11
[40] Hoffmann, J.E., 1989. Recovering selenium and tel-
lurium from copper refinery slimes. J. Occup. Med.
41 (7), 33–38.
[41] Makuei, F.M., Senanayake, G., 2018. Extraction of
tellurium from lead and copper bearing feed materi-
als and interim metallurgical products-a short review.
Miner. Eng. 115, 79–87.
[42] Ludvigsson, B.M., Larsson, S.R., 2003. Anode slimes
treatment: the Boliden experience. JOM 55, 41–44.
[43] Wang, S., 2011. Tellurium, its resourcefulness and
recovery. JOM 6, 90–93.
[44] Hoffmann, J.E., Wesstrom, B., 1994.
Hydrometallurgical Processing of Refinery Slimes at
Phelps Dodge: Theory to Practice, Hydrometallurgy
’94. Springer Netherlands, Dordrecht, pp. 69–105.
[45] Hait, J., Jana, R.K., Kumar, V., Sanyal, S.K., 2002.
Some studies on sulfuric acid leaching of anode slime
with additives. Ind. Eng. Chem. Res. 41, 6593–6599.
[46] Aydogan, S., Aras, A., Canbazoglu, M., 2005.
Dissolution kinetics of sphalerite in acidic ferric chlo-
ride leaching. Chem. Eng. J. 114, 67–72.
[47] Fthenakis, V.M., Wang, W., 2006. Extraction and
separation of Cd and Te from cadmium telluride pho-
tovoltaic manufacturing scrap. Prostate, 14, 363–371.
[48] 48.Shao, L., Diao, J., Ji, C., Li, G., 2020. A novel and
clean process for extracting tellurium and bismuth
from Dashuigou tellurium ore by oxidizing leaching.
Hydrometallurgy 191, 105205.
[49] Shao, L.X., Diao, J., Liu, L., Xie, B., 2023. Selective
reduction separation and recovery of tellurium and
bismuth from acidic leaching solution, Transactions of
Nonferrous Metals Society of China, 33 (2), 596–608.
[50] Ma, Z.-y., Yang, H.-y., Huang, S.-t., Lü, Y., Xiong, L.,
2015. Ultra fast microwave-assisted leaching for the
recovery of copper and tellurium from copper anode
slime. Int. J. Miner. Metall. Mater. 22 (6), 582–588.
[51] Sun, Z.-m., Zheng, Y.-j., 2011. Preparation of high
pure tellurium from raw tellurium containing Cu and
Se by chemical method. Trans. Nonferrous Metals Soc.
China 21 (3), 665–672.
[52] Rhee, K.I., Lee, C.K., Ha, Y.C., Jeong, G.J., Kim,
H.S., Sohn, H.J., 1999. Tellurium recovery from
cemented tellurium with minimum waste disposal.
Hydrometallurgy 53 (2), 189–201.
[53] Li, Z., Qiu, F., Tian, Q., Yue, X., Zhang, T., 2022.
Production and recovery of tellurium from metallur-
gical intermediates and electronic waste-A compre-
hensive review. J. Clean. Prod. 366, 132796.
[54] Charles, Ph., Hannaert, P., 1970. Fluid-bed cemen-
tation of selenium contained in a copper electrolyte.
Copper metallurgy proceedings. AIME, Denver,
pp. 240–259.
[55] Wang, S.,Wesstrom, B., Fernandez, J., 2003. A novel
process for recovery of Te and Se from copper slimes
autoclave leach solution. J. Miner. Mater. Charact.
Eng. 2 (1), 53–64.
[56] Shibasaki, T., Abe, K., Takeuchi, H., 1992. Recovery
of tellurium from decopperizing leach solution
of copper refinery slimes by a fixed bed reactor.
Hydrometallurgy 29 (1), 399–412.
[57] Dutton, W.A., Cooper, W.C., 1966. The oxides
and oxyacids of tellurium. Noranda Research Center,
pp. 657–674.
[58] Mokmeli, M., Dreisinger, D.B., Wassink, B., 2014.
