中南大学陈永明

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教授硕士生导师
入职时间：2010-03-19
所在单位：冶金与环境学院
学历：博士研究生毕业
办公地点：理学楼222室
性别：男
联系方式：18684685548
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
冶金工程

论文成果

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[1]Efficient extraction and recovery of lithium from waste aluminum cryolite electrolyte[J].Resources, Conservation & Recycling, 2023, 197: 107070.
[2]Leaching kinetics of de-lithium residue from spent ternary lithium-ion battery cathodic materials with starch as reductant[J].Transactions of Nonferrous Metals Society of China, 2023, 33: 619-631.
[3]Energy-Efficient and Green Extraction of Bismuth Metal in Methanesulfonic Acid-Based Membrane Electrochemical Systems[J].ACS Sustainable Chemistry & Engineering, 2023, 11: 7851-7862.
[4]Metallic Bismuth Morphology and Microstructure Control During the Membrane Electro-Deposition in Methane-Sulfonic Acid System[J].Separation and Purification Technology, 2023, 315: 123700.
[5]Efficient separation and recovery of lithium and manganese from spent lithium-ion batteries powder leaching solution[J].Separation and Purification Technology, 2022, 309: 123063.
[6]Green hydrometallurgical extraction of metallic lead from spent lead paste in the methanesulfonic acid system[J].Separation and Purification Technology, 2022, 306: 122592.
[7]Green and short smelting process of bismuth sulphide concentrate with pyrite cinder[J].Journal of Cleaner Production, 2022, 377: 134348.
[8]Green Electrorefining of Crude Lead with High-Quality Deposits in an Additive-Assisted Methanesulfonic Acid System[J].ACS Sustaina ble Chemistry & Engineering, 2022, 10: 11223-11231.
[9]Selective recovery of lithium and efficient leaching of transition metals from spent LiNixCoyMnzO2 batteries based on a synergistic roasting process.Chemical Engineering Journal, 2022, 449: 137752.
[10]Removal of cadmium and arsenic from Cd-As-Pb-bearing dust based on peroxide leaching and coprecipitation[J].Hydrometallurgy, 2022, 209: 105839.
[11]Removal of halogens from Pb-bearing dust by alkaline washing[J].Hydrometallurgy, 2022, 209: 105838.
[12]Clean antimony production from stibnite concentrate with goethite residue co-treatment for zinc, iron, sulfur conservation[J].Journal of Cleaner Production, 2021, 313: 127847.
[13]Selective extraction of valuable metals from spent EV power batteries using sulfation roasting and two stage leaching process[J].Separation and Purification Technology, 2021, 258: 118078.
[14]Comprehensive recovery of Sn-Cu bearing residue and preparation of high purity SnO2 and CuSO4？5H2O[J].Separation and Purification Technology, 2021, 257: 117826.
[15]Waste Organic Compounds Thermal Treatment and Valuable Cathode Materials Recovery from Spent LiFePO4 Batteries by Vacuum Pyrolysis[J].ACS Sustainable Chemistry & Engineering, 2020 (8) : 51:19084-19095.
[16]Direct oxidative pressure leaching of bismuth sulfide concentrate in methanesulfonic acid medium[J].Hydrometallurgy, 2020, 194: 105347.
[17]Toxicity Identification and Evolution Mechanism of ThermolysisDriven Gas Emissions from Cathodes of Spent Lithium-Ion Batteries[J].ACS Sustainable Chemistry & Engineering, 2019, 7 (22) : 18228-18235.
[18]Novel recycling process for lead-acid battery paste without SO2 generation - Reaction mechanism and industrial pilot campaign[J].Journal of Cleaner Production, 2019, 217: 1620-171.
[19]Thermal treatment and ammoniacal leaching for the recovery of valuable metals from spent lithium-ion batteries[J].WASTE MANAGEMENT, 2018, 75: 469-476.
[20]A cleaning process for the removal and stabilisation of arsenic from arsenic-rich lead anode slime[J].Journal of Cleaner Production, 2017 (176) : 26-35.

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