姓 名:刘付朋
性 别:男
学位/职务:博士/党委副书记
出生年月:1987.5.22
联系方式:18879796708
电子邮箱:fupengliu@126.com
办公地点:稀土大楼A522
招生专业:冶金工程、化学工程、
讲授课程:《真空冶金》、《重金属冶金学》、《现代分析检测技术》
研究方向:稀贵二次资源绿色开发与循环利用、锂资源综合利用、冶金过程强化、冶金设备优化
社会兼职:中国有色金属学会重有色金属冶金学术委员会委员
入选人才计划:江西省杰出青年、江西省主要学科学术和技术带头人、山东省博新计划优秀人才、苏区之光优秀青年人才、赣州市科技创新人才
承担的科研项目:
[1] 国家自然科学基金项目,铜阳极泥卡尔多炉控铅砷还原及铋绿色捕集金银机制研究,35万元,主持,在研
[2] 国家自然科学基金项目,高硅复杂物料草酸体系下选择性分离镓锗的应用基础研究,25万元,主持,结题。
[3] 国家重点研发计划项目,2023YFC2907900,铜冶炼过程稀有稀散金属分离富集与纯化技术, 62万,在研,子课题负责人。
[3] 江西省科技厅-江西省杰出青年基金项目, 复杂硫化铜矿伴生铂族金属赋存机制及强化分离研究, 20万元,主持,在研。
[4] 江西省科技厅-江西省主要学术和技术带头人项目, 退役三元锂电池氢基闪速提锂优化及特征污染物防控, 50万元,主持,在研。
[5] 中国宝武低碳冶金创新基金资助项目, 氢基闪速炼铁应用基础研究, 60万元,主持,在研。
[6] 宜春市重大科技攻关项目,役三元正极物料绿色提锂及新型高容量负极材料制备研究,100万元,主持,在研。
[7] 江西省科技厅揭榜挂帅企业重大需求项目,退役三元电池优先提锂,2000万元,子课题负责人,负责项目生产线建设,在研。
[8] 山东省博新计划人才支持项目,山东省人力资源和社会保障厅,稀贵二次资源协同绿色提取应用基础研究, 60万元,在研,结题。
[9]中金岭南丹霞冶炼厂揭榜挂帅重大技术研发项目,提高镓锗直收率技术研究,182万元,主持,在研。
[10] 校企联合项目,河北军瓷新材料有限公司,短流程制备高性能氮化铝粉体及基板产业化项目,2020360702000178A,2021/01-2021/12,200万元,结题,主持。
[11] 校企合作项目,河南豫光金铅有限公司,双底吹炼铅多元多相平衡过程有价金属强化捕集与分离机制研究,2022360702007310A,2021/05-2022/12, 94万元,结题,主持。
[12] 校企合作项目,含锂复杂二次资源高效提锂关键技术研究,100万元,在研,主持。
[13] 校企合作项目,废旧锂电池绿色短流程选择性提锂研究,30万元,在研,主持。
[14] 校企联合-专利成果转化项目,废旧锂电池优先选择性提锂及制备电池级碳酸锂项目,45万元,2021/10-2022/12,结题,主持。
[15]校企联合-专利成果转化项目,一种闪速还原从废旧锂电池中高效选择性提锂的方法,20万元,结题,主持。
[16] 芬兰国家科学院基金项目,Finland4853/31/2018,欧盟-芬兰国家地区废旧电池循环回收与资源整合 (BatCircle ),2019/01-2020/12,2000万欧元,完成,子课题负责人 100万欧元。
代表性著作:
[1] 刘付朋,彭超. 废旧三元锂电池锂高效分离提取研究,2023年,中南大学出版社
[2] 刘付朋. 锌精矿氧压浸出工艺中镓锗的行为及回收,2022年,中南大学出版社
代表性论文:
[1] Hong Zeng, Fupeng Liu*, Feixiong Chen, Chunfa Liao, Yanliang Zeng, Songlin Zhou, Xingbang Wan. Green Capture of Silver by Bismuth from Decoppered Anode Slime with Low Energy Consumption[J]. ACS Sustainable Chemistry & Engineering, 2023, 11(7), 2897-2909. IF=8.7.
[2] Feixiong Chen, Fupeng Liu*, Songlin Zhou, Jinliang Wang, Yanliang Zeng, Chunfa Liao. Selective separation and recovery of selenium and mercury from hazardous acid sludge obtained from the acid-making process of nonferrous metal smelting[J]. Hydrometallurgy, 2023, 221, 106133. IF=4.7.
