副教授
博士生导师
硕士生导师
入职时间:2018-08-31
所在单位:冶金与环境学院
学历:博士研究生毕业
办公地点:中南大学新校区金贵楼309
性别:男
联系方式:13548696693
学位:博士学位
在职信息:在职
毕业院校:中南大学
学科:环境科学与工程
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最后更新时间:..
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[1]Ke Y*, et al. Comprehensive recycling of zinc and iron from smelting waste containing zinc ferrite by oriented transformation with SO2[J]. Journal of Cleaner Production, 2020: 121468., 2020
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[2]Ke Y*, et al. Mechanochemically Activated Microsized Zero-Valent Iron/Pyrite Composite for Effective Hexavalent Chromium Sequestration in Aqueous Solution[J]. Journal of Chemical & Engineering Data, 2020, 65(4): 1936-1945., 2020
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[3]Ke Y*, et al. Sulfidation roasting of zinc leaching residue with pyrite for recovery of zinc and iron[J]. JOURNAL OF CENTRAL SOUTH UNIVERSITY, 2020, 27(4): 1186-1196., 2020
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[4]Ke Y*, Zhao FP*, et al. Enhanced adsorption of antimonate by ball-milled microscale zero valent iron/pyrite composite: adsorption properties and mechanism insight[J]. Environmental Science and Pollution Research, 2020: 1-12., 2020
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[5]Ke Y*, et al. Stabilization of arsenic sulfide sludge by hydrothermal treatment[J]. Hydrometallurgy, 2020, 191: 105229., 2020
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[6]Ke Y*, et al. Recovery of valuable metals from spent ternary Li-ion batteries: Dissolution with amidosulfonic acid and d-glucose[J]. Hydrometallurgy, 2019, 190: 105162., 2019
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[7]Ke Y*, Zhao FP*, et al. Highly efficient antimonate removal from water by pyrite/hematite bi-mineral: performance and mechanism studies[J]. Journal of Chemical & Engineering Data, 2019, 64(12): 5910-5919., 2019
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[8]Ke Y*, et al. Stabilization of ferric arsenate sludge with mechanochemically prepared FeS2/Fe composites[J]. Transactions of Nonferrous Metals Society of China, 2019, 29(9): 1983-1992., 2019
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[9]Ke Y*, et al. Comparison of arsenic immobilization properties among calcium silicate hydrate, ettringite, and friedel's salt in a slag‐based binder[J]. Environmental Progress & Sustainable Energy, 2019, 38(s1): S422-S428., 2019
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[10]Ke Y*, et al. Release behaviors of arsenic and heavy metals from arsenic sulfide sludge during simulated storage[J]. Minerals, 2019, 9(2): 130., 2019
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[11]Min X*, Ke Y*, et al. Hydrothermal treatment of arsenic sulfide residues from arsenic-bearing acid wastewater[J]. International Journal of Environmental Research and Public Health, 2018, 15(9): 1863., 2018
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[12]Ke Y, et al. Sulfidation behavior and mechanism of zinc silicate roasted with pyrite[J]. Applied Surface Science, 2018, 435: 1011-1019., 2018
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[13]Min X B*, Ke Y*, et al. Co-treatment of flotation waste, neutralization sludge, and arsenic-containing gypsum sludge from copper smelting: solidification/stabilization of arsenic and heavy metals with minimal cement clinker[J]. Environmental Science and Pollution Research, 2018, 25(8): 7600-7607., 2018
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[14]Ke Y, et al. Separation of Cu and As in Cu-As-containing filter cakes by Cu2+-assisted acid leaching[J]. Hydrometallurgy, 2017, 172: 45-50., 2017
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[15]Ke Y*, et al. Fe-FeS2 adsorbent prepared with iron powder and pyrite by facile ball milling and its application for arsenic removal[J]. Water Science and Technology, 2017, 76(1): 192-200., 2017
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[16]Ke Y, et al. Sulfidation behavior of Zn and ZnS crystal growth kinetics for Zn (OH) 2–S–NaOH hydrothermal system[J]. Hydrometallurgy, 2016, 161: 166-173., 2016
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[17]Ke Y*, et al. Sulfidation behavior of ZnFe2O4 roasted with pyrite: Sulfur inducing and sulfur-oxygen interface exchange mechanism[J]. Applied Surface Science, 2016, 371: 67-73., 2016
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[18]Ke Y, et al. Behavior and effect of calcium during hydrothermal sulfidation and flotation of zinc-calcium-based neutralization sludge[J]. Minerals Engineering, 2015, 74: 68-78., 2015
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[19]Ke Y, et al. Sulfidation of heavy-metal-containing neutralization sludge using zinc leaching residue as the sulfur source for metal recovery and stabilization[J]. Minerals engineering, 2014, 61: 105-112., 2014
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[20]Ke Y, et al. Sulfidation of heavy-metal-containing metallurgical residue in wet-milling processing[J]. Minerals Engineering, 2013, 53: 136-143., 2013
