李新洋
近期热点
资料介绍
个人简历
教学工作承担北京交通大学威海校区本科课程(全英文授课):《环境工程专业导论》、《水质工程学与实验II》教育背景2009/09 – 2014/01,清华大学,环境学院,博士 2012/07 日本东京大学,东北大学,韩国KAIST大学, 浦项工业大学 短期访问 2013/01-2013/05, 美国亚利桑那大学,化工与环境系,短期访问 2014/01 - 2016/08, 中国科学院大学,资环学院, 博士后 2016/11-2017/06 兰卡斯特大学(英国),环境中心、访问学者 工作经历2019/12- 至今 北京交通大学 土木工程学院,市环系,副教授 2016/08- 2019/12 北京交通大学 土木工程学院,市环系,讲师 2014/01 - 2016/08 中国科学院大学,资环学院, 博士后研究领域
环境工程环境工程(专业学位)"专利[1] 汪诚文,李新洋,朱维,一种负载催化剂活性炭的三维粒子电极及其制备方法,中国,国家发明专利,专利号ZL201310665223.5。 [2] 汪诚文,李新洋,朱维,一种采用三维电极法的废水处理系统,中国,国家发明专利,专利号ZL201310664896.9。[3] 李新洋,郑建中,刘桂成,一种具有微纳结构的电催化多孔钛滤膜及其制备方法,中国,国家发明专利,申请号201600711572.[4] 李新洋,郑建中,刘桂成,一种兼具臭氧异相催化-电催化功能的多孔钛臭氧曝气器,中国,国家发明专利,申请号201600711587.[5] 李新洋,郑建中,李佼,一种采用水热法资源化处理压裂返排液的方法,中国,国家发明专利,申请号201600711568.[6] 李新洋,姚宏,孙绍斌,张旭,一种阴阳极协同氧化的电化学-臭氧氧化工艺方法,中国,国家发明专利,已授权 [7] 姚宏、李新洋, 填充式管状电化学-多相-过臭氧催化装置和污水处理的方法,中国,国家发明专利 [8] 姚宏、李新洋,管状多孔钛膜-臭氧接触反应装置及其水处理方法,中国,国家发明专利,实审中 [9] 姚宏、李新洋,电-过滤与电-多相臭氧催化同步的水处理装置和方法,中国,国家发明专利、实审中 [10] 姚宏、李新洋,一种基于电催化产过氧化氢的多孔金属曝气电极及其制备方法,中国,国家发明专利、实审中科研项目主持: [7] 电-多相臭氧催化体系中活性物质的生成机制 课题来源:广东省环境污染与健康重点实验室 [6] 铁路机务段、车辆段含油污水陶瓷膜过滤技术研究 课题来源:横向课题 [5] 北京市高铁集便器废水中典型抗生素去除与毒性效应研究 课题来源:北京市优秀人才青年骨干计划资助(2019) [4] 低压脉冲供电对复极性三维电极系统的影响及机理研究 课题来源:中国博士后基金面上资助(No. 2014M550811)(2014-2016) [3] 脉冲电流对三维电极系统运行能耗的影响及机理研究 课题来源:环境模拟与污染控制国家重点联合实验室(中国科学院生态环境研究中心)开放基金课题(No. 14K04ESPCR)(2014-2016) [2] 基于管状多孔钛的新型电催化滤膜的制备及其降解有机污染物的增效机理 课题来源:环境模拟与污染控制国家重点联合实验室(清华大学)开放基金课题(No.15K04ESPCT)(2015-2017) [1] 电催化/臭氧异相催化工艺(E-catazone) 氧化机理研究 课题来源:北京交通大学人才基金(No.2016RC041)"近期论文
论文/期刊[28] 马富军;李新洋*;宗博洋;于晓华;孙绍斌;姚宏**;电-多相臭氧催化技术处理金刚烷胺制药废水[J];中国环境科学;2018年10期[27] Xie E, Zheng L, Xinyang Li, Wang Y, Dou J, Ding A, et al. (2019) One-step synthesis of magnetic-TiO2-nanocomposites with high iron oxide-composing ratio for photocatalysis of rhodamine 6G. PLoS ONE 14(8): e0221221. [28] Ting Wei , Hong Yao, Peizhe Sun, Weiwei Cai, Xinyang Li, Liru Fan ,Qingchao Wei, Cai Lai, Jianhua Guo,Mitigation of antibiotic resistance in a pilot-scale system treating wastewater from high-speed railway trains,Chemosphere 245 (2020) 125484 [27] Xinyang Li, G. Liu, F. Ma, S. Sun, S. Zhou, R.E.A. Ardhi, J.K. Lee, H. Yao, Enhanced power generation in a single-chamber dynamic membrane microbial fuel cell using a nonstructural air-breathing activated carbon fiber felt cathode, Energ Convers Manage 172 (2018) 98-104. (SCI IF:5.6) (电化学相关研究) [26] Xinyang Li, G. Liu, S. Sun, F. Ma, S. Zhou, J.K. Lee, H. Yao, Power generation in dual chamber microbial fuel cells using dynamic membranes as separators, Energ Convers Manage 165 (2018) 488-494. (SCI IF: 5.6) (电化学相关研究) [25] Xinyang Li, Shaobin Sun, Xu Zhang, Hong Yao*, et al. Combined electro-catazone/electro-peroxone process for rapid and effective Rhodamine B degradation. Sep Purif Technol 2017, 178, 189-192. (SCI IF: 3.3) (电-多相-过臭氧工艺开发) [24] Xinyang Li, Guicheng Liu, Shi M, Jianzhong Zheng*, et al. A novel electro-catalytic