更新日期：2026.03.19

翟启林，工学博士，昆明理工大学讲师、硕士生导师，博士毕业于中南大学矿业工程专业（双一流学科建设专业），2025年9月以高层次人才（四层次、特聘教授）引进到昆明理工大学国土资源工程学院工作。2024年入选中国科协首届“青年人才托举工程（博士生专项计划）”，获得湖南省及中南大学优秀毕业生等荣誉。主要研究方向为硫化矿清洁高效浮选、冶金固废资源化利用及硬岩型锂矿清洁高效提取；近五年在Chemical Engineering Journal、Journal of Hazardous Materials、Journal of Cleaner Production和烧结球团等矿冶、环境期刊发表中英论文32篇，其中，以第一/通讯作者身份发表JCR 1区SCI论文13篇，累计影响因子>100，Scopus引用500余次；申请发明专利9项，授权6项；担任《有色金属(选矿部分)》、《中国有色金属冶金》期刊的助理编辑。

[1] 2025-09 至 今，昆明理工大学，国土资源工程学院，讲师（四层次人才/特聘教授）

[2] 2021-09 至 2025-06，中南大学，矿业工程，博士

[3] 2018-09 至 2021-06，中南大学，矿业工程，硕士

[4] 2014-09 至 2018-06，西南科技大学，矿物加工工程，学士

[1] Zhai Qilin, Liu Runqing, Song Yunfeng*, et al. Lowering the extraction temperature of lithium from α-spodumene through zinnwaldite-induced crystal transformation: An in-situ fluorine activation mechanism [J]. Chemical Engineering Journal, 2025, 526: 171339.

[2] Zhai Qilin Liu Runqing*, Wang Changtao, et al. A novel scheme for the utilization of Cu slag flotation tailings in preparing internal electrolysis materials to degrade printing and dyeing wastewater [J]. Journal of Hazardous Materials, 2022, 424: 127537.

[3] Zhai Qilin, Liu Runqing*, Wang Changtao, et al. Simultaneous recovery of arsenic and copper from copper smelting slag by flotation: Redistribution behavior and toxicity investigation [J]. Journal of Cleaner Production, 2023, 425: 138811.

[4] Zhai Qilin, Liu Runqing*, Song Yunfeng*, et al. A novel technology for lithium extraction through low-temperature synergistic roasting of α-spodumene with lepidolite [J]. Separation and Purification Technology, 2025, 355: 129667.

[5] Zhai Qilin, Liu Runqing, Dong Wenchao*, et al. Separation of galena and pyrite via green organic macromolecules at low alkalinity: Flotation response and surface adsorption mechanisms [J]. Separation and Purification Technology, 2025, 354: 129240.

[6] Zhai Qilin, Dong Wenchao, Liu Runqing*, et al. Green separation of galena from molybdenite by flotation using DL-dithiothreitol as a depressant [J]. Separation and Purification Technology, 2024, 347: 127676.

[7] Zhai Qilin, Song Yunfeng*, Liu Runqing*, et al. An innovative scheme for the separation of potassium from lithium-bearing solution: A jarosite precipitation method [J]. Separation and Purification Technology, 2023, 322: 124283.

[8] Zhai Qilin, Liu Runqing*, Wang Changtao, et al. Flotation separation of molybdenite from sphalerite using dl-cysteine as a depressant and insight into its selective adsorption mechanism [J]. Applied Surface Science, 2023, 613: 156144.

[9] Zhai Qilin, Lu Hongyu*, Liu Runqing*, et al. Removal of suspended solids from weathered tungsten-ore beneficiation wastewater by electroneutralization and chemical precipitation [J]. Minerals Engineering, 2021, 173: 107167.

[10] Zhai Qilin, Liu Runqing*, Wang Changtao, et al. Mineralogical characteristics of copper smelting slag affecting the synchronous flotation enrichment of copper and arsenic [J]. Journal of Environmental Chemical Engineering, 2022: 108871.

[11] Zhai Qilin, Liu Runqing*, Wang Changtao, et al. A potential industrial waste–waste synchronous treatment scheme of utilizing copper slag flotation tailings to remediate Cr(VI)-containing wastewater [J]. Journal of Environmental Chemical Engineering, 2022, 10(3): 107685.

[12] Zhai Qilin, Hu Yuwei, Liu Runqing*, et al. Investigation of pullulan polysaccharide as a sphalerite depressant for chalcopyrite separation: Flotation behavior and interfacial adsorption mechanism [J]. Advanced Powder Technology, 2024, 35(10): 104621.

[13] Liu Runqing, Man Wenye, Zhai Qilin*, et al. Calcium ions and dextrin assembly adsorbed onto pyrite surfaces to enhance hydrophilicity: Synergistic coordination mechanism [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2025: 137236.

[14] Zhai Qilin, Liu Runqing*, Li Jia, et al. Changing the Pulp Properties and Surface Hydrophilicity of Galena and Pyrite by Selecting the Appropriate Grinding Media Towards Their Selective Separation [J]. Minerals, 2023, 13(9): 1213.