[3] Feixiong Chen, Fupeng Liu*, Longjun Wang, Jinliang Wang. Comparison of the Preparation Process of Rare Earth Oxides from the Water Leaching Solution of Waste Nd-Fe-B Magnets’ Sulfate Roasting Products, Processes, 2022, 10, 2310. IF=3.5.
[4] Hong Zeng, Fupeng Liu*, Songlin Zhou, Chunfa Liao, Feixiong Chen, Yanliang Zeng. Leaching Behavior of the Main Metals from Copper Anode Slime during the Pretreatment Stage of the Kaldor Furnace Smelting Process[J]. Processes, 2022, 10, 2510. IF=3.5.
[5] Shuaibing Ma, Fupeng Liu*, Kaibin Li, Zaoming Chen, Feixiong Chen, Jinliang Wang, Shuiping Zhong, Benjamin P. Wilson, Mari Lundström. Separation of Li and Al from spent ternary Li-ions batteries by in-situ aluminum-carbon reduction roasting followed by selective leaching[J]. Hydrometallurgy, 2022, 213, 105941. IF=4.7.
[6] Chao Peng, Liu Fupeng*, Zulin Wang, Benjamin P. Wilson, Mari Lundström. Selective extraction of lithium (Li) and preparation of battery grade lithium carbonate (Li2CO3) from spent Li-ion batteries in nitrate system, Journal of Power Sources, 0378-7753, 2019.01, 415: 179-188. IF=9.13.
[7] Liu Fupeng, Chao Peng, Benjamin P. Wilson, Mari Lundström. Oxalic Acid Recovery from High Iron Oxalate Waste Solution by a Combination of Ultrasound-Assisted Conversion and Cooling Crystallization, ACS Sustainable Chemistry and Engineering, 2019.10, 17372-17378. IF=8.20.
[8] Liu Fupeng, Chao Peng, Antti Porvali, Benjamin P. Wilson, Mari Lundström. Synergistic recovery of valuable metals from spent nickel-metal hydride batteries and lithium-ion batteries, ACS Sustainable Chemistry and Engineering, 2019.07, 16103-16111. IF=8.20.
[9] Fupeng Liu, Chao Peng, Quanxin Ma, Jinliang Wang, Songlin Zhou, Zaoming Chen, Benjamin P. Wilson, Mari Lundstrom. Selective lithium recovery and integrated preparation of high-purity lithium hydroxide products from spent lithium-ion batteries, Separation and Purification Technology, 2021, 259(118181 ): 1-9.
[10] Liu Fupeng, Liu Zhihong, Li Yuhu, Benjamin P. Wilson, Mari Lundström. Recovery and separation of gallium(III) and germanium(IV) from zinc refinery residues: Part I: Leaching and iron(III) removal. Hydrometallurgy, 2017,169: 526-527. IF=4.7.
[11] Liu Fupeng, Liu Zhihong, Li Yuhu, Benjamin P. Wilson, Zeng Li, Liu Zhiyong, Mari Lundström. Recovery and separation of gallium(III) and germanium(IV) from zinc refinery residues. PartⅡ: Solvent extraction. Hydrometallurgy, 2017, 171:149-156. IF=4.71
[12] Liu Fupeng, Liu Zhihong, Li Yuhu, Liu Zhiyong, Li Qihou, Zeng Li. Extraction of gallium and germanium from zinc refinery residues by pressure acid leaching. Hydrometallurgy, 2016,164: 313-320. IF=4.71
[13] Liu Fupeng, Antti Porvali, Jianglian Wang, Houqing Wang, Chao Peng, Benjamin P. Wilson, Mari Lundström. Recovery and separation of rare earths and boron from spent Nd-Fe-B magnets, Minerals Engineering, 2020.145, 1-9. IF=4.76
[14] Liu Fupeng, Wang Jinliang, Peng Chao, Liu Zhihong, Benjamin P. Wilson, Mari Lundström*. Recovery and separation of silver and mercury from hazardous zinc refinery residues produced by zinc oxygen pressure leaching. Hydrometallurgy, 0304-386X, 2019.01, 186: 38-45. IF=4.71
