra, A., Bicalho, L., Lima, N., Filippova,
I. V., Filippov, L.O., 2022. Comparison between
etheramine and amidoamine (N-[3-(dimethylamino)
propyl]dodecanamide) collectors: Adsorption mecha-
nisms on quartz and hematite unveiled by molecu-
lar simulations. Miner. Eng. 180. doi: 10.1016
/j.mineng.2022.107470.
DECLARATION OF COMPETING
INTEREST
The authors declare that they have no known competing
financial interests or personal relationships that could have
appeared to influence the work reported in this paper.
ACKNOWLEDGMENTS
This paper was supported by Vale S.A in the context of
developing new beneficiation routes for iron ore. The sup-
port of Clariant, Brazil as a partner in this project is deeply
appreciated. The support of GeoRessources Laboratory,
University of Lorraine, is greatly acknowledged.
REFERENCES
Bandelin, 2016. Sonopuls Ultrasonic Homogenizers:
Instructions for Use.No Title [WWW Document].
URL https://bandelin.com/Bedienungsanleitung/HD
/HD3xxx_GB_BANDELIN.pdf.
Chu, H., Chen, L., Lu, D., Wang, Y., Zheng, X., 2022.
Ultrasonic pretreatment of spodumene with dif-
ferent size fractions and its influence on flotation.
Ultrason. Sonochem. 82, 105889. doi: 10.1016
/j.ultsonch.2021.105889.
Donskoi, E., Collings, A.F., Poliakov, A., Bruckard,
W.J., 2012. Utilisation of ultrasonic treatment for
upgrading of hematitic/goethitic iron ore fines. Int.
J. Miner. Process. 114–117, 80–92. doi: 10.1016
/j.minpro.2012.10.005.
Farrokhpay, S., Filippov, L., Fornasiero, D., 2021. Flotation
of Fine Particles: A Review. Miner. Process. Extr.
Metall. Rev. 42, 473–483. doi: 10.1080/08827508
.2020.1793140.
Gungoren, C., Ozdemir, O., Wang, X., Ozkan, S.G.,
Miller, J.D., 2019. Effect of ultrasound on bubble-
particle interaction in quartz-amine flotation system.
Ultrason. Sonochem. 52, 446–454. doi: 10.1016
/j.ultsonch.2018.12.023.
ICMM, n.d. Tailings Reduction Roadmap [WWW
Document]. 2022. URL https://www.icmm.com
/website/publications/pdfs/innovation/2022
/roadmap_tailings-reduction.pdf?cb=20771.
Malayoglu, U., Ozkan, S.G., 2019. Effects of ultrasound
on desliming prior to feldspar flotation. Minerals 9,
1–18. doi: 10.3390/min9120784.
Marques, M.L.S., Filippov, L.O., Silva, L.A., Pereira, A.M.,
Prates, L.M., Correia, J.C., Souza, J.D., Filippova,
I. V., 2023. Exploring the Challenges and Advances
in Concentrating Ultrafine Iron Ore Particles with a
Focus on Goethite. Miner. Process. Extr. Metall. Rev.
0, 1–14. doi: 10.1080/08827508.2023.2282698.
Mascarenhas, T.D.S., Marques, M.L.S., Silva, M.B.,
Gonçalves, T.A.R., Botelho, G.D., 2023. Conversion
of an Existing Industrial Facility of Pellet Feed
Filtration To Tailings Filtration 277–287. doi:
10.5151/2594-357x-40127.
Napier-Munn, T., Wills, B.A., 2005. Wills’ Mineral
Processing Technology, Wills’ Mineral Processing
Technology. doi: 10.1016/B978-0-7506-4450-1
.X5000-0.
Silva, K., Filippov, L.O., Piçarra, A., Flilippova, I. V., Lima,
N., Skliar, A., Faustino, L., Filho, L.L., 2021. New per-
spectives in iron ore flotation: Use of collector reagents
without depressants in reverse cationic flotation of
quartz. Miner. Eng. 170, 107004. doi: 10.1016/j.
mineng.2021.107004.
Silva, K., Silva, L.A., Pereira, A.M., Bastos, L.C., Correia,
J.C.G., Piçarra, A., Bicalho, L., Lima, N., Filippova,
I. V., Filippov, L.O., 2022. Comparison between
etheramine and amidoamine (N-[3-(dimethylamino)
propyl]dodecanamide) collectors: Adsorption mecha-
nisms on quartz and hematite unveiled by molecu-
lar simulations. Miner. Eng. 180. doi: 10.1016
/j.mineng.2022.107470.