更新时间:2024-09-21 12:05
王玉,清华大学环境学院教授,毕业于清华大学环境科学与工程系环境工程专业学士,Water Environment 联邦制 会员。
2001.08 - 2006.09 The Pennsylvania State University 土木与环境工程系 环境工程专业 博士
1998.09 - 2001.07 清华大学环境科学与工程系 环境工程专业 硕士
1995.09 - 1998.07 清华大学自动化系 计算机及应用专业 学士(第二学位)
1993.09 - 1998.07 清华大学环境科学与工程系 环境工程专业 学士
2011.01-现在 清华大学环境学院,副教授
2009.12-2011.01 清华大学环境科学与工程系,副教授
2008.09-2009.12 清华大学环境科学与工程系,助理研究员
2006.10-2008.08 The Pennsylvania State University 土木与环境工程系 博士后
2010-至今 American 化学 Society 会员
2010-至今 Water Environment 联邦制 会员
Environmental Science \u0026 Technology, 液态水 Research, Bioresource Technology, Ozone: Science \u0026 Engineering, Thermochim Acta等杂志审稿人
主要从事水处理技术研究,发明了electro-peroxone(EP)、photoelectro-peroxone(PEP)等新型高级氧化水处理技术,解决了传统臭氧、电化学水处理过程中污染物矿化效率低,副产物多,污染物降解速率受传质和电流限制,电极易污染等根本问题,极大地提高了水处理的性能,被认为在水和废水处理领域具有巨大的应用前景。
欢迎具有环境、催化、电化学、材料等相关背景的同学报考研究生,博士后进入本课题组进行研究工作。
作为负责人与主要研究人员参与了20余项课题研究,课题来源包括中国环保部、863计划、国家重大水专项、国家自然科学基金、美国国家科学基金、美国国家环境保护局、美国能源部等。
课题组成员包括博士后、博士研究生及硕士研究生等,现有人员15人左右。
博士后:林志荣,夏广森,刘慎坦
博士生:姚维坤,展巨宏(联合培养,昆明理工大学),Syed Waqi(巴基斯坦)
硕士生:袁实,姚维坤(联合培养,合肥工业大学,联合培养),王会姣(2014、2015研究生国家奖学金),褚耀飞(上海应用技术大学,联合培养),郭迪(浙江大学,联合培养),沈文华
已毕业学生:
博士生:李翔宇(2015年研究生国家奖学金,2015年清华大学环境学院优秀毕业生)
硕士生:Phivos Frangos(塞浦路斯),姚维坤(联合培养,合肥工业大学),周国强,Belal Bakheet(苏丹;2014年清华大学优秀硕士毕业生,2014年校级优秀硕士毕业论文),李兆欣(联合培养,昆明理工大学),Md. Suruzzaman(孟加拉),栗广宇(联合培养,中国矿业大学),Juliana Querubin (法国),苏露(硕士),李晓亮(联合培养,北京化工大学)
出站博士后:于艳卿,李剑,李永坤,邱翠翠,冯宇,张海凤
在研课题:
1)Electro-peroxone水处理技术,国际合作项目
2)废水电化学深度处理与工业园区内生物质废弃物资源化技术研究(国家重大科技专项子课题)
3)Electro-peroxone技术的协同作用机理及其在难降解废水处理中的应用研究(国家重点实验室基金)
4)富氧气化与燃气重整制备生物氢关键设备研发与示范,国家科技支撑计划子课题
5)砂型铸造挥发性有机物与危险性空气污染物源头削减技术研究(国家自然科学基金)
6) 造纸黑液木质素催化热解制备高附加值芳基化学品技术研究(公益性技术应用研究计划)
发表文章:
以通讯作者或第一作者在Environmental Science \u0026 Technology,液态水 Research, Electrochemistry Communications,Bioresource Technology,Applied Catalysis A: General,Journal of Hazardous Materials, Electrochimica Acta等权威刊物发表论文30余篇。
Selected Publications (*: corresponding author)
2016
(1)Weikun Yao; Xiaofeng Wang; Hongwei Yang; Gang Yu; Shubo Deng; Jun Huang; Bin Wang; Yujue Wang*. Removal of pharmaceuticals from secondary effluents by an 银金矿peroxone process. 液态水 Research 2016, 88, 826-35.
(2)Zhirong Lin; Weikun Yao; Yujue Wang*; Gang Yu; Shubo Deng; Jun Huang; Bin Wang. Perchlorate formation during the electro-peroxone treatment of chloride-containing water: Effects of operational parameters and control strategies. 液态水 Research 2016, 88, 691-702.
