XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 3513
Djokić, S. S., Cavallotti, P. L., 2010. Electroless deposition:
theory and applications. Electrodeposition: Theory
and Practice.
Gee, B., Holtham, P. N., Dunne, R., Gregory, S.,
2005. Recovery of Fine Gold Particles Using a
Falcon’B’Separator, 3–15.
Hoang, D. H., Imhof, R., Sambrook, T., Bakulin, A. E.,
Murzabekov, K. M., Abubakirov, B. A., Rudolph,
M., 2022. Recovery of fine gold loss to tail-
ings using advanced reactor pneumatic flotation
Imhoflot ™. Minerals Engineering, 184, 107649.
Hwang, J., Kullerud, G., Takayasu, M., Friedlaender, F.,
Wankat, P., 1982. Selective seeding for magnetic
separation. IEEE Transactions on magnetics, 18(6),
1689–1691.
Jeon, S., Tabelin, C. B., Takahashi, H., Park, I., Ito, M.,
Hiroyoshi, N., 2020. Enhanced cementation of gold
via galvanic interactions using activated carbon and
zero-valent aluminum: A novel approach to recover
gold ions from ammonium thiosulfate medium.
Hydrometallurgy, 191, 105165.
Jeon, S., Bright, S., Park, I., Tabelin, C. B., Ito, M.,
Hiroyoshi, N., 2022. A simple and efficient recovery
technique for gold ions from ammonium thiosulfate
medium by galvanic interactions of zero-valent alumi-
num and activated carbon: A parametric and mecha-
nistic study of cementation. Hydrometallurgy, 208,
105815.
Lèbre, É., Corder, G. D., Golev, A., 2017. Sustainable
practices in the management of mining waste: A focus
on the mineral resource. Minerals Engineering, 107,
34–42.
McKibben, M. A., Barnes, H. L., 1986. Oxidation of
pyrite in low temperature acidic solutions: Rate laws
and surface textures. Geochimica et Cosmochimica
Acta, 50(7), 1509–1520.
Newell, A. J. H., Bradshaw, D. J., Harris, P. J., 2006. The
effect of heavy oxidation upon flotation and poten-
tial remedies for Merensky type sulfides. Minerals
Engineering, 19(6–8), 675–686.
Owusu, C., Quast, K., Addai-Mensah, J., 2016. The use
of canola oil as an environmentally friendly flotation
collector in sulphide mineral processing. Minerals
Engineering, 98, 127–136.
Ozun, S., Hassas, B. V., Miller, J. D., 2019. Collectorless
flotation of oxidized pyrite. Colloids and Surfaces
A: Physicochemical and Engineering Aspects, 561,
349–356.
Park, I., Tabelin, C. B., Jeon, S., Li, X., Seno, K., Ito, M.,
Hiroyoshi, N., 2019. A review of recent strategies for
acid mine drainage prevention and mine tailings recy-
cling. Chemosphere, 219, 588–606.
Parsonage, P., 1988. Principles of mineral separation by
selective magnetic coating. International Journal of
Mineral Processing, 24(3–4), 269–293.
Santander, M., Valderrama, L., 2019. Recovery of pyrite
from copper tailings by flotation. Journal of Materials
Research and Technology, 8(5), 4312–4317.
Sarker, S. K., Haque, N., Bhuiyan, M., Bruckard, W.,
Pramanik, B. K., 2022. Recovery of strategically
important critical minerals from mine tailings. Journal
of Environmental Chemical Engineering, 107622.
Sirkeci, A. A., Gül, A., Bulut, G., Arslan, F., Onal, G.,
Yuce, A. E., 2006. Recovery of Co, Ni, and Cu from
the tailings of divrigi iron ore concentrator. Mineral
Processing and Extractive Metallurgy Review, 27(2),
131–141.
Valderrama, L., Rubio, J., 2008. Unconventional column
flotation of low-grade gold fine particles from tail-
ings. International Journal of Mineral Processing, 86(1–
4), 75–84.
Wills, B. A., Finch, J., 2015. Wills’ mineral process-
ing technology: an introduction to the practi-
cal aspects of ore treatment and mineral recovery.
Butterworth-Heinemann.
