刘葵
点击数:5088 来源:化学与药学学院 作者: 录入:人员机构 更新时间:2018-11-23
刘葵,教授,博士研究生生导师,毕业于北京化工大学和中南大学,化学工程博士,冶金工程博士后,广西化学化工学会理事,中国有色金属产业技术创新战略联盟专家委员会委员。主要从事矿物冶炼及深加工、有价金属提取及分离、废弃物资源化利用等领域的研究工作。先后主持和参加包括国家重点基础研究发展计划(973计划)项目、国家自然科学基金重点项目、国家自然科学基金面上项目和地区基金、广西自然科学基金重点项目、广西重点研发计划项目、中国博士后科学基金等在内的二十多项科研项目的研究工作,在国内外学术刊物发表论文40余篇,其中SCI、EI论文20余篇,申请发明专利25项,获授权中国发明专利20项,获授权国际发明专利1项,参编教材3部,主编教材1部。
研究方向
稀土萃取分离、废旧锂离子电池回收利用、镍矿冶炼、有价金属提取分离、工业废水处理。
研究项目
主持国家自然科学基金面上项目1项,国家自然科学基金地区基金项目1项,广西自然科学基金重点项目1项,广西自然科学基金面上项目2项,企业合作项目1项,广西重点研发计划项目1项,广西高校科研项目1项,中国博士后基金项目1项。
教学课程
化工原理、化工基础、高等分离工程,化工学科研究前沿
研究成果
1.成功研发稀土及其他金属元素的非皂化萃取分离技术。
2.研发的废旧锂离子电池回收利用技术正在进行中试试验。
部分授权专利(第一发明人):
(1)一种氧化镍矿酸浸液两步除铁方法. ZL2014103682303
(2)一种同时处理高铁和高镁含量红土矿的常压浸出方法.ZL 2011101127720
(3)改进的处理高铁和高镁含量红土矿并获得赤铁矿产品的方法. ZL2012104875817
(4)Liu Kui, Kuang LIfang,ChenMingzhen,Long Hua,Chen Xingxin. Two-stage iron removing method for solutionsobtained from acid leaching of nickel oxideores.2015207917,IP Australia. 澳大利亚授权发明专利
(5)氧化镍矿酸浸液中钴、镍、镁的分离方法. ZL2015107808150
(6)一种无皂化萃取分离轻稀土元素的方法.ZL2014103556654
(7)一种轻稀土元素的无皂化萃取分离方法. ZL2014107919430
(8)用于分离钇的混合萃取剂及从稀土料液中萃取分离钇的方法. ZL2015109824020
(9)一种非稀土杂质和稀土元素萃取分离方法. ZL 2017102950252.
(10)一种稀土元素的萃取分离方法.ZL2018115456829.
(11)一种稀土矿浸出液中杂质的脱除方法.ZL2018101489920.
(12) 一种废旧锂离子电池中电解液的回收方法.ZL201810970711x
(13) 一种回收锂离子电池中正极活性物质的方法.ZL 2018109706954
(14) 分离回收锂离子电池中正极活性物质的方法.ZL 2018109707001
(15)废旧锂离子电池中铝箔与正极活性物质分离的方法. ZL2018113121055.
(16)一种分离废旧锂离子电池正极中锂和其他金属的方法. ZL2019105146411
(17)分离废旧锂离子电池正极片中铝箔和正极活性物质的方法. ZL 2018115358686
(18)一种废旧磷酸铁锂电池正极材料的回收利用方法. ZL 2020100600735
(19)一种回收利用废旧锂离子电池正极活性物质的方法 ZL201910514638x
(20)一种废旧锂离子电池负极片的回收方法.ZL 201910670996x
如有上述技术需求,请来电来信洽谈。
近年来发表的部分论文:
[1]Kui Liu, QiyuanChen, Huiping Hu. Comparative leaching of minerals by sulphuric acid in aChinese ferruginous nickel laterite ore. Hydrometallurgy, 2009, 98: 281–286.
[2]Kui Liu, QiyuanChen, Huiping Hu, Zhoulan Yin. Characterization and leaching behaviour oflizardite in Yuanjiang laterite ore. Applied Clay Science, 2010, 47: 311–316.
[3]Kui Liu, QiyuanChen, Huiping Hu, Zhoulan Yin, Boke Wu. Pressure acid leaching of a Chineselaterite ore containing mainly maghemite and magnetite. Hydrometallurgy, 2010,104:32-38.
[4]Kui Liu, QiyuanChen, Huiping Hu, Zhiying Ding, Zhoulan Yin. Characteristics of scales formedfrom pressure leaching of Yuanjiang laterite. Hydrometallurgy, 2011,109:131-139.
