XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 1763
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. doi:
10.1016/j.hydromet.2021.105815.
Jeon, S., Ito, M., Tabelin, C.B., Pongsumrankul, R.,
Tanaka, S., Kitajima, N., Saito, A., Park, I., &
Hiroyoshi, N. (2019). A physical separation scheme
to improve ammonium thiosulfate leaching of gold by
separation of base metals in crushed mobile phones.
Minerals Engineering, 138, 168–177. doi: 10.1016
/j.mineng.2019.04.025.
Jeon, S., Tabelin, C.B., Park, I., Nagata, Y., Ito, M., &
Hiroyoshi, N. (2020). Ammonium thiosulfate extrac-
tion of gold from printed circuit boards (PCBs) of end-
of-life mobile phones and its recovery from pregnant
leach solution by cementation. Hydrometallurgy, 191.
doi: 10.1016/j.hydromet.2019.105214.
Konadu, K.T., Mendoza, D.M., Huddy, R.J., Harrison,
S.T.L., Kaneta, T., &Sasaki, K. (2020). Biological
pretreatment of carbonaceous matter in double
refractory gold ores: A review and some future con-
siderations. Hydrometallurgy, 196. doi: 10.1016
/j.hydromet.2020.105434.
Lampinen, M., Laari, A., &Turunen, I. (2015).
Ammoniacal thiosulfate leaching of pressure oxi-
dized sulfide gold concentrate with low reagent con-
sumption. Hydrometallurgy, 151, 1–9. doi: 10.1016
/j.hydromet.2014.10.014.
Mahmoud, M.H.H., Awad, H.M., &Elhabib, O.A.
(2015). Gold leching from a Saudi ore by the nonpol-
luting thiosulfate process. Physicochemical Problems
of Mineral Processing, 51(1), 59–72. doi: 10.5277
/ppmp150106.
Mohammadi, E., Pourabdoli, M., Ghobeiti-Hasab, M.,
&Heidarpour, A. (2017). Ammoniacal thiosulfate
leaching of refractory oxide gold ore. International
Journal of Mineral Processing, 164, 6–10. doi: 10.1016
/j.minpro.2017.05.003.
Navarro, P., Vargas, C., Villarroel, A., &Alguacil, F.J.
(2002). On the use of ammoniacal/ammonium thio-
sulphate for gold extraction from a concentrate.
Hydrometallurgy, 65, 37–42. www.elsevier.com/locate
/hydromet.
Rath R.K., Hiroyoshi N., Tsunekawa M., &Hirajima T.
(2003). Ammoniacal thiosulphate leaching of gold
ore. The European Journal of Mineral Processing and
Environmental Protection, 2(2), 344–352.
Sitando, O., Dai, X., Senanayake, G., Nikoloski, A.N., &
Breuer, P. (2020). A fundamental study of gold leach-
ing in a thiosulfateoxygencopper system in the pres-
ence of activated carbon. Hydrometallurgy, 192. doi:
10.1016/j.hydromet.2019.105232.
Wadams, R.C., Yen, C.W., Butcher, D.P., Koerner, H.,
Durstock, M.F., Fabris, L., &Tabor, C.E. (2014).
Gold nanorod enhanced organic photovoltaics: The
importance of morphology effects. Organic Electronics,
15(7), 1448–1457. doi: 10.1016/j.orgel.2014.03.039.
XIE, F., CHEN, J. nan, WANG, J., &WANG, W.
(2021). Review of gold leaching in thiosulfate-
based solutions. Transactions of Nonferrous Metals
Society of China, 31(11), 3506–3529. doi: 10.1016
/S1003-6326(21)65745-X.
Yazıcı, E.Y., Celep, O., Deveci, H., Ahlatcı, F., Yazici,
E.Y., Celep, O., &Deveci, H. (2018). Thiosulphate
Leaching of Gold/Silver from a Copper-Bearing Pyritic
Gold Concentrate. https://www.researchgate.net
/publication/329450873.
Yener Yazıcı, E., Celep, O., Deveci, H., Deniz BAS, A.,
Ozdemir, E., &Yazici, E.Y. (2011). Ammoniacal
Thiosulphate Leaching of a Copper-Rich Gold Ore.
https://www.researchgate.net/publication/234111178.
Zipperian, D., Raghavan, S., &Wilson, J.P. (1988). Gold
and Silver Extraction by Ammoniacal Thiosulfate
Leaching from a Rhyolite Ore. In Hydrometallurgy
(Vol. 19).
