双聘导师
- 2004年8月~现在 威廉希尔WilliamHill官方网站环境学院、教授
- 2000年2月~2004年8月 威廉希尔WilliamHill官方网站材料学院、副教授
- 1998年6月~2000年2月 威廉希尔WilliamHill官方网站材料学院博士后、副教授
- 1996年7月~1998年6月 西北工业大学材料学院博士后、副教授
- 1993年3月~1996年4月 哈尔滨工业大学、博士学位
- 环境保护部电子电器废物回收信息化与处置工程技术研究中心学术委员会常务副主任
- 上海市电子电器废物回收信息与处置标准化工程技术研究中心学术委员会主任
- 教育部固体废弃物处理与资源化重点实验室学术委员会委员
- 固体废弃物处理处置与资源化;
- 环境材料与资源再生利用
授权发明专利:
1. 废旧印刷电路板的破碎及高压静电分离方法, 中国、ZL 200510023785.5
2. 废旧印刷电路板的基板材料颗粒再生板材的制造方法, 中国、ZL200510023786.X
3. 用于废旧电路板回收的多辊式高压静电分选方法, 中国、ZL200810203036.4
4. 利用废弃电路板非金属粉制备改性沥青的方法,中国、ZL200810042789.1
5. 利用废弃印刷电路板制备木塑复合材料的方法,中国、ZL200910054313.4
6. 利用破碎-分选废弃电路板制备市政窨井盖的方法,中国、ZL2011040200159970
7. 废旧硒鼓的回收方法及其回收装置,中国、ZL201110219195.5
8.废旧冰箱箱体资源化处理方法及其处理装置, 中国、ZL201110219199.3
9. 废旧液晶显示器面板的处理与资源化回收方法,中国、ZL20120163831.1
10. 废旧液晶面板中液晶与偏光膜的一体式真空热解回收装置,中国、ZL2014101297265
11. 电子废弃物破碎分选后的混合金属富集体的分离回收方法,中国、ZL 2014101301595
12. 电子废弃物混合金属的真空连续分离回收装置,中国、ZL2013106950821
13. 原铝连续换液定向凝固连铸提纯方法,中国、ZL01132329.9
14. 去除铝硅合金中铁元素的电磁过滤方法, 中国、ZL01132091.5
15.加热铸型气膜连续铸造方法,中国、ZL01113026.1
16.有色金属及其合金材料超细丝的制备方法,中国、ZL200410017008.5
17. 废旧空气断路器的回收装置,专利号: ZL2011021919.931
18. 带元器件电路板的拆解装置及其拆解方法,专利号: ZL201410212189.0
19. 利用废弃印刷电路板中非金属材料制备酚醛模塑料的方法, 中国、ZL200710038607.9
20. 废旧钴酸锂锂离子电池正负极残料资源化方法,中国、ZL2015100170331
21. 电子废弃物破碎与热预处理中挥发性有机物的采集装置,中国、ZL2014104555803
22. 电子废弃物资源化处理中挥发性有机污染物收集检测方法,中国、ZL2014104555682
23. 废旧印刷电路板颗粒的高压静电分离方法及装置, 中国、ZL 200510023788.9
24. 一种多种硬质废旧塑料的破碎与分选方法,中国、ZL 2013106923044
25. 废旧硬质塑料破碎颗粒的荷电衰减分选装置,中国、 ZL2013104189516
26. 废旧混合塑料中PVC的分离回收方法, 中国、ZL201510132079.8
27. 一种废旧钴酸锂锂离子电池资源化的处理方法, 中国、ZL201510017328.9
在电子废弃物资源化与污染控制方面发表SCI收录论文130余篇,其中《Environmental Science & Technology》30篇。被SCI他引用1598次,3篇ESI高引用论文。The International Conference on Waste Management and Technology 大会特邀报告5次,2篇入选Nature研究亮点。研究成果在Environ.Sci.Technol上的News、The New York Times(Science)、New Scientist等30多家期刊网站进行报道和高度评价。
承担国家863(3项)、自然科学基金重点项目(1项)、自然科学基金面上项目(6项)、国家机关政府招标项目、产业化等项目20余项。获授权发明专利27项,发明专利在中央和国家机关涉密载体销毁中心、上海、江苏、广东、浙江实现产业化生产,为国家政府机关和重点企业建立产业化生产线10余条,废弃电器电子产品处理与资源化技术及装备”获2015年教育部高等学校科学研究优秀成果技术发明类一等奖。
(1) One-Pot Synthesis of GeAs Ultrafine Particles from Coal Fly Ash by Vacuum Dynamic Flash Reduction and Inert Gas Condensation; Scientific Reports, 7, 文献号: 3641,2017; Lingen Zhang, Zhenming Xu*
(2) Recovery of Tantalum from Waste Tantalum Capacitors by Supercritical Water Treatment. ACS Sustainable Chemistry & Engineering, 5: 4421-4428, 2017; Bo Niu, Zhenyang Chen, Zhenming Xu*
(3) Separating and Recycling Plastic, Glass, and Gallium from Waste Solar Cell Modules by Nitrogen Pyrolysis and Vacuum Decomposition; Environmental Science & Technology, 50: 9242-9250, 2016; Lingen Zhang, Zhenming Xu*
(4) Recycling Acetic Acid from Polarizing Film of Waste Liquid Crystal Display Panels by Sub/Supercritical Water Treatments; Environmental Science & Technology, 49:5999−6008, 2015; Ruixue Wang, Ya Chen, Zhenming Xu*
