韩京龙
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韩京龙,特聘副研究员,2013年硕士毕业于哈尔滨工业大学市政工程专业,2018年博士毕业于中国科学院大学(培养单位:中国科学院生态环境研究中心)并留任中国科学院生态环境研究中心助理研究员,2020年起任《中国给水排水》青年编委。2020年加入哈尔滨工业大学(深圳)。在难降解工业及园区污水深度净化及资源化、市政污水极限脱氮除磷等方面具有较多的研究及积累,立足于实际需求共同研发出污水深度净化的定向分离膜过滤技术、高效异相催化氧化技术、光催化高级氧化与还原技术、市政污水仿自然深度净化技术(INSR)、强化生化/高效物化耦合处理技术等。相关成果应用于泰州某化工企业高含酚污水处理工程(1000吨/天)、大庆某低温低碳氮比市政污水处理工程(3万吨/天)、岳阳某工业园区高氯难降解污水处理工程(2万吨/天)、潍坊某水厂嗅味去除改造工程(2.5万吨/天),辽阳某化工企业难降解废水处理工程(500吨/天),遵义某城镇污水调试工程(2万吨/天),淮安某开发区污水处理厂提标改造工程(4万吨/天)等近10项污水处理及深度净化工程中,取得了良好经济、社会及环境效益。此外,尚有另外两项技术应用项目正在进行中。同时,作为专家为泰州某农化企业污水处理工程(300吨/天),菏泽某工业园区污水处理工程(2万吨/天),山东寿光某制药企业污水处理工程(1500吨/天)等多项工程项目提供技术支持与咨询服务,有利保障了工程项目的正常实施及高质量运行。主持或作为骨干参加国家级科研课题、横向课题10余项,在国内外著名期刊发表学术论文近30篇,其中SCI收录论文近30篇,以第一作者或通讯作者在ES&T,Water Research,Journal of membrane Science,Chemical Engineering Journal等本领域国际著名期刊发表学术论文十余篇,申请专利近20项,授权近10项,其中发明专利5项。曾获生态环境部“环境保护科学技术奖一等奖”(2017)等。协助指导研究生多名,其中两人获得CSC奖学金资助赴美国UC伯克利、英国伦敦大学学院联合培养。截止目前,协助指导研究生毕业前均在ES&T,Chemical Engineering Journal 等国际著名期刊发表学术论文,并在工程思维与技术研发能力等方面得到较大的提升。欢迎具有强烈好奇心及科研兴趣,立志于水质工程学研究及工程应用,具有责任感的同学报考硕士研究生,专业背景不限。教育经历2013-2018 中国科学院大学(培养单位:中国科学院生态环境研究中心) 环境工程 博士2011-2013 哈尔滨工业大学 市政环境工程学院 市政工程 硕士2007-2011 青岛理工大学 市政与环境工程学院 给排水科学与工程 本科工作经历2018-2020 中国科学院生态环境研究中心 助理研究员2020-至今 哈尔滨工业大学(深圳) 助理教授,特聘副研究员科研项目面向高耗能、重污染行业的绿色高效清洁生产关键技术集成与应用氧化石墨烯膜表面官能团原位调谐与膜污染控制机制研究江苏某农化有限公司污水处理站高浓度污水处理工艺改造研究氧化石墨烯滤定向分离膜组件开发与验证泰州某化工污水处理站高浓度污水处理工艺改造研究湖南某工业园区污水处理厂优化升级研究山东某制药企业污水处理厂扩容改造项目电极微纳界面调控及强化微污染废水疏水性难降解有机物深度去除协同增效机制淮河下游重污染河流水质改善技术集成与综合示范技术应用工程(1)2012-2013黑龙江大庆某低温低碳氮比污水处理中试及调试工程, 3万吨/天,技术负责人(2)2014-2018江苏某经济开发区污水处理厂升级改造工程,4万吨/天,生物强化CASS段,复合水解酸化段共同技术负责人,现场施工负责人(3)2018-2018 江苏泰州某化工企业高含酚废水处理工程,1000吨/天,技术负责人(4)2018-2019 辽宁辽阳某化工有限公司污水处理工程,500吨/天,共同技术负责人,设计负责人(5)2019-2020 湖南岳阳某工业园区污水处理工艺优化项目,2万吨/天,分段技术负责人(6)2020-2020 贵州遵义某污水处理厂工艺优化及调试工程,2万吨/天,生化段技术负责人(7)2018年-至今 泰州某农化污水处理厂技术支持及升级改造工程,300吨/天,技术负责人(8)2018年至今 浙江某净水器企业污水处理厂新建工程,300吨/天,共同技术负责人(9)2020-至今 潍坊某制药企业污水处理厂工艺改造及深度净化工程,1500吨/天,技术负责人研究领域
水的深度净化,主要研究内容为新型膜过滤技术、膜催化及膜污染控制技术,高效异相催化氧化技术,光催化高级氧化与还原技术,物化/生化耦合强化处理技术等。""近期论文
1. Han, J.-L.; Haider, M. R.; Liu, M.-J.; Wang, H.-c.; Jiang, W.-L.; Ding, Y.-C.; Hou, Y.-N.; Cheng, H.-Y.; Xia, X.; Wang, A.-J., Borate Inorganic Crosslinked Durable Graphene Oxide Membrane Preparation and Membrane Fouling Control. Environmental science & technology 2018, 53, (3), 1501-1508.2. Liu, H.; Han, J.; Yuan, J.; Liu, C.; Wang, D.; Liu, T.; Liu, M.; Luo, J.; Wang, A.; Crittenden, J. C., Deep Dehalogenation of Florfenicol Using Crystalline CoP Nanosheet Arrays on a Ti Plate via Direct Cathodic Reduction and Atomic H. Environmental science & technology 2019, 53, (20), 11932-11940.3. Jiang, W.-L.; Xia, X.; Han, J.-L.; Ding, Y.-C.; Muhammad, R. H.; Wang, A., Graphene modified electro-Fenton catalytic membrane for in-situ degradation of antibiotic florfenicol. Environmental science & technology 2018.4. Han, J.