XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 1899
media demonstrated to be effective in removing arsenic
from the high-arsenic ore.
REFERENCES
Bakker, Jan de. 2014. ‘Energy Use of Fine Grinding in Mineral
Processing’. Metallurgical and Materials Transactions E
1 (1): 8–19. doi: 10.1007/s40553-013-0001-6.
Barrios, Patricio, Christophe Koenig, Ole Wagner, Vanya
Omaynikova, and Keith Mayhew. 2011. ‘An Integrated
Mine to Metal Approach to Develop High Arsenic
Copper Deposits Using the CESL Process’.
Curreli, L., M. Ghiani, M. Surracco, and G. Orrù. 2005.
‘Beneficiation of a Gold Bearing Enargite Ore by
Flotation and As Leaching with Na-Hypochlorite’.
In Minerals Engineering, 18:849–54. doi: 10.1016
/j.mineng.2005.01.023.
Faraji, Fariborz, Amirhossein Alizadeh, Fereshteh Rashchi,
and Navid Mostoufi. 2022. ‘Kinetics of Leaching: A
Review’. Reviews in Chemical Engineering. De Gruyter
Open Ltd. doi: 10.1515/revce-2019-0073.
Filippou, Dimitrios, Pascale St-Germain, and Tassos
Grammatikopoulos. 2007. ‘Recovery of Metal
Values from Copper—Arsenic Minerals and
Other Related Resources’. Mineral Processing and
Extractive Metallurgy Review 28 (4): 247–98. doi:
10.1080/08827500601013009.
Flores, Gerardo Alvear, Carlos Risopatron, and Joe Pease.
2020. ‘Processing of Complex Materials in the Copper
Industry: Challenges and Opportunities Ahead’. JOM
72 (10): 3447–61. doi: 10.1007/s11837-020-04255-9.
Fountain, C. 2013. ‘The Whys and Wherefores of Penalty
Elements in Copper Concentrates’. Metallurgical Plant
Design and Operating Strategies.
Hao, Juanjuan, Xiaolu Wang, Yishu Wang, Yufeng Wu, and
Fu Guo. 2022. ‘Optimizing the Leaching Parameters
and Studying the Kinetics of Copper Recovery from
Waste Printed Circuit Boards’. ACS Omega 7 (4):
3689–99. doi: 10.1021/acsomega.1c06173.
Hesami, Reshad, Ali Ahmadi, Mohammad Raouf Hosseini,
and Zahra Manafi. 2022. ‘Electroleaching Kinetics of
Molybdenite Concentrate of Sarcheshmeh Copper
Complex in Chloride Media’. Minerals Engineering 186
(August). doi: 10.1016/j.mineng.2022.107721.
Kobylyanski, A, V Zhukova, V Grigoreva, and A Boduen.
2020. ‘Recent Technologies in Selective Removal of
Arsenic in Copper Ore Processing’. In Advances in Raw
Material Industries for Sustainable Development Goals,
edited by Litvinenko, 196–202. Taylor &Francis
Group.
Lattanzi, Pierfranco, Stefania Da Pelo, Elodia Musu,
Davide Atzei, Bernhard Elsener, Marzia Fantauzzi, and
Antonella Rossi. 2008. ‘Enargite Oxidation: A Review’.
Earth-Science Reviews 86 (1–4): 62–88. doi: 10.1016
/j.earscirev.2007.07.006.
Li, Tengfei, Yansheng Zhang, Bo Zhang, Jiaming Zhang,
and Wenqing Qin. 2018. ‘Selective Leaching of Arsenic
from Enargite Concentrate Using Alkaline Leaching
in the Presence of Pyrite’. Hydrometallurgy 181
(November):143–47. doi: 10.1016/j.hydromet.2018
.09.010.
Mihaljovic, I, N Strbac, D Nikolic, and Z Zivkovic.
2011. ‘Potential Metallurgical Treatment of Copper
Concentrates with High Arsenic Contents’. J. S. Afr.
Inst. Min. Metall 111 (6): 409–16.
Mitovski, Aleksandra M., Ivan N. Mihajlović, Nada D.
