XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 2209
Mu, Y., Cheng, Y., Peng, Y., The interaction of grinding
media and collector in pyrite flotation at alkaline pH.
Minerals Engineering, 2020, 152, 106344.
Mu, Y., Peng, Y., The effect of saline water on copper acti-
vation of pyrite in chalcopyrite flotation. Minerals
Engineering, 2019, 131, 336–341.
Mu, Y., Peng, Y., Selectively depress copper-activated pyrite
in copper flotation at slightly alkaline pH. Mining,
metallurgy &exploration, 2021, 38(2), 751–762.
Mu, Y., Peng, Y., Lauten, R.A., The depression of pyrite
in selective flotation by different reagent systems – A
Literature review. Minerals engineering, 2016, 96-97,
143–156.
Oh, W.-D., Dong, Z., Lim, T.-T., Generation of sulfate
radical through heterogeneous catalysis for organic con-
taminants removal: Current development, challenges
and prospects. Applied catalysis. B, Environmental,
2016, 194, 169–201.
Owusu, C., Addai-Mensah, J., Fornasiero, D., Zanin, M.,
Estimating the electrochemical reactivity of pyrite ores-
their impact on pulp chemistry and chalcopyrite flota-
tion behaviour. Advanced Powder Technology, 2013,
24(4), 801–809.
Peng, Y., Grano, S., Fornasiero, D., Ralston, J., Control
of grinding conditions in the flotation of chalcopyrite
and its separation from pyrite. International Journal of
Mineral Processing, 2003, 69(2003), 87–100.
Peng, Y., Wang, B., Gerson, A., The effect of electrochemi-
cal potential on the activation of pyrite by copper and
lead ions during grinding. International Journal of
Mineral Processing, 2012, 102-103(2012), 141–149.
Wang, J., Wang, S., Activation of persulfate (PS) and
peroxymonosulfate (PMS) and application for the
degradation of emerging contaminants. Chemical
engineering journal (Lausanne, Switzerland :1996),
2018, 334, 1502–1517.
Wang, L., Lan, X., Peng, W., Wang, Z., Uncertainty and
misinterpretation over identification, quantification
and transformation of reactive species generated in
catalytic oxidation processes: A review. J Hazard Mater,
2021, 408, 124436–124436.
Zeng, W.-m., Peng, Y.-p., Peng, T.-j., Nan, M.-h., Chen,
M., Qiu, G.-z., Shen, L., Electrochemical studies on
dissolution and passivation behavior of low tempera-
ture bioleaching of chalcopyrite by Acidithiobacillus
ferrivorans YL15. Minerals engineering, 2020, 155,
106416.
Mu, Y., Cheng, Y., Peng, Y., The interaction of grinding
media and collector in pyrite flotation at alkaline pH.
Minerals Engineering, 2020, 152, 106344.
Mu, Y., Peng, Y., The effect of saline water on copper acti-
vation of pyrite in chalcopyrite flotation. Minerals
Engineering, 2019, 131, 336–341.
Mu, Y., Peng, Y., Selectively depress copper-activated pyrite
in copper flotation at slightly alkaline pH. Mining,
metallurgy &exploration, 2021, 38(2), 751–762.
Mu, Y., Peng, Y., Lauten, R.A., The depression of pyrite
in selective flotation by different reagent systems – A
Literature review. Minerals engineering, 2016, 96-97,
143–156.
Oh, W.-D., Dong, Z., Lim, T.-T., Generation of sulfate
radical through heterogeneous catalysis for organic con-
taminants removal: Current development, challenges
and prospects. Applied catalysis. B, Environmental,
2016, 194, 169–201.
Owusu, C., Addai-Mensah, J., Fornasiero, D., Zanin, M.,
Estimating the electrochemical reactivity of pyrite ores-
their impact on pulp chemistry and chalcopyrite flota-
tion behaviour. Advanced Powder Technology, 2013,
24(4), 801–809.
Peng, Y., Grano, S., Fornasiero, D., Ralston, J., Control
of grinding conditions in the flotation of chalcopyrite
and its separation from pyrite. International Journal of
Mineral Processing, 2003, 69(2003), 87–100.
Peng, Y., Wang, B., Gerson, A., The effect of electrochemi-
cal potential on the activation of pyrite by copper and
lead ions during grinding. International Journal of
Mineral Processing, 2012, 102-103(2012), 141–149.
Wang, J., Wang, S., Activation of persulfate (PS) and
peroxymonosulfate (PMS) and application for the
degradation of emerging contaminants. Chemical
engineering journal (Lausanne, Switzerland :1996),
2018, 334, 1502–1517.
Wang, L., Lan, X., Peng, W., Wang, Z., Uncertainty and
misinterpretation over identification, quantification
and transformation of reactive species generated in
catalytic oxidation processes: A review. J Hazard Mater,
2021, 408, 124436–124436.
Zeng, W.-m., Peng, Y.-p., Peng, T.-j., Nan, M.-h., Chen,
M., Qiu, G.-z., Shen, L., Electrochemical studies on
dissolution and passivation behavior of low tempera-
ture bioleaching of chalcopyrite by Acidithiobacillus
ferrivorans YL15. Minerals engineering, 2020, 155,
106416.