Djokić, S. S., Cavallotti, P. L., 2010. Electroless deposition:
theory and applications. Electrodeposition: Theory
and Practice.
Gee, B., Holtham, P. N., Dunne, R., Gregory, S.,
2005. Recovery of Fine Gold Particles Using a
Falcon’B’Separator, 3–15.
Hoang, D. H., Imhof, R., Sambrook, T., Bakulin, A. E.,
Murzabekov, K. M., Abubakirov, B. A., Rudolph,
M., 2022. Recovery of fine gold loss to tail-
ings using advanced reactor pneumatic flotation
Imhoflot ™. Minerals Engineering, 184, 107649.
Hwang, J., Kullerud, G., Takayasu, M., Friedlaender, F.,
Wankat, P., 1982. Selective seeding for magnetic
separation. IEEE Transactions on magnetics, 18(6),
1689–1691.
Jeon, S., Tabelin, C. B., Takahashi, H., Park, I., Ito, M.,
Hiroyoshi, N., 2020. Enhanced cementation of gold
via galvanic interactions using activated carbon and
zero-valent aluminum: A novel approach to recover
gold ions from ammonium thiosulfate medium.
Hydrometallurgy, 191, 105165.
Jeon, S., Bright, S., Park, I., Tabelin, C. B., Ito, M.,
Hiroyoshi, N., 2022. A simple and efficient recovery
technique for gold ions from ammonium thiosulfate
medium by galvanic interactions of zero-valent alumi-
num and activated carbon: A parametric and mecha-
nistic study of cementation. Hydrometallurgy, 208,
105815.
Lèbre, É., Corder, G. D., Golev, A., 2017. Sustainable
practices in the management of mining waste: A focus
on the mineral resource. Minerals Engineering, 107,
34–42.
McKibben, M. A., Barnes, H. L., 1986. Oxidation of
pyrite in low temperature acidic solutions: Rate laws
and surface textures. Geochimica et Cosmochimica
Acta, 50(7), 1509–1520.
Newell, A. J. H., Bradshaw, D. J., Harris, P. J., 2006. The
effect of heavy oxidation upon flotation and poten-
tial remedies for Merensky type sulfides. Minerals
Engineering, 19(6–8), 675–686.
Owusu, C., Quast, K., Addai-Mensah, J., 2016. The use
of canola oil as an environmentally friendly flotation
collector in sulphide mineral processing. Minerals
Engineering, 98, 127–136.
Ozun, S., Hassas, B. V., Miller, J. D., 2019. Collectorless
flotation of oxidized pyrite. Colloids and Surfaces
A: Physicochemical and Engineering Aspects, 561,
349–356.
Park, I., Tabelin, C. B., Jeon, S., Li, X., Seno, K., Ito, M.,
Hiroyoshi, N., 2019. A review of recent strategies for
acid mine drainage prevention and mine tailings recy-
cling. Chemosphere, 219, 588–606.
Parsonage, P., 1988. Principles of mineral separation by
selective magnetic coating. International Journal of
Mineral Processing, 24(3–4), 269–293.
Santander, M., Valderrama, L., 2019. Recovery of pyrite
from copper tailings by flotation. Journal of Materials
Research and Technology, 8(5), 4312–4317.
Sarker, S. K., Haque, N., Bhuiyan, M., Bruckard, W.,
Pramanik, B. K., 2022. Recovery of strategically
important critical minerals from mine tailings. Journal
of Environmental Chemical Engineering, 107622.
Sirkeci, A. A., Gül, A., Bulut, G., Arslan, F., Onal, G.,
Yuce, A. E., 2006. Recovery of Co, Ni, and Cu from
the tailings of divrigi iron ore concentrator. Mineral
Processing and Extractive Metallurgy Review, 27(2),
131–141.
Valderrama, L., Rubio, J., 2008. Unconventional column
flotation of low-grade gold fine particles from tail-
ings. International Journal of Mineral Processing, 86(1–
4), 75–84.
Wills, B. A., Finch, J., 2015. Wills’ mineral process-
ing technology: an introduction to the practi-
cal aspects of ore treatment and mineral recovery.
Butterworth-Heinemann.