(3)Juhong Zhan; Huijiao Wang; Xuejun pan; Jinlin Wang; Gang Yu; Shubo Deng; Jun Huang; Bin Wang; Yujue Wang*. Simultaneous regeneration of p-nitrophenol-saturated activated 碳 fiber and mineralization of desorbed pollutants by 银金矿peroxone process. Carbon 2016, 101, 399-408.
(4)Meifang Hou; Yaofei Chu; Xiang Li; Huijiao Wang; Weikun Yao; Gang Yu; Seiichi Murayama; Yujue Wang*. Electro-peroxone degradation of diethyl phthalate: Cathode selection, operational parameters, and degradation mechanisms. Journal of Hazardous Materials 2016, doi:10.1016/j.jhazmat.2015.12.054
(5)Phivos Frangos; Wenhua Shen; Huijiao Wang; Xiang Li; Gang Yu; Shubo Deng; Jun Huang; Bin Wang; Yujue Wang*. Improvement of the degradation of pesticide deethylatrazine by combining UV photolysis with electrochemical generation of 氢 peroxide. Chemical Engineering Journal 2016, 291, 215-224.
(6)Phivos Frangos; Huijiao Wang; Wenhua Shen; Gang Yu; Shubo Deng; Jun Huang; Bin Wang; Yujue Wang*. A novel photo银金矿peroxone process for the degradation and mineralization of substituted benzenes in 液态水 Chemical Engineering Journal 2016, 286, 239-248.
(7)Xiangyu Li; Guangyu Li; Jian Li; Yanqing Yu; Yu Feng; Qun Chen; Sridhar Komarneni; Yujue Wang*. Producing petrochemicals from catalytic fast pyrolysis of corn 发酵 residual by-products generated from citric acid production. Renewable 能量 2016, 89, 331-338.
(8)Shubo Deng*; Tao Chen; Tianning Zhao; Xiaolong Yao; Bin Wang; Jun Huang; Yujue Wang; Gang Yu. Role of micropores and 氮containing groups in CO2 adsorption on indole-3-butyric acid 钾 derived carbons. Chemical Engineering Journal 2016, 286, 98-105.
(9)Qingwei Bu; Bin Wang; Jun Huang; Kai Liu; Shubo Deng; YujueWang; GangYu*. Estimating the use of antibiotics for humans across China. Chemosphere 2016, 144, 1384-1390.
2015
(1)Huijiao Wang; Shi Yuan; Juhong Zhan; Yujue Wang*; Gang Yu; Shubo Deng; Jun Huang; Bin Wang. Mechanisms of enhanced total organic 碳 elimination from oxalic acid solutions by 银金矿peroxone process. 液态水 Research 2015, 80, (0), 20-9.
(2)Jian Li; Yanqing Yu; Xiangyu Li; Wei Wang; Gang Yu; Shubo Deng; Jun Huang; Bin Wang; Yujue Wang*. Maximizing 碳 efficiency of petrochemical production from catalytic co-pyrolysis of biomass and plastics using 镓containing MFI zeolites. Applied Catalysis B: Environmental 2015, 172, (0), 154-164.
(3)Huijiao Wang; Belal Bakheet; Shi Yuan; Xiang Li; Gang Yu; Seiichi Murayama; Yujue Wang*. Kinetics and 能量 efficiency for the degradation of 1,4-dioxane by 银金矿peroxone process. Journal of Hazardous Materials 2015, 294, (0), 90-8.
(4)Yongkun Li; Wenhua Shen; Shujie Fu; Hongwei Yang*; Gang Yu; Yujue Wang*. Inhibition of bromate formation during drinking 液态水 treatment by adapting ozonation to 银金矿peroxone process. Chemical Engineering Journal 2015, 264, (0), 322-328.
(5)Weikun Yao; Jian Li; Yu Feng; Wei Wang; Xianlong Zhang; Qun Chen; Sridhar Komarneni; Yujue Wang*. Thermally stable 磷 and 镍 modified ZSM-5 zeolites for catalytic co-pyrolysis of biomass and plastics. RSC Advances 2015, 5, (39), 30485-30494.
(6)Shuzhen Zhang; Jun Huang; Yang Yang; Yuancheng Li; Bin Wang; Yujue Wang; Shubo Deng; Gang Yu*. Rapid mechanochemical synthesis of VOx/TiO2 as highly active catalyst for HCB removal. Chemosphere 2015, 141, 197-204.