[5]Kui Liu,Qiyuan Chen, Zhoulan Yin, Huiping Hu, Zhiying Ding. Kinetics of leaching of aChinese laterite containing maghemite and magnetite in sulfuric acid solutions.Hydrometallurgy, 2012, 125-126: 125-136
[6]Zhoulan Yin, Zhiying Ding,Huiping Hu, Kui Liu, Qiyuan Chen.Dissolution of zinc silicate(hemimorphite) with ammonia-ammonium chloride solution. Hydrometallurgy,2010, 103: 215-220.
[7]Kui Liu, QiyuanChen, Huiping Hu, Zhoulan Yin, Zhiying Ding, Xi Wang. Extraction of nickel andcobalt from Yuanjiang laterite by sulphuric acid leaching at atmosphericpressure. 5th International Conference on Hydrometallurgy.Zhangjiajie: The Nonferrous Metals Society of China, National Natural ScienceFoundation of China. 2009. pp.229.
[8]Kui Liu, QiyuanChen, Huiping Hu, Zhoulan Yin, Zhiying Ding, Xi Wang. Difference of lizarditedissolution behaviour between laterite soil and rock type ore. 5th InternationalConference on Hydrometallurgy. Zhangjiajie: The Nonferrous Metals Society ofChina, National Natural Science Foundation of China. 2009. pp.123.
[9]Kui Liu,Xingxin Chen, Lifang Kuang, Hua Long. Separation of Neodymium, Praseodymiumfrom Cerium, Lanthanum in Chloride Solutions with P507. 6th InternationalConference of Hydrometallurgy. Beijing: Institute of Process Engineering,Chinese Academy of Science, National Natural Science Foundation of China. 2014.pp.582-590.
[10]Kui Liu,Zengkai Wang, Xiaomeng Tang, Shiquan Lu. Extraction of yttrium using naphthenicacid with different acid numbers. Separation Science and Technology, 2016, 51(17): 2804–2814.
[11]Kui Liu,Hua Long, Yan Wang, Xiaomeng Tang.Separation of cobalt and nickel from sulfatemedia using P507-N235 system. Separation Science and Technology, 2018, 53( 1):36–43.
[12]Kui Liu,ShenglongYang, Feiyan Lai, Hongqiang Wang, Youguo Huang, Fenghua Zheng, ShubinWang,Xiaohui Zhang, Qingyu Li.InnovativeElectrochemical Strategy to Recovery ofCathode and Efficient Lithium Leachingfrom Spent Lithium-Ion Batteries. ACS Applied Energy Materials,ACS,2020, 3: 4767- 4776
[13]Kui Liu,ShenglongYang, Luqin Luo, Qichang Pan, Peng Zhang,Youguo Huang, Fenghua Zheng,HongqiangWang, Qingyu Li.From spent graphiteto recycle graphite anode forhigh-performance lithium ion batteries and sodiumion batteries.ElectrochimicaActa (TOP期刊), 2020, 356, 136856.
[14]Xiaoping Fan,Chunhong Song,Xifei Lu,Ying Shi,Shenglong Yang,Fenghua Zheng,Youguo Huang,Kui Liu*, Hongqiang Wang,Qingyu Li.Separation andrecovery of valuable metals from spentlithium-ion batteries via concentratedsulfuric acid leaching and regenerationof LiNi1/3Co1/3Mn1/3O2.Journal of Alloys and Compounds (TOP期刊), 2021,863, 158775.
[15]Kui Liu,YafeiCheng, Ying Shi, Wei Zhang, Yu Wang, Fan Tang, Xijie Lin. Synergisticeffectbetween La–Ni bimetallic oxides for the efficient decomposition ofhydrogenperoxide. New Journal of Chemistry, 2021, 45, 1584-1589.
[16]Kui Liu, Yu Wang,Hua Long, Yafei Cheng, Yao Wu, Yezheng Cai, Juantao Jiang. Recovery of cobaltand nickel from magnesium-rich sulfate leach liquorwith magnesium oxideprecipitation method.Minerals Engineering (TOP期刊),2021,169, 106961
[17]KuiLiu, Shenglong Yang,Feiyan Lai, Qingyu Li, Hongqiang Wang, Tao Tao,Dinghan Xiang, Xiaohui Zhang. Applicationof H4P2O7 as leaching acid inone-stepselective recovery for metals from spentLiFePO4 batteries.Ionics,2021,27(12),5127-5135
[18]KuiLiu*, Yafei Cheng, Yao Wu, Xijie Lin.Efficientextraction of aluminumfrom leaching solutions of waste alnico alloys byCA12-N235 system.Separationand Purification Technology (TOP期刊),2022, 281,119938.