[15] Wang Changtao, Zhai Qilin, Liu Runqing*, et al. Using pectin to separate talc and molybdenite through the surface modification with Cu²⁺: Applications and mechanism [J]. International Journal of Mining Science and Technology, 2023, 33(3): 363-77.

[16] Wang Changtao, Zhai Qilin, Liu Runqing*, et al. Surface modification with hydroxyl calcium ions strengthen CMC selectively depress arsenopyrite: Bridging adsorption mechanism and application in Cu-As separation [J]. Applied Surface Science, 2023, 618: 156642.

[17] Liu Runqing*, Zhai Qilin, Wang Changtao, et al. Optimizing the Crystalline State of Cu Slag by Na₂CO₃ to Improve Cu Recovery by Flotation [J]. Minerals, 2020, 10(9).

[18] Liu Runqing*, Zhai Qilin, LI X. Recovery of Valuable Metals from Nickel Slag: A Descriptive Study [J]. Research Developments in Science and Technology Vol 4, 2022: 76-96.

[19] 翟启林,曹正强,刘润清*,等. 锂辉石选矿与冶炼技术研究现状[J].有色金属(选矿部分),2025,(06):23-41.

[20] 李恩光,翟启林*,李雄. 镍冶炼渣矿物学特征对浮选回收镍、铜的影响[J].烧结球团,2024,49(02):83-89+98.

[21] 翟启林,刘润清,王琛,等. 保温缓冷对铜渣结晶性能及铜浮选的影响[J].矿产保护与利用, 2019,39  (03): 75-80.

[22] 刘润清,翟启林,文晓飞,等. 低碱条件下糊精与钙离子协同作用对闪锌矿与黄铁矿浮选分离的影响[J].中南大学学报(自然科学版),2024,55(07):2447-2455.

[1] 宋云峰, 翟启林, 杨佳霖, 刘润清, 孙伟, 胡岳华. 一种利用铝电解槽大修渣协同提锂的方法[P]. 湖南省: CN116770097B, 2025-08-08.

[2] 宋云峰, 翟启林, 毛之苑, 王一帆, 刘润清, 孙伟, 胡岳华. 一种基于晶种诱导的锂钠钾溶液选择性去除钠钾的方法[P]. 湖南省: CN116354371B, 2025-07-11.

[3] 刘润清, 孙伟, 翟启林, 李雄, 李杰, 荆念文. 一种镍冶炼渣高效回收铜镍金属的方法[P]. 湖南省: CN113477404B, 2022-11-25.

[4] 宋云峰, 孙伟, 翟启林, 杨越. 一种复杂锂矿石或含锂废料预处理低温转型焙烧提锂方法[P]. 湖南省: CN119710291B, 2025-07-11.

[5] 宋云峰, 姚懿, 翟启林, 毛之苑, 刘苏彪, 孙伟. 一种从高钾高磷的复杂锂辉石矿中提锂的方法[P]. 湖南省: CN119640051B, 2025-12-12.

[6] 宋云峰, 刘润清, 翟启林, 毛之苑, 姚懿, 杨佳霖, 孙伟. 一种锂辉石锂云母硫酸低温煅烧高效提锂的方法[P]. 湖南省: CN118639032B, 2024-12-03.

[1] 中南大学自主创新探索项目，镍冶炼渣矿相重构联合浮选法回收有价金属及其二次废渣的综合利用，主持。

[2] 国家重点研发计划课题，战略性矿产资源绿色高效开发与高质利用技术短板及风险评估，参与。

[3] 国家重点研发计划课题，铜熔炼渣晶相调控浮选富集与安全处置技术，参与。

[4] 企业委托项目，沉降电炉渣中有价金属综合回收工艺技术研究，参与。

[5] 企业委托项目，LF炉在镍冶炼渣硫化浮选工艺的应用研究，参与。

[6] 企业委托项目，铜闪速熔炼过程含砷物料的行为及其安全性研究，参与。

[7] 企业委托项目，提高朱日和铜业铜回收率及硫精矿提质降杂技术研究，参与。

[8] 企业委托项目，凡口铅锌矿低碱度选矿连选试验研究，参与。

[9] 企业委托项目，凡口铅锌矿选矿新工艺试验研究，参与。

[10] 企业委托项目，提高红透山矿锌回收率（暨铜精矿降锌）的攻关研究，参与。

[1] 中国科协 青年人才托举工程（博士生专项计划），2024年

[2] 湖南省优秀毕业生，2025年

[3] 中南大学优秀毕业生，2025年

[4] 博士研究生国家奖学金，2024年

[5] 中南大学研究生校长拔尖奖学金，2024年

[6] 中南大学研究生校长创新奖学金，2022年，2023年

[7] 中国有色金属学会优秀硕士论文，2023年

[8] 中南大学优秀硕士论文，2023年

[9] 中南大学优秀学生/优秀学生干部，2023年，2024年，2025年