(7)Yang Yang; Shuzhen Zhang; Siwen Wang; Kunlun Zhang; Haizhu Wang; Jun Huang; Shubo Deng; Bin Wang; Yujue Wang; Gang Yu*. Ball Milling Synthesized MnOx as Highly Active Catalyst for Gaseous POPs Removal: Significance of Mechanochemically Induced 氧 Vacancies. Environmental Science \u0026 Technology 2015, 49, (7), 4473-4480.
(8)Bin Wang*; Guohua Dai; Shubo Deng; Jun Huang; Yujue Wang; Gang Yu. Linking the environmental loads to the fate of PPCPs in Beijing: Considering both the treated and untreated waste液态水 sources. Environmental Pollution 2015, 202, 153-159.
(9)Xiang Li; Yujue Wang; Jian Zhao; Huijiao Wang; Bin Wang; Jun Huang; Shubo Deng; Gang Yu?. 银金矿peroxone treatment of the antidepressant 文拉法辛: Operational parameters and mechanism. Journal of Hazardous Materials 2015, 300, 298-306.
(10)Ziwen Du; Shubo Deng*; Youguang Chen; Bin Wang; Jun Huang; Yujue Wang; Gang Yu. Removal of perfluorinated carboxylates from washing wastewater of perfluorooctanesulfonyl 氟化物 using activated 碳s and resins. Journal of Hazardous Materials 2015, 286, (0), 136-43.
(11)Shubo Deng*; Bingyin Hu; Tao Chen; Bin Wang; Jun Huang; Yujue Wang; Gang Yu. Activated carbons prepared from peanut shell and sunflower seed shell for high CO2 adsorption. Adsorption 2015, 21, (1-2), 125-133.
(12)Shubo Deng*; Yue Bei; Xinyu Lu; Ziwen Du; Bin Wang; Yujue Wang; Jun Huang; Gang Yu. Effect of co-existing organic compounds on adsorption of perfluorinated compounds onto carbon nanotubes. Frontiers of Environmental Science and Engineering 2015, 9, (5), 784-792.
(13)Tao Chen; Shubo Deng*; Bin Wang; Jun Huang; Yujue Wang; Gang Yu. CO2 adsorption on crab shell derived activated carbons: contribution of micropores and 氮containing groups. RSC Advances 2015, 5, (60), 48323-48330.
2014
(1)Xiang Li; Yujue Wang; Shi Yuan; Zhaoxin Li; Bin Wang; Jun Huang; Shubo Deng; Gang Yu*. Degradation of the anti-inflammatory drug ibuprofen by electro-peroxone process. Water Research 2014, 63, 81-93.
(2)Guoqiang Zhou; Jian Li; Yanqing Yu; Xiangyu Li; Yujue Wang*; Wei Wang; Sridhar Komarneni. Optimizing the distribution of aromatic products from catalytic fast pyrolysis of 纤维素 by ZSM-5 modification with boron and co-feeding of low-density 聚乙烯 Applied Catalysis A: General 2014, 487, 45-53.
(3)Cuicui Qiu; Shi Yuan; Xiang Li; Huijiao Wang; Belal Bakheet; Sridhar Komarneni; Yujue Wang*. Investigation of the synergistic effects for p-nitrophenol mineralization by a combined process of ozonation and electrolysis using a 硼doped diamond anode. Journal of Hazardous Materials 2014, 280, 644-653.
(4)Xiangyu Li; Jian Li; Guoqiang Zhou; Yu Feng; Yujue Wang*; Gang Yu; Shubo Deng; Jun Huang; Bin Wang. Enhancing the production of renewable petrochemicals by co-feeding of biomass with plastics in catalytic fast pyrolysis with ZSM-5 zeolites. Applied Catalysis A: General 2014, 481, 173-182.
(5)Belal Bakheet; Cuicui Qiu; Shi Yuan; Yujue Wang*; Gang Yu; Shubo Deng; Jun Huang; Bin Wang. Inhibition of polymer formation in electrochemical degradation of p-nitrophenol by combining electrolysis with ozonation. Chemical Engineering Journal 2014, 252, 17-21.
(6)Haifeng Zhang; Hongqing Zhao; Kuo Zheng; Xiangyu Li; Guangli Liu; Yujue Wang*, Diminishing hazardous air pollutant emissions from pyrolysis of furan no-bake binders using methanesulfonic acid as the binder catalyst. Journal of Thermal Analysis and Calorimetry, 2014, 116, 373-381.
