2504 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
Wang L. The use of polyacrylamide as a selective depressant
in the separation of galena and galena[D], Edmonton
(Canada): University of Alberta, 2013.
Wang X.J., Qin W.Q., Jiao F., et al..Inhibition of galena
flotation by humic acid: Identification of the adsorp-
tion site for humic acid on moderately oxidized galena
surface[J]. Minerals Engineering,2019,137:102–107.
Xu Hongxiang, Ye Tianxiang, Li Quan, Hu Mingzhen,
Deng Jiushuai, Yu Chao, Ma Jinqing, Yu Peng.
Research Progress of Galena Depressants in
Separation of Molybdenum and Lead[J]. Modern
Mining,2022,38(02):24–27.
Yi GS, Macha E, van Dyke J, Ed Macha R, McKay T,
Free ML. Recent progress on research of molybde-
nite flotation: A review. Adv Colloid Interface Sci
2021 295:102466.
Liu Y., Zhang Y., Chen F., Zhang Y., The alkaline leach-
ing of molybdenite flotation tailings associated with
galena, Hydrometallurgy, 2012, 129–130,30–34.
Yin ZG., Xu LH., He JY., Wu HQ., Fang S., Khoso SA.,
Hu YH., Sun W. Evaluation of L-cysteine as an eco-
friendly depressant for the selective separation of MoS2
from PbS by flotation. Journal of Molecular Liquids
282 (2019) 177–186.
Zhang X, Lu L, Zeng H, et al. A macromolecular depres-
sant for galena and its flotation behavior in the separa-
tion from molybdenite. Minerals Engineering, 2020,
157(106576).
Zhang ZQ.The Use of New Depressant in Copper lead
Separation by Flotation.Journal of Wuhan Institute of
Chemical Technology, 1998, (20): 37–40.
Zhao Kaile, Gu Guohua, Ma Chao. Study on the
Mechanism of Nontoxic Depressant in Copper-Lead
Floation Separation and Its Application. Nonferrous
Metals(Mineral Processing Section), 2021(03):56–61.
Zhao Q., Liu W., Wei D., Wang W., Cui B., Liu W., Effect
of copper ions on the flotation separation of galena
and molybdenite using sodium sulfide as a depressant,
Miner. Eng. 115 (2018) 44–52.
Wang L. The use of polyacrylamide as a selective depressant
in the separation of galena and galena[D], Edmonton
(Canada): University of Alberta, 2013.
Wang X.J., Qin W.Q., Jiao F., et al..Inhibition of galena
flotation by humic acid: Identification of the adsorp-
tion site for humic acid on moderately oxidized galena
surface[J]. Minerals Engineering,2019,137:102–107.
Xu Hongxiang, Ye Tianxiang, Li Quan, Hu Mingzhen,
Deng Jiushuai, Yu Chao, Ma Jinqing, Yu Peng.
Research Progress of Galena Depressants in
Separation of Molybdenum and Lead[J]. Modern
Mining,2022,38(02):24–27.
Yi GS, Macha E, van Dyke J, Ed Macha R, McKay T,
Free ML. Recent progress on research of molybde-
nite flotation: A review. Adv Colloid Interface Sci
2021 295:102466.
Liu Y., Zhang Y., Chen F., Zhang Y., The alkaline leach-
ing of molybdenite flotation tailings associated with
galena, Hydrometallurgy, 2012, 129–130,30–34.
Yin ZG., Xu LH., He JY., Wu HQ., Fang S., Khoso SA.,
Hu YH., Sun W. Evaluation of L-cysteine as an eco-
friendly depressant for the selective separation of MoS2
from PbS by flotation. Journal of Molecular Liquids
282 (2019) 177–186.
Zhang X, Lu L, Zeng H, et al. A macromolecular depres-
sant for galena and its flotation behavior in the separa-
tion from molybdenite. Minerals Engineering, 2020,
157(106576).
Zhang ZQ.The Use of New Depressant in Copper lead
Separation by Flotation.Journal of Wuhan Institute of
Chemical Technology, 1998, (20): 37–40.
Zhao Kaile, Gu Guohua, Ma Chao. Study on the
Mechanism of Nontoxic Depressant in Copper-Lead
Floation Separation and Its Application. Nonferrous
Metals(Mineral Processing Section), 2021(03):56–61.
Zhao Q., Liu W., Wei D., Wang W., Cui B., Liu W., Effect
of copper ions on the flotation separation of galena
and molybdenite using sodium sulfide as a depressant,
Miner. Eng. 115 (2018) 44–52.