[15] Liu Fupeng *, Feixiong Chen, Longjun Wang, Shuaibing Ma, Xingbang Wan, Jinliang Wang. Selective separation of rare earths from spent Nd-Fe-B magnets using two-stage ammonium sulfate roasting followed by water leaching. Hydrometallurgy, 2021, 203.105626. IF=4.71
[16] Liu Fupeng, Antti Porvali, Petteri Halli, Benjamin P. Wilson, Mari Lundström. Comparison of different leaching media and their effect on REEs recovery from spent Nd-Fe-B magnets, JOM, 2019,10,1-10. IF=2.76
[17] Liu Fupeng, Liu Zhihong, Li Yuhu, Benjamin P. Wilson, Mari Lundström. Extraction of Ga and Ge from zinc refinery residues in H2C2O4 solutions containing H2O2. International journal of mineral processing. 2017, 163: 14-23. IF=2.68,IF=2.78
[18] Liu Fupeng, Liu Zhihong, Li Yuhu, Benjamin P. Wilson, Mari Lundström. Behaviors of gallium and germanium associated with zinc sulfide concentrate in oxygen pressure leaching. Physicochemical Problems of Mineral Processing, 2017, 53(2): 1047-1060. IF=1.30
[19] Chao Peng, Liu Fupeng, Zulin Wang, Benjamin P. Wilson, Mari Lundström*. Extraction of Li and Co from industrially produced Li-ion battery waste – usingthe reductive power of waste itself, Waste Management, 2019, 05: 604-611. IF=7.14
[20] 刘付朋,刘志宏,李玉虎,刘智勇,李启厚. 锌粉置换镓锗渣高压酸浸的浸出机理. 中国有色金属学报, 2014, 24(4): 1091-1098. EI期刊
[21] 刘付朋,刘志宏,李玉虎,刘智勇,李启厚,文达敏. 锌粉置换镓锗渣硫酸浸出过程. 中国有色金属学报, 2016, 26(4): 908-917. EI期刊
[22] 刘付朋,刘志宏,李玉虎,刘智勇,李启厚. 锌粉置换镓锗渣草酸浸出过程. 中国有色金属学报, 2017. EI期刊
[23] Li Yuhu, Liu Zhihong, Li Qihou, Liu Fupeng, Liu Zhiyong. Alkaline oxidative pressure leaching of arsenic and antimony bearing dusts. Hydrometallurgy, 166: 41-47. IF=4.71
[24] Li Yuhu, Liu Zhihong, Liu Fupeng, Li Qihou, Liu Zhiyong, Zeng Li. Promotion effect of KMnO4 on the oxidation of As(III) by air in alkaline solution. Journal of Hazardous Materials, 2014, 280: 315-321. IF=10.58
[25] Chao Peng, Cong Chang, Zulin Wang, Benjamin P. Wilson, Liu Fupeng, Mari Lundström. Recovery of High-Purity MnO2 from the Acid Leaching Solution of Spent Li-Ion Batteries, JOM, 2019, 09, 1-9. IF=2.76
[26] Zulin Wang, Petteri Halli, Pyry Hannula, Liu Fupeng, Kirsi Yliniemi, Benjamin P. Wilson, Mari Lundström. Recovery of silver from dilute effluents via electrodeposition and redox replacement. Journal of The Electrochemical Society, 2019, 01, E266-274. IF=4.316
[27] Antti Porvali, Miamari Aaltonen, Severi Ojanen, Omar Velazquez-Martinez, Emmi Eronena, Fupeng Liu, Benjamin P. Wilson, Rodrigo Serna-Guerrero, Mari Lundström .Mechanical and hydrometallurgical processes in HCl media for the recyclingof valuable metals from Li-ion battery waste. Resources, Conservation & Recycling, 2018,11. IF=10.02,
专利:
[1] 一种从废旧电池选择性回收锂并制备碳酸锂的方法, 2018.4.19, 中国,ZL 201810353215.X. (实现成果转化)
[2] 一种闪速还原从废旧锂电池中高效选择性提锂的方法, 2021.08,中国ZL201910716016.5(实现成果转化)
[3] 一种镓锗吸附剂、其制备方法和应用以及从湿法炼锌浸出液中富集镓锗的方法, 2015.8.9, 中国, ZL201510511505.9.
[4] 一种从含镓和锗的草酸溶液中回收镓和锗的方法,2016.7.4,中国, ZL 201610516517.5.
[5] 一种钕铁硼废料双闪直接综合回收的方法, 2020.09, 中国,ZL201910009150.1.
[6] 一种钕铁硼废料双闪综合回收的方法, 2020.09, 中国,ZL201910009156.9
[7] 一种钕铁硼废料酸浸渣闪速还原超重力渣金融分综合回收的方法, 2020-8-28, 中国, ZL201910009139.5.
[8] 一种从含锗物料中回收锗的方法,中国,2016-05-11,ZL201410200955.1.
[9] 一种悬浮还原制备氮化铝粉体的方法: 中国, CN113860879A, 2021, 12, 31.
主要奖励:
[1] 高杂铜阳极绿色电解与综合回收关键技术及应用,中国有色金属工业科学技术二等奖,2019年。
[2] 芬兰阿尔托大学科研贡献奖Research action (Valuable contribution) of the year 2018 in Finland