ozonation process for treating Rhodamine B using mesoflower-structured TiO2-coated porous titanium gas diffuser anode. Sep Purif Technol 2016, 165, 154-159. (SCI IF: 3.3) (电-多相臭氧催化工艺开发) [23] Xinyang Li, Guicheng Liu, Mei Shi, Jianzhong Zheng*, et al, Using TiO2 Mesoflower Interlayer in Tubular Porous Titanium Membranes for Enhanced Electrocatalytic Filtration, Electrochim Acta 218 2016, 318-324. (SCI IF: 4.8) (电催化纳米材料制备及研究) [22] Xingyang Li, Yue Wu, Y. Qian, Chengwen. Wang*, Enhanced electrochemical oxidation of synthetic dyeing wastewater using SnO2-Sb-doped TiO2-coated granular activated carbon electrodes with high hydroxyl radical yields, Electrochim Acta 220, 2016, 276-284. (SCI IF: 4.8) (电催化纳米材料制备及研究) [21] Xinyang Li, Wei Zhu, Chengwen Wang*, et al. Recovery of potassium from landfill leachate concentrates using a combination of cation-exchange membrane electrolysis and magnesium potassium phosphate crystallization. Sep Purif Technol 2015, 144, 1-7. (SCI IF: 3.3) (电催化水处理相关研究) [20]Xinyang Li*, Lizheng Guo, Guicheng Liu, et al. N-doped activated carbons derived from biological sludge generated in petrochemical industries for supercapacitor applications, N-doped activated carbons derived from biological sludge generated in petrochemical industries for supercapacitor applications, J Nanosci and Nanotechno, 2017, accepted. (SCI IF: 1.3) (电化学相关研究) [19]Xinyang Li, Wei. Zhu, Chengwen Wang, Liwei Zhang, Yi Qian, Fanqing Xue, Yue Wu, The Electrochemical oxidation of biologically treated citric acid wastewater in a continuous-flow three-dimensional electrode reactor (CTDER), Chem Eng J, 2013, (232), 495-502, (SCI IF=5.3) (电催化水处理相关研究) [18] Xinyang Li, Chengwen Wang, Yi. Qian, Yujue Wang, Liwei Zhang, Simultaneous removal of chemical oxygen demand, turbidity and hardness from biologically treated citric acid wastewater by electrochemical oxidation for reuse, Sep Purif Technol, 2013, (107), 281-288. (SCI IF=3.3) (电催化水处理相关研究) [17] Xinyang Li, Liwei Zhang, Chengwen Wang, Review of disposal of concentrate streams from nanofiltration (NF) or reverse osmosis (RO) membrane process, Advanced Materials Research, 2012 (518), 3470-3475, EI. (水处理相关研究) [16] Xinyang Li, Chengwen Wang*. Phosphate removal from water by zero-valent iron/activated carbon fiber felt galvanic couples, Proceeding of Second International Conference of Mechanic Automation and Control Engineering, 2011, 2367-2370 (EI) [15]Guicheng Liu#, Xinyang Li#, Joong Kee Lee*, et al. A study on anode diffusion layer for performance enhancement of a direct methanol fuel cell, Energy Conversion and Management, 2016, 126, 697-703. (SCI IF: 4.8)(共同一作) (电化学相关研究) [14] Juan Li, Liang Zhang, Clark Renjun Zheng, Mei Yang, Xinyang Li*, Jianzhong Zheng**, Removal of Cr(VI) by Sewage Sludge Based Activated Carbons Impregnated with Nanoscale Zero-Valent Iron, J