Thermodynamics and kinetics study of tellurium
removal with cuprous ion. Hydrometallurgy 147,
20–29.
[59] Xu, L., Xiong, Y., Song, Y., Zhang, G., Zhang, F.,
Yang, Y., Hua, Z., Tian, Y., You, J., Zhao, Z., 2020.
Recycling of copper telluride from copper anode slime
processing: toward efficient recovery of tellurium and
copper. Hydrometallurgy 196, 105436.
[60] Xu, L., Xiong, Y., Zhang, G., Zhang, F., Yang, Y.,
Hua, Z., Tian, Y., You, J., Zhao, Z., 2020. An envi-
ronmental-friendly process for recovery of tellurium
and copper from copper telluride. J. Clean. Prod. 272,
122723.
[61] Liu, W., Yang, T., Zhang, D., Chen, L., Liu, Y., 2014.
Pretreatment of copper anode slime with alkaline
pressure oxidative leaching. Int. J. Miner. Process. 128,
48–54.
[62] Xiao, L., Wang, Y.L., Yv, Y., Fu, G.Y., Han, P.W., Sun,
Z.H.I., Ye, S.F., 2018. An environmentally friendly
process to selectively recover silver from copper anode
slime. J. Clean. Prod. 187, 708–716.
[63] Mokmeli, M., Dreisinger, D., Wassink, B., 2015.
Modeling of selenium and tellurium removal from
copper electrowinning solution. Hydrometallurgy
153, 12–20.
[64] Zhang, F.Y., Zheng, Y.J., Peng, G.M., 2017. Selection
of reductants for extracting selenium and tellurium
from degoldized solution of copper anode slimes.
Trans. Nonferrous Met. Soc. China 27 (4), 917–924.
[65] Guo, X.Y., Xu, Z.P., Li, D., Tian, Q.H., Xu, R.Z.,
Zhang, Z., 2017. Recovery of tellurium from high
tellurium-bearing materials by alkaline sulfide
leaching followed by sodium sulfite precipitation.
Hydrometallurgy, 171, 355–361.
[40] Hoffmann, J.E., 1989. Recovering selenium and tel-
lurium from copper refinery slimes. J. Occup. Med.
41 (7), 33–38.
[41] Makuei, F.M., Senanayake, G., 2018. Extraction of
tellurium from lead and copper bearing feed materi-
als and interim metallurgical products-a short review.
Miner. Eng. 115, 79–87.
[42] Ludvigsson, B.M., Larsson, S.R., 2003. Anode slimes
treatment: the Boliden experience. JOM 55, 41–44.
[43] Wang, S., 2011. Tellurium, its resourcefulness and
recovery. JOM 6, 90–93.
[44] Hoffmann, J.E., Wesstrom, B., 1994.
Hydrometallurgical Processing of Refinery Slimes at
Phelps Dodge: Theory to Practice, Hydrometallurgy
’94. Springer Netherlands, Dordrecht, pp. 69–105.
[45] Hait, J., Jana, R.K., Kumar, V., Sanyal, S.K., 2002.
Some studies on sulfuric acid leaching of anode slime
with additives. Ind. Eng. Chem. Res. 41, 6593–6599.
[46] Aydogan, S., Aras, A., Canbazoglu, M., 2005.
Dissolution kinetics of sphalerite in acidic ferric chlo-
ride leaching. Chem. Eng. J. 114, 67–72.
[47] Fthenakis, V.M., Wang, W., 2006. Extraction and
separation of Cd and Te from cadmium telluride pho-
tovoltaic manufacturing scrap. Prostate, 14, 363–371.
[48] 48.Shao, L., Diao, J., Ji, C., Li, G., 2020. A novel and
clean process for extracting tellurium and bismuth
from Dashuigou tellurium ore by oxidizing leaching.
Hydrometallurgy 191, 105205.
[49] Shao, L.X., Diao, J., Liu, L., Xie, B., 2023. Selective
reduction separation and recovery of tellurium and
bismuth from acidic leaching solution, Transactions of
Nonferrous Metals Society of China, 33 (2), 596–608.
