3146 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
[18] Zhang Cheng, Liu Cheng, Feng Qiming, Chen
Yanfei, Utilization of N-carboxymethyl chitosan as
selective depressants for serpentine on the flota-
tion of pyrite, International Journal of Mineral
Processing, 163(2017)45–47.
[19] Wang Zhen, Qian Yunlou, Xu Long-hua, Dai Bo,
Xiao Jun-hui, Fu Kaibin, Selective chalcopyrite flo-
tation from pyrite with glycerine-xanthate as depres-
sant, Minerals Engineering, 74(2015)86–90.
[20] Wang Chengyong, Cen Xingwan, Xing Yaowen,
Zhang Chenhu, Li Jihui, Gui Xiahui, Depression
mechanisms of sodium humate and 3-mercaptopro-
pionic acid on pyrite in fine coal flotation, Applied
Surface Science, 613(2022)156151.
[21] Khoso Sultan Ahmed, Lyu Fei, Meng Xiangsong, Hu
Yuehua, Sun Wei, Selective separation of chalcopyrite
and pyrite with a novel and non-hazardous depres-
sant reagent scheme, Chemical Engineering Science,
209(2019)115204.
[22] Li Suqi, Yuan Jiaqiao, Ding Zhan, Li Jie, Yu Anmei,
Wen Shuming, Bai Shaojun, The depression mecha-
nism on pyrite in a low-alkaline system with com-
bined depressants: Experiment, HSC, DFT and
ToF-SIMS studies, Physicochemical Problems of
Mineral Processing, 59(2023)168454.
[23] Wang Changtao, Liu Runqing, Khoso Sultan Ahmed,
Lu Hongyu, Sun Wei, Ni Zhangyuan, Lyu Fei,
Combined inhibitory effect of calcium hypochlorite
and dextrin on flotation behavior of pyrite and galena
sulphides, Minerals Engineering, 150(2020)106274.
[24] Chen Jianhua, Li Yuqiong, Chen Ye, Cu-S flo-
tation separation via the combination
of sodium humate and lime in a low pH medium,
Minerals Engineering, 24(2011)58–63.
[25] Du Yunpeng, Tong Xiong, Xie Xian, Lu Yalin, Hua
Zhongbao, Zhang Wenjie, Effects of pyrite on the
flotation behavior and electrochemical interaction
of different particle sizes of galena in the presence
of diethyldithiocarbamate, Separation Science and
Technology, 56(2021)2467–2474.
[26] Qin Wen-qing, Wang Xing-jie, Ma Li-yuan, Jiao Fen,
Liu Rui-zeng, Gao Ke, Effects of galvanic interaction
between galena and pyrite on their flotation in the
presence of butyl xanthate, 25(2015)3111–3118.
[27] Ke Baolin, Chen Jianhua, Cheng Wei, Galvanic inter-
action between different grinding media and galena
(100) surface and its influence on galena flota-
tion behavior: A DFT study, Applied Surface Science,
571(2022)151379.
[28] Liu Dezhi, Zhang Guofan, Li BinBin, Electrochemical
and XPS investigations on the galvanic interac-
tion between pentlandite and pyrrhotite in col-
lectorless flotation system, Minerals Engineering,
190(2020)107916.
[29] Pan Zu-chao, Zhang Yi-sheng, Hu Jun-jie, Jiao Fen,
Qin Wen-qing, Camphor leaf extract as neoteric and
environmentally friendly depressant in flotation sepa-
ration of scheelite and calcite,Trans. Nonferrous Met.
Soc. China, 33(2023) 275−284.
[30] J.S. Laskowski, Q. Liu, C.T. O’Connor, Current
understanding of the mechanism of polysaccharide
adsorption at the mineral/aqueous solution interface,
IntInternational Journal of Mineral Processing, 84
(2007) 59–68.
[31] Majid Ejtemaei, Anh V. Nguyen, Characterisation of
sphalerite and pyrite surfaces activated by copper sul-
phate, Minerals Engineering, 100 (2017) 223–232.
[32] Zhang Hongliang, Zhang Feng, Sun Wei, Chen
Daixiong, Chen Jianhua, Wang Rong, Han Mingjun,
Zhang Chenyang, The effects of hydroxyl on selective
separation of chalcopyrite from pyrite: A mechanism
study, Applied Surface Science 608 (2023) 154963.
[33] Zhang Wenjuan, Li Ying, Guo Jinjia, Xiao Qiong,
Yu Li, The Investigation of Humic Acid by Surface-
Enhanced Raman Spectroscopy, Spectroscopy and
Spectral Analysis, 33(2013)1249–1252.