Štrbac, Miroslav D. Sokić, Dragana T. Živković, and
Živan D. Živković. 2015. ‘Optimization of the Arsenic
Removal Process from Enargite Based Complex Copper
Concentrate’. Hemijska Industrija 69 (3): 287–96. doi:
10.2298/HEMIND140203042M.
Nazari, Amir Mohammad, Rebecca Radzinski, and Ahmad
Ghahreman. 2017. ‘Review of Arsenic Metallurgy:
Treatment of Arsenical Minerals and the Immobilization
of Arsenic’. Hydrometallurgy 174 (December):258–81.
doi: 10.1016/j.hydromet.2016.10.011.
Parada, F., M. I. Jeffrey, and E. Asselin. 2014. ‘Leaching
Kinetics of Enargite in Alkaline Sodium Sulphide
Solutions’. Hydrometallurgy 146:48–58. doi: 10.1016
/j.hydromet.2014.03.003.
Tian, Jia, Xingfei Zhang, Yufeng Wang, Haisheng Han,
Wei Sun, Tong Yue, and Jingtao Sun. 2021. ‘Alkali
Circulating Leaching of Arsenic from Copper Smelter
Dust Based on Arsenic-Alkali Efficient Separation’.
Journal of Environmental Management 287 (June). doi:
10.1016/j.jenvman.2021.112348.
Viñals, J., A. Roca, M. C. Hernández, and O. Benavente.
2003. ‘Topochemical Transformation of Enargite
into Copper Oxide by Hypochlorite Leaching’.
Hydrometallurgy 68 (1–3): 183–93. doi: 10.1016
/S0304-386X(02)00200-1.
Xu, Zhipeng, Xueyi Guo, Dong Li, and Qinghua Tian.
2020. ‘Leaching Kinetics of Tellurium-Bearing
Materials in Alkaline Sulfide Solutions’. Mineral
Processing and Extractive Metallurgy Review 41 (1):
1–10. doi: 10.1080/08827508.2018.1506981.
Zhu, Yinian, and Broder Merkel. 2001. ‘The Dissolution
and Solubility of Scorodite, FeAsO4.2H2O Evaluation
and Simulation with PHREEQC2’. https://www
.researchgate.net/publication/283995207.
media demonstrated to be effective in removing arsenic
from the high-arsenic ore.
REFERENCES
Bakker, Jan de. 2014. ‘Energy Use of Fine Grinding in Mineral
Processing’. Metallurgical and Materials Transactions E
1 (1): 8–19. doi: 10.1007/s40553-013-0001-6.
Barrios, Patricio, Christophe Koenig, Ole Wagner, Vanya
Omaynikova, and Keith Mayhew. 2011. ‘An Integrated
Mine to Metal Approach to Develop High Arsenic
Copper Deposits Using the CESL Process’.
Curreli, L., M. Ghiani, M. Surracco, and G. Orrù. 2005.
‘Beneficiation of a Gold Bearing Enargite Ore by
Flotation and As Leaching with Na-Hypochlorite’.
In Minerals Engineering, 18:849–54. doi: 10.1016
/j.mineng.2005.01.023.
Faraji, Fariborz, Amirhossein Alizadeh, Fereshteh Rashchi,
and Navid Mostoufi. 2022. ‘Kinetics of Leaching: A
Review’. Reviews in Chemical Engineering. De Gruyter
Open Ltd. doi: 10.1515/revce-2019-0073.
Filippou, Dimitrios, Pascale St-Germain, and Tassos
Grammatikopoulos. 2007. ‘Recovery of Metal
Values from Copper—Arsenic Minerals and
Other Related Resources’. Mineral Processing and
Extractive Metallurgy Review 28 (4): 247–98. doi:
10.1080/08827500601013009.
Flores, Gerardo Alvear, Carlos Risopatron, and Joe Pease.
2020. ‘Processing of Complex Materials in the Copper
Industry: Challenges and Opportunities Ahead’. JOM
72 (10): 3447–61. doi: 10.1007/s11837-020-04255-9.
Fountain, C. 2013. ‘The Whys and Wherefores of Penalty
Elements in Copper Concentrates’. Metallurgical Plant
Design and Operating Strategies.