[50] Ma, Z.-y., Yang, H.-y., Huang, S.-t., Lü, Y., Xiong, L.,
2015. Ultra fast microwave-assisted leaching for the
recovery of copper and tellurium from copper anode
slime. Int. J. Miner. Metall. Mater. 22 (6), 582–588.
[51] Sun, Z.-m., Zheng, Y.-j., 2011. Preparation of high
pure tellurium from raw tellurium containing Cu and
Se by chemical method. Trans. Nonferrous Metals Soc.
China 21 (3), 665–672.
[52] Rhee, K.I., Lee, C.K., Ha, Y.C., Jeong, G.J., Kim,
H.S., Sohn, H.J., 1999. Tellurium recovery from
cemented tellurium with minimum waste disposal.
Hydrometallurgy 53 (2), 189–201.
[53] Li, Z., Qiu, F., Tian, Q., Yue, X., Zhang, T., 2022.
Production and recovery of tellurium from metallur-
gical intermediates and electronic waste-A compre-
hensive review. J. Clean. Prod. 366, 132796.
[54] Charles, Ph., Hannaert, P., 1970. Fluid-bed cemen-
tation of selenium contained in a copper electrolyte.
Copper metallurgy proceedings. AIME, Denver,
pp. 240–259.
[55] Wang, S.,Wesstrom, B., Fernandez, J., 2003. A novel
process for recovery of Te and Se from copper slimes
autoclave leach solution. J. Miner. Mater. Charact.
Eng. 2 (1), 53–64.
[56] Shibasaki, T., Abe, K., Takeuchi, H., 1992. Recovery
of tellurium from decopperizing leach solution
of copper refinery slimes by a fixed bed reactor.
Hydrometallurgy 29 (1), 399–412.
[57] Dutton, W.A., Cooper, W.C., 1966. The oxides
and oxyacids of tellurium. Noranda Research Center,
pp. 657–674.
[58] Mokmeli, M., Dreisinger, D.B., Wassink, B., 2014.
Thermodynamics and kinetics study of tellurium
removal with cuprous ion. Hydrometallurgy 147,
20–29.
[59] Xu, L., Xiong, Y., Song, Y., Zhang, G., Zhang, F.,
Yang, Y., Hua, Z., Tian, Y., You, J., Zhao, Z., 2020.
Recycling of copper telluride from copper anode slime
processing: toward efficient recovery of tellurium and
copper. Hydrometallurgy 196, 105436.
[60] Xu, L., Xiong, Y., Zhang, G., Zhang, F., Yang, Y.,
Hua, Z., Tian, Y., You, J., Zhao, Z., 2020. An envi-
ronmental-friendly process for recovery of tellurium
and copper from copper telluride. J. Clean. Prod. 272,
122723.
[61] Liu, W., Yang, T., Zhang, D., Chen, L., Liu, Y., 2014.
Pretreatment of copper anode slime with alkaline
pressure oxidative leaching. Int. J. Miner. Process. 128,
48–54.
[62] Xiao, L., Wang, Y.L., Yv, Y., Fu, G.Y., Han, P.W., Sun,
Z.H.I., Ye, S.F., 2018. An environmentally friendly
process to selectively recover silver from copper anode
slime. J. Clean. Prod. 187, 708–716.
[63] Mokmeli, M., Dreisinger, D., Wassink, B., 2015.
Modeling of selenium and tellurium removal from
copper electrowinning solution. Hydrometallurgy
153, 12–20.
[64] Zhang, F.Y., Zheng, Y.J., Peng, G.M., 2017. Selection
of reductants for extracting selenium and tellurium
from degoldized solution of copper anode slimes.
Trans. Nonferrous Met. Soc. China 27 (4), 917–924.
[65] Guo, X.Y., Xu, Z.P., Li, D., Tian, Q.H., Xu, R.Z.,
Zhang, Z., 2017. Recovery of tellurium from high
tellurium-bearing materials by alkaline sulfide
leaching followed by sodium sulfite precipitation.
Hydrometallurgy, 171, 355–361.