(5) PBDEs Emission from Waste Printed Wiring Boards during Thermal Process; Environmental Science & Technology, 49: 2716-2723, 2015; Jie Guo, Ran Zhang, Zhenming Xu*
(6) Application of Supercritical Water to Decompose Brominated Epoxy Resin and Recover Metals from Waste Memory Module Environmental Friendly; Environmental Science & Technology, 49: 1761-1767,2015; Kuo Li, Zhenming Xu*
(7) Disposing and Recycling Waste Printed Circuit Boards: Disconnecting, Resource Recovery and Pollution Control; Environmental Science & Technology,49:721-733, 2015; Jianbo Wang, Zhenming Xu*
(8) Waste Management of Printed Wiring Boards: A Life Cycle Assessment of the Metals Recycling Chain from Liberation through Refining; Environmental Science & Technology, 49:940-947, 2015; Mianqiang Xue, Kendall Alissa, Zhenming Xu*, Schoenung Julie
(9) Innovative Platform and Incentive Mechanism Are the Keys for Electronic Waste Collection in Developing Countries; Environmental Science & Technology, 48:13034−13035, 2014; Mianqiang Xue, Zhenming Xu*
(10) PM10 and PM2.5 and Health Risk Assessment of Heavy Metals in Typical Factory for Cathode Ray Tube Television Recycling; Environmental Science & Technology, 47:12469-12476, 2013; Fang Wenxiong, Yang Yichen, Xu Zhenming*
(11) Improvements of the Recovery Line of Waste Toner Cartridges on Environmental and Safety Performances; Environmental Science & Technology, 47:6457−6462, 2013 ; Jujun Ruan, Jia Li, and Zhenming Xu *
(12) Computer Simulation of the Pneumatic Separator in the Pneumatic-Electrostatic Separation System for Recycling Waste Printed Circuit Boards with Electronic Components; Environmental Science & Technology, 47: 4598-4604, 2013; Mianqiang Xue, Zhenming Xu *
(13) Risks in the Physical Recovery System of Waste Refrigerator Cabinets and the Controlling Measure; Environmental Science & Technology; 46:13386-13392, 2012; Jujun Ruan, , Mianqiang Xue, Zhenming Xu*
(14) Electrostatic Separation for Recycling Conductors, Semiconductors, and Nonconductors from Electronic Waste; Environmental Science & Technology, 46:10556-10563, 2012; Mianqiang Xue, Guoqing Yan, Jia Li, Zhenming Xu*
(15) Approaches to improve separation efficiency of eddy current separation for recovering aluminum from waste toner cartridges; Environmental Science & Technology, 46:6214-6221, 2012; Jujun Ruan, Zhenming Xu*
(16) Response to Waste Electrical and Electronic Equipments in China: Legislation, recycling system, and advanced integrated process; Environmental Science & Technology, 46:4713-4724, 2012; Lei Zhou, Zhenming Xu*
(17) Assessment of Noise and Heavy Metals (Cr, Cu, Cd, Pb) in the Ambience of the Production Line for Recycling Waste Printed Circuit Boards; Environmental Science & Technology, 46:494-499, 2012; Mianqiang Xue, Yichen Yang, Jujun Ruan, Zhenming Xu*