Hao, Juanjuan, Xiaolu Wang, Yishu Wang, Yufeng Wu, and
Fu Guo. 2022. ‘Optimizing the Leaching Parameters
and Studying the Kinetics of Copper Recovery from
Waste Printed Circuit Boards’. ACS Omega 7 (4):
3689–99. doi: 10.1021/acsomega.1c06173.
Hesami, Reshad, Ali Ahmadi, Mohammad Raouf Hosseini,
and Zahra Manafi. 2022. ‘Electroleaching Kinetics of
Molybdenite Concentrate of Sarcheshmeh Copper
Complex in Chloride Media’. Minerals Engineering 186
(August). doi: 10.1016/j.mineng.2022.107721.
Kobylyanski, A, V Zhukova, V Grigoreva, and A Boduen.
2020. ‘Recent Technologies in Selective Removal of
Arsenic in Copper Ore Processing’. In Advances in Raw
Material Industries for Sustainable Development Goals,
edited by Litvinenko, 196–202. Taylor &Francis
Group.
Lattanzi, Pierfranco, Stefania Da Pelo, Elodia Musu,
Davide Atzei, Bernhard Elsener, Marzia Fantauzzi, and
Antonella Rossi. 2008. ‘Enargite Oxidation: A Review’.
Earth-Science Reviews 86 (1–4): 62–88. doi: 10.1016
/j.earscirev.2007.07.006.
Li, Tengfei, Yansheng Zhang, Bo Zhang, Jiaming Zhang,
and Wenqing Qin. 2018. ‘Selective Leaching of Arsenic
from Enargite Concentrate Using Alkaline Leaching
in the Presence of Pyrite’. Hydrometallurgy 181
(November):143–47. doi: 10.1016/j.hydromet.2018
.09.010.
Mihaljovic, I, N Strbac, D Nikolic, and Z Zivkovic.
2011. ‘Potential Metallurgical Treatment of Copper
Concentrates with High Arsenic Contents’. J. S. Afr.
Inst. Min. Metall 111 (6): 409–16.
Mitovski, Aleksandra M., Ivan N. Mihajlović, Nada D.
Štrbac, Miroslav D. Sokić, Dragana T. Živković, and
Živan D. Živković. 2015. ‘Optimization of the Arsenic
Removal Process from Enargite Based Complex Copper
Concentrate’. Hemijska Industrija 69 (3): 287–96. doi:
10.2298/HEMIND140203042M.
Nazari, Amir Mohammad, Rebecca Radzinski, and Ahmad
Ghahreman. 2017. ‘Review of Arsenic Metallurgy:
Treatment of Arsenical Minerals and the Immobilization
of Arsenic’. Hydrometallurgy 174 (December):258–81.
doi: 10.1016/j.hydromet.2016.10.011.
Parada, F., M. I. Jeffrey, and E. Asselin. 2014. ‘Leaching
Kinetics of Enargite in Alkaline Sodium Sulphide
Solutions’. Hydrometallurgy 146:48–58. doi: 10.1016
/j.hydromet.2014.03.003.
Tian, Jia, Xingfei Zhang, Yufeng Wang, Haisheng Han,
Wei Sun, Tong Yue, and Jingtao Sun. 2021. ‘Alkali
Circulating Leaching of Arsenic from Copper Smelter
Dust Based on Arsenic-Alkali Efficient Separation’.
Journal of Environmental Management 287 (June). doi:
10.1016/j.jenvman.2021.112348.
Viñals, J., A. Roca, M. C. Hernández, and O. Benavente.
2003. ‘Topochemical Transformation of Enargite
into Copper Oxide by Hypochlorite Leaching’.
Hydrometallurgy 68 (1–3): 183–93. doi: 10.1016
/S0304-386X(02)00200-1.
Xu, Zhipeng, Xueyi Guo, Dong Li, and Qinghua Tian.
2020. ‘Leaching Kinetics of Tellurium-Bearing
Materials in Alkaline Sulfide Solutions’. Mineral
Processing and Extractive Metallurgy Review 41 (1):
1–10. doi: 10.1080/08827508.2018.1506981.
Zhu, Yinian, and Broder Merkel. 2001. ‘The Dissolution
and Solubility of Scorodite, FeAsO4.2H2O Evaluation
and Simulation with PHREEQC2’. https://www
.researchgate.net/publication/283995207.