[18] Zhang Cheng, Liu Cheng, Feng Qiming, Chen
Yanfei, Utilization of N-carboxymethyl chitosan as
selective depressants for serpentine on the flota-
tion of pyrite, International Journal of Mineral
Processing, 163(2017)45–47.
[19] Wang Zhen, Qian Yunlou, Xu Long-hua, Dai Bo,
Xiao Jun-hui, Fu Kaibin, Selective chalcopyrite flo-
tation from pyrite with glycerine-xanthate as depres-
sant, Minerals Engineering, 74(2015)86–90.
[20] Wang Chengyong, Cen Xingwan, Xing Yaowen,
Zhang Chenhu, Li Jihui, Gui Xiahui, Depression
mechanisms of sodium humate and 3-mercaptopro-
pionic acid on pyrite in fine coal flotation, Applied
Surface Science, 613(2022)156151.
[21] Khoso Sultan Ahmed, Lyu Fei, Meng Xiangsong, Hu
Yuehua, Sun Wei, Selective separation of chalcopyrite
and pyrite with a novel and non-hazardous depres-
sant reagent scheme, Chemical Engineering Science,
209(2019)115204.
[22] Li Suqi, Yuan Jiaqiao, Ding Zhan, Li Jie, Yu Anmei,
Wen Shuming, Bai Shaojun, The depression mecha-
nism on pyrite in a low-alkaline system with com-
bined depressants: Experiment, HSC, DFT and
ToF-SIMS studies, Physicochemical Problems of
Mineral Processing, 59(2023)168454.
[23] Wang Changtao, Liu Runqing, Khoso Sultan Ahmed,
Lu Hongyu, Sun Wei, Ni Zhangyuan, Lyu Fei,
Combined inhibitory effect of calcium hypochlorite
and dextrin on flotation behavior of pyrite and galena
sulphides, Minerals Engineering, 150(2020)106274.
[24] Chen Jianhua, Li Yuqiong, Chen Ye, Cu-S flo-
tation separation via the combination
of sodium humate and lime in a low pH medium,
Minerals Engineering, 24(2011)58–63.
[25] Du Yunpeng, Tong Xiong, Xie Xian, Lu Yalin, Hua
Zhongbao, Zhang Wenjie, Effects of pyrite on the
flotation behavior and electrochemical interaction
of different particle sizes of galena in the presence
of diethyldithiocarbamate, Separation Science and
Technology, 56(2021)2467–2474.
[26] Qin Wen-qing, Wang Xing-jie, Ma Li-yuan, Jiao Fen,
Liu Rui-zeng, Gao Ke, Effects of galvanic interaction
between galena and pyrite on their flotation in the
presence of butyl xanthate, 25(2015)3111–3118.
[27] Ke Baolin, Chen Jianhua, Cheng Wei, Galvanic inter-
action between different grinding media and galena
(100) surface and its influence on galena flota-
tion behavior: A DFT study, Applied Surface Science,
571(2022)151379.
[28] Liu Dezhi, Zhang Guofan, Li BinBin, Electrochemical
and XPS investigations on the galvanic interac-
tion between pentlandite and pyrrhotite in col-
lectorless flotation system, Minerals Engineering,
190(2020)107916.
[29] Pan Zu-chao, Zhang Yi-sheng, Hu Jun-jie, Jiao Fen,
Qin Wen-qing, Camphor leaf extract as neoteric and
environmentally friendly depressant in flotation sepa-
ration of scheelite and calcite,Trans. Nonferrous Met.
Soc. China, 33(2023) 275−284.
[30] J.S. Laskowski, Q. Liu, C.T. O’Connor, Current
understanding of the mechanism of polysaccharide
adsorption at the mineral/aqueous solution interface,
IntInternational Journal of Mineral Processing, 84
(2007) 59–68.
[31] Majid Ejtemaei, Anh V. Nguyen, Characterisation of
sphalerite and pyrite surfaces activated by copper sul-
phate, Minerals Engineering, 100 (2017) 223–232.
[32] Zhang Hongliang, Zhang Feng, Sun Wei, Chen
Daixiong, Chen Jianhua, Wang Rong, Han Mingjun,
Zhang Chenyang, The effects of hydroxyl on selective
separation of chalcopyrite from pyrite: A mechanism
study, Applied Surface Science 608 (2023) 154963.
[33] Zhang Wenjuan, Li Ying, Guo Jinjia, Xiao Qiong,
Yu Li, The Investigation of Humic Acid by Surface-
Enhanced Raman Spectroscopy, Spectroscopy and
Spectral Analysis, 33(2013)1249–1252.