Nanosci and Nanotechno, 2017, accepted. (SCI IF: 1.3) (共同通讯作者) (水处理相关研究) [13]Mei Shi, Caiyang Guo, Xinyang Li*, Jianzhong Zheng** et al, Removal of Bromide from water by adsorption on δ-Bi2O3, J Nanosci and Nanotechno, 2017, accepted. (SCI IF: 1.3) (共同通讯作者) (水处理相关研究) [12]Yujue. Wang*, Xinyang Li, Limin Zhen, Heqing Zhang, Chengwen Wang, Electro-Fenton treatment of concentrates generated in nanofiltration of biologically pretreated landfill leachate, Journal of Hazardous Materials 2012, (229), 115-121 (SCI IF: 4.8) (电催化水处理相关研究) [11] Qian Deng, Xinyang Li, Jiane Zuo*,Alison Lin, Bruce E Logan, Power generation using an activated carbon fiber felt cathode in an upflow microbial fuel cell, Journal of Power Sources, 2009 (195), 1130-1135 (SCI IF: 6.3) (微生物燃料电池) [10] Guicheng Liu, Zhaoyi Yang, Martin Halim, Xinyang Li, Manxiang Wang, Ji Young Kim, Qiwen Mei, Xindong Wang, Joong Kee Lee, A gradient activation method for direct methanol fuel cells, Energy Conversion and Management, 2016 (138), 54~60 (SCI IF: 4.8) (电化学相关研究) [9] Guicheng Liu, Hongwei Zhou, Xianan Ding, Xinping Li, Dechun Zou, Xinyang Li, Xindong Wang, Joong Kee Lee, Effect of fabrication and operating parameters on electrochemical property of anode and cathode for direct methanol fuel cells, Energy Conversion and Management,2016(122), 366~371 (SCI IF: 4.8) (电化学相关研究) [8] Clark Renjun Zheng, Shuai Li, Chengsong Ye, Xinyang Li, Chiqian Zhang*, Xin Yu*, Particulate Respirators Functionalized with Silver Nanoparticles Showed Excellent Real-Time Antimicrobial Effects against Pathogens, Environmental Science & Technology, 2016,50(13), 7144~7151. (SCI IF: 5.4) (纳米材料相关研究) [7]G.C. Liu, Xinyang Li, H. Wang, X.Y. Liu, M. Chen, J.Y. Woo, J.Y. Kim, X.D. Wang, J.K. Lee, Design of 3-electrode system for in situ monitoring direct methanol fuel cells during long-time running test at high temperature, Appl Energ 197 (2017) 163-168. [6]J.Y. Ma, H. Yao, H.Q. Yu, L.S. Zuo, H.Y. Li, J.G. Ma, Y.R. Xu, J. Pei, Xinyang Li, Hydrazine addition enhances the nitrogen removal capacity in an anaerobic ammonium oxidation system through accelerating ammonium and nitrite degradation and reducing nitrate production, Chemical Engineering Journal 335 (2018) 401-408 [5] 李兆欣,甄丽敏,李新洋,潘学军,王玉珏,BDD电极阳极氧化垃圾渗滤液纳滤浓缩液,环境工程学报,2014,(11),4662-4668,中文核心期刊. [4] 朱维(#),李新洋,汪诚文,陆茵,Fenton-曝气生物滤池深度处理柠檬酸废水中试,环境工程,2014.12.22,(12):14~17+22, 中文核心期刊. [3] 朱维(#),李新洋,汪诚文,陆茵,Fenton法深度处理高硬度柠檬酸废水的研究,环境工程,2014.8.30,(S1):103~106, 中文核心期刊. [2] 金鑫(#),肖伟,赵立冬,李新洋,李宁,武汉市政污泥处理现状及建议,工业安全与环保,2011.3.10,(03):46~47, 中文核心期刊. [1] 朱维(#),李新洋,汪诚文,王迪,徐蘇士,污泥水热脱水滤液与模拟生活污水在SBR系统中的协同降解研究,给水排水,2014.7.31,(S1):196~201, 中文核心期刊. 专著/译著轨道交通环境污染控制与管理 (负责第八章撰写) 中国建筑工业出版社 /978-7-112-22744-0J Hazard Mater, Sep purif technol, Chem Eng J,J Envir Manage 等SCI 杂志审稿人, Chinese Chemical Letters,SCI杂志青年编委。中国颗粒学会微纳气泡专业委员会委员,中国化学会会员,中国环境科学学会会员。 相关热点