(18) Environmental friendly crush-magnetic separation technology for recycling metal-plated plastics from end-of-life vehicles; Environmental Science & Technology, 46:2661-2667, 2012; Mianqiang Xue, Jia Li, Zhenming Xu*
(19) Volatile organic compounds and metal leaching from composite products made from fiberglass-resin portion of printed circuit board waste; Environmental Science & Technology, 46:1028-1034, 2012; Jie Guo, Jiang Ying, Xiaofang Hu, Zhenming Xu *
(20) An efficient rough vacuum chlorinated separation method for recovery of indium from waste liquid crystal display panels; Green Chemistry, 14(12):3395-3401, 2012; En Ma, Rixin Lu, Zhenming Xu*
(21) Separating and recovering Pb from copper-rich particles of crushed waste printed circuit boards by evaporation and condensation; Environmental Science & Technology, 45( 12 ): 5359-5365, 2011; Lu Zhan, Zhenming Xu*
(22) Electrostatic separation for recycling waste printed circuit board: A study on external factor and a robust design for optimization; Environmental Science & Technology, 44:5177-5181, 2010; Shibing Hou, Jiang Wu, Yufei Qin, Zhenming Xu *
(23) Environmental Friendly Automatic Line for Recovering Metal from Waste Printed Circuit Boards; Environmental Science & Technology, 44:1418-1423, 2010; Jia Li, Zhenming Xu*
(24) Wood plastic composite produced by nonmetals from pulverized waste PCBs; Environmental Science & Technology, 44:463-468, 2010; Jie Guo, Yinen Tang, Zhenming Xu*
(25) A Novel Process for Recovering Valuable Metals from Waste Nickel-Cadmium Batteries; Environmental Science & Technology, 43,8974-8978, 2009;Kui Huang, Jia Li, Zhenming Xu*
(26) Separating and recycling metals from mixed metallic particles of crushed electronic wastes by vacuum metallurgy; Environmental Science & Technology, 43(18 ):7074-7078, 2009; Lu Zhan, Zhenming Xu*
(27) Dynamics of conductive and nonconductive particles under high-voltage electrostatic coupling field; Science in China: Series E Technological Sciences, 52(8):2359-2366, 2009; Zhenming Xu*, Jia Li, Hongzhou Lu, Jiang Wu
(28) Asphalt Modified with Nonmetals Separated from Pulverized Waste Printed Circuit Boards; Environmental Science & Technology, 43:503-508, 2009; Jiuyong Guo, Jie Guo, Shifeng Wang, Zhenming Xu*
(29) Application of vacuum metallurgy to separate pure metal from mixed metallic particles of crushed waste printed circuit board scraps; Environmental Science & Technology, 42:7676-7681, 2008; Lu Zhan, Zhenming Xu*
(30) A Plate Produced by Nonmetallic Materials of Pulverized Waste Printed Circuit Boards; Environmental Science & Technology, 42: 5267-5271, 2008; Jie Guo, Bin Cao, Jiuyong Guo, Zhenming Xu*
1. "废弃电器电子产品处理与资源化技术及装备",2015年高等学校科学研究优秀成果技术发明一等奖,排名第一;
2. 2005年教育部新世纪人才入选者;
3. 2016年上海市育才奖获得者;
4. 指导研究生获得全国优博论文提名奖1名,上海市优博5名,上海市优硕5名;教育部博士学术新人奖1名,高廷耀青年博士杰出人才奖5名,唐孝炎环境科学创新一等奖1名。
热诚欢迎具有环境、化学、材料、冶金等背景的考生报考博士研究生和硕士研究生。