-L.; Zhang, D.; Jiang, W.; Tao, Y.; Liu, M.-J.; Haider, M. R.; Ren, R.-Y.; Wang, H.-c.; Jiang, W.-L.; Ding, Y.-C., Tuning the Functional Groups of a Graphene Oxide Membrane by· OH Contributes to the Nearly Complete Prevention of Membrane Fouling. Journal of Membrane Science 2019, 579, 190-197.5. Han, J. L.; Xia, X.; Tao, Y.; Yun, H.; Hou, Y. N.; Zhao, C. W.; Luo, Q.; Cheng, H. Y.; Wang, A. J., Shielding membrane surface carboxyl groups by covalent-binding graphene oxide to improve anti-fouling property and the simultaneous promotion of flux. Water research 2016, 102, 619-628.6. Han, J.-L.; Xia, X.; Haider, M. R.; Jiang, W.-L.; Tao, Y.; Liu, M.-J.; Wang, H.-c.; Ding, Y.-C.; Hou, Y.-N.; Cheng, H.-Y., Functional graphene oxide membrane preparation for organics/inorganic salts mixture separation aiming at advanced treatment of refractory wastewater. Science of The Total Environment 2018, 628, 261-270.7. Liu, T.; Ding, Y.; Liu, C.; Han, J.*; Wang, A., UV activation of the pi bond in pyridine for efficient pyridine degradation and mineralization by UV/H2O2 treatment. Chemosphere 2020, 127208.8. Jiang, W.-L.; Ding, Y.-C.; Haider, M. R.; Han, J.-L. *; Liang, B.; Xia, X.; Yang, L.-M.; Wang, H.-c.; Peng, Y.-Z.; Wang, A.-J., A novel TiO2/graphite felt photoanode assisted electro-Fenton catalytic membrane process for sequential degradation of antibiotic florfenicol and elimination of its antibacterial activity. Chem. Eng. J. 2019, 123503.9 Ding, Y.; Jiang, W.; Liang, B.; Han, J. *; Cheng, H.; Haider, M. R.; Wang, H.; Liu, W.; Liu, S.; Wang, A., UV photolysis as an efficient pretreatment method for antibiotics decomposition and their antibacterial activity elimination. Journal of hazardous materials 2020, 392, 122321.10. Ren, R.-Y.; Yang, L.-H.; Han, J.-L. *; Cheng, H.-Y.; Ajibade, F. O.; Guadie, A.; Wang, H.-C.; Liu, B.; Wang, A.-J., Perylene pigment wastewater treatment by fenton-enhanced biological process. Environmental Research 2020, 109522.11. Wang, H.-C.; Cui, D.; Han, J.-L.; Cheng, H.-Y.; Liu, W.-Z.; Peng, Y.-Z.; Chen, Z.-B.; Wang, A.-J., A2O-MBR as an efficient and profitable unconventional water treatment and reuse technology: A practical study in a green building residential community. Resources, Conservation and Recycling 2019, 150, 104418.12. Liu, M.; Zhang, D.; Han, J.; Liu, C.; Ding, Y.; Wang, Z.; Wang, A., Adsorption enhanced photocatalytic degradation sulfadiazine antibiotic using porous carbon nitride nanosheets with carbon vacancies. Chem. Eng. J. 2020, 382, 123017.13. 张勇; 韩京龙; 冉治霖, CAST工艺处理低温低碳氮比市政污水中试研究. 环境工程 2017, (9).14. Wang, H.-C.; Cheng, H.-Y.; Cui, D.; Zhang, B.; Wang, S.-S.; Han, J.-L.; Su, S.-G.; Chen, R.; Wang, A.