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. doi:
10.1016/j.hydromet.2021.105815.
Jeon, S., Ito, M., Tabelin, C.B., Pongsumrankul, R.,
Tanaka, S., Kitajima, N., Saito, A., Park, I., &
Hiroyoshi, N. (2019). A physical separation scheme
to improve ammonium thiosulfate leaching of gold by
separation of base metals in crushed mobile phones.
Minerals Engineering, 138, 168–177. doi: 10.1016
/j.mineng.2019.04.025.
Jeon, S., Tabelin, C.B., Park, I., Nagata, Y., Ito, M., &
Hiroyoshi, N. (2020). Ammonium thiosulfate extrac-
tion of gold from printed circuit boards (PCBs) of end-
of-life mobile phones and its recovery from pregnant
leach solution by cementation. Hydrometallurgy, 191.
doi: 10.1016/j.hydromet.2019.105214.
Konadu, K.T., Mendoza, D.M., Huddy, R.J., Harrison,
S.T.L., Kaneta, T., &Sasaki, K. (2020). Biological
pretreatment of carbonaceous matter in double
refractory gold ores: A review and some future con-
siderations. Hydrometallurgy, 196. doi: 10.1016
/j.hydromet.2020.105434.
Lampinen, M., Laari, A., &Turunen, I. (2015).
Ammoniacal thiosulfate leaching of pressure oxi-
dized sulfide gold concentrate with low reagent con-
sumption. Hydrometallurgy, 151, 1–9. doi: 10.1016
/j.hydromet.2014.10.014.
Mahmoud, M.H.H., Awad, H.M., &Elhabib, O.A.
(2015). Gold leching from a Saudi ore by the nonpol-
luting thiosulfate process. Physicochemical Problems
of Mineral Processing, 51(1), 59–72. doi: 10.5277
/ppmp150106.
Mohammadi, E., Pourabdoli, M., Ghobeiti-Hasab, M.,
&Heidarpour, A. (2017). Ammoniacal thiosulfate
leaching of refractory oxide gold ore. International
Journal of Mineral Processing, 164, 6–10. doi: 10.1016
/j.minpro.2017.05.003.
Navarro, P., Vargas, C., Villarroel, A., &Alguacil, F.J.
(2002). On the use of ammoniacal/ammonium thio-
sulphate for gold extraction from a concentrate.
Hydrometallurgy, 65, 37–42. www.elsevier.com/locate
/hydromet.
Rath R.K., Hiroyoshi N., Tsunekawa M., &Hirajima T.
(2003). Ammoniacal thiosulphate leaching of gold
ore. The European Journal of Mineral Processing and
Environmental Protection, 2(2), 344–352.
Sitando, O., Dai, X., Senanayake, G., Nikoloski, A.N., &
Breuer, P. (2020). A fundamental study of gold leach-
ing in a thiosulfateoxygencopper system in the pres-
ence of activated carbon. Hydrometallurgy, 192. doi:
10.1016/j.hydromet.2019.105232.
Wadams, R.C., Yen, C.W., Butcher, D.P., Koerner, H.,
Durstock, M.F., Fabris, L., &Tabor, C.E. (2014).
Gold nanorod enhanced organic photovoltaics: The
importance of morphology effects. Organic Electronics,
15(7), 1448–1457. doi: 10.1016/j.orgel.2014.03.039.
XIE, F., CHEN, J. nan, WANG, J., &WANG, W.
(2021). Review of gold leaching in thiosulfate-
based solutions. Transactions of Nonferrous Metals
Society of China, 31(11), 3506–3529. doi: 10.1016
/S1003-6326(21)65745-X.
Yazıcı, E.Y., Celep, O., Deveci, H., Ahlatcı, F., Yazici,
E.Y., Celep, O., &Deveci, H. (2018). Thiosulphate
Leaching of Gold/Silver from a Copper-Bearing Pyritic
Gold Concentrate. https://www.researchgate.net
/publication/329450873.
Yener Yazıcı, E., Celep, O., Deveci, H., Deniz BAS, A.,
Ozdemir, E., &Yazici, E.Y. (2011). Ammoniacal
Thiosulphate Leaching of a Copper-Rich Gold Ore.
https://www.researchgate.net/publication/234111178.
Zipperian, D., Raghavan, S., &Wilson, J.P. (1988). Gold
and Silver Extraction by Ammoniacal Thiosulfate
Leaching from a Rhyolite Ore. In Hydrometallurgy
(Vol. 19).