(7)Jian Li; Xiangyu Li; Guoqing Zhou; Wei Wang; Chengwen Wang; Sridhar Komarneni; Yujue Wang*, Catalytic fast pyrolysis of biomass with mesoporous ZSM-5 zeolites prepared by desilication with 氢氧化钠 solutions. Applied Catalysis A: General, 2014, 470, 115-122.
(8)Haifeng Zhang; Lu Su; Xiangyu Li; Jiane Zuo; Guangli Liu; Yujue Wang*, Evaluation of soil microbial toxicity of waste foundry sand for soil-related reuse. Frontiers of Environmental Science and Engineering, 2014, 8, (1), 89-98.
(9)Shubo Deng*; Pingping Meng; Xinyu Lu; Ziwen Du; Bin Wang; Jun Huang; Yujue Wang; Gang Yu; Baoshan Xing. Role of Air Bubbles Overlooked in the Adsorption of 全氟辛烷 Sulfonate on Hydrophobic Carbonaceous Adsorbents. Environmental Science \u0026 Technology 2014, 48, 13785-13792.
(10)S. Bagherifam*; S. Komarneni*; A. Lakzian; A. Fotovat; R. Khorasani; W. Huang; J. Ma; Y.J. Wang. Evaluation of 锌Al–SO4 layered double hydroxide for the removal of arsenite and arsenate from a simulated soil solution: Isotherms and kinetics. Applied Clay Science 2014, 95, 119-125.
(11)S. Bagherifam*; S. Komarneni*; A. Lakzian; A. Fotovat; R. Khorasani; W. Huang; J. Ma; S. Hong; F.S. Cannon; Y.J. Wang. Highly selective removal of nitrate and perchlorate by organoclay. Applied Clay Science 2014, 95, 126-132.
2013
(1)Belal Bakheet; Shi Yuan; Zhaoxin Li; Huijiao Wang; Jiane Zuo; Sridhar Komarneni; Yujue Wang*, 银金矿peroxone treatment of Orange II dye wastewater. 液态水 Research, 2013, 47, (16), 6234-43.
(2)Shi Yuan; Zhaoxin Li; Yujue Wang*. Effective degradation of methylene 蓝色 by a novel electrochemically driven process. Electrochemistry Communications, 2013,29, 48-51.
(3)Zhaoxin Li; Shi Yuan; Yujue Wang*; Xuejun pan; Jiane Zuo; Chengwen Wang. Effective degradation of refractory organic pollutants in landfill leachate by 银金矿peroxone treatment. Electrochimica Acta, 2013, 102, 174-182.
(4)Yanqing Yu; Yelin Zeng; Jiane Zuo; Fuying Ma; Xuewei Yang; Xiaoyu Zhang*; Yujue Wang*. Improving the conversion of biomass in catalytic fast pyrolysis via white-rot fungal pretreatment. Bioresource Technology, 2013, 134, 198-203.
(5)Xiangyu Li; Haifeng Zhang; Jian Li; Lu Su; Jiane Zuo; Sridhar Komarneni; Yujue Wang*. Improving the aromatic production in catalytic 500米口径球面射电望远镜 pyrolysis of 纤维素 by co-feeding low-density 聚乙烯 Applied Catalysis A: General, 2013, 455, 114-121.
(6)Zhihua Wang; Xiaoliang Li; Saijin Zheng; Xiangyu Li; Jiane Zuo; Yujue Wang*. The important role of quinic acid in the formation of phenolic compounds from pyrolysis of chlorogenic acid. Journal of Thermal Analysis and Calorimetry, 2013, 114, (3), 1231-1238.
(7)Komarneni, S.*; Aref, A. R.; Hong, S. Q.; Noh, Y. D.; Cannon, F. S.; Wang, Y. J., Organoclays of high-charge synthetic clays and alumina pillared natural clays: Perchlorate uptake. Applied Clay Science, 2013, 80-81, 340-345.
(8)Xinyang Li; Chengwen Wang*; Yi Qian; Yujue Wang; Liwei Zhang. Simultaneous removal of chemical 氧 demand, turbidity and 硬度 from biologically treated citric acid wastewater by electrochemical oxidation for reuse. Separation and Purification Technology. 2013, 107, 281-288.
2012
(1)Yanqing Yu; Yujue Wang