-J., Corrugated stainless-steel mesh as a simple engineerable electrode module in bio-electrochemical system: Hydrodynamics and the effects on decolorization performance. Journal of hazardous materials 2017, 338, 287-295.15. Wang, H.-C.; Cheng, H.-Y.; Wang, S.-S.; Cui, D.; Han, J.-L.; Hu, Y.-P.; Su, S.-G.; Wang, A.-J., Efficient treatment of azo dye containing wastewater in a hybrid acidogenic bioreactor stimulated by biocatalyzed electrolysis. Journal of Environmental Sciences 2016, 39, 198-207.16. Hou, Y.-N.; Liu, H.; Han, J.-L.; Cai, W.; Zhou, J.; Wang, A.-J.; Cheng, H.-Y., Electro-active biofilm serving as the green synthesizer and stabilizer for in-situ fabricating 3D nano-palladium network: an efficient electrocatalyst. ACS Sustainable Chemistry & Engineering 2016.17. Cai, W.; Liu, W.; Han, J.; Wang, A., Enhanced hydrogen production in microbial electrolysis cell with 3D self-assembly nickel foam-graphene cathode. Biosensors & Bioelectronics 2016, 80, 118-122.18. Haider, M. R.; Jiang, W.-L.; Han, J.-L.; Sharif, H. M. A.; Ding, Y.-C.; Cheng, H.-Y.; Wang, A.-J., In-situ electrode fabrication from polyaniline derived N-doped carbon nanofibers for metal-free electro-Fenton degradation of organic contaminants. Applied Catalysis B: Environmental 2019, 117774.19. Hou, Y.-N.; Zhang, B.; Yun, H.; Yang, Z.-N.; Han, J.-L.; Zhou, J.; Wang, A.-J.; Cheng, H.-Y., Palladized cells as suspension catalyst and electrochemical catalyst for reductively degrading aromatics contaminants: Roles of Pd size and distribution. Water research 2017, 125, 288-297.20. Zhao, C.; Yang, B.; Han, J.; Meng, Y.; Yu, L.; Hou, D.; Wang, J.; Zhao, Y.; Zhai, Y.; Wang, S., Preparation of carboxylic multiwalled-carbon-nanotube–modified poly (m-phenylene isophthalamide) hollow fiber nanofiltration membranes with improved performance and application for dye removal. Applied Surface Science 2018, 453, 502-512.21. Hou, Y.-N.; Sun, S.-Y.; Yang, Z.-N.; Yun, H.; Zhu, T.-t.; Ma, J.-F.; Han, J.-L.; Wang, A.-J.; Cheng, H.-Y., Shewanella oneidensis MR-1 self-assembled Pd-cells-rGO conductive composite for enhancing electrocatalysis. Environmental Research 2020, 109317.22. Ai-Jie Wang; Hong-Cheng Wang; Hao-Yi Cheng; Bin Liang; Wen-Zong Liu; Jing-Long Han; Bo Zhang; Shu-Sen Wang, Electrochemistry-Stimulated Environmental Bioremediation: Development of Applicable Modular Electrode and System Scale-up. Environmental Science and Ecotechnology 2020, 100050.23. Jiang, W.-L.; Haider, M. R.; Han, J.-L.*; Ding, Y.-C.; Li, X.-Q.; Wang, H.-C.; Sharif, H. M. A.; Wang, A.-J.; Ren, N.-Q., Carbon nanotubes intercalated RGO electro-Fenton membrane for coenhanced permeability, rejection and catalytic oxidation of organic micropollutants. Journal of Membrane Science 2021, 119069.标签: 哈尔滨工业大学(深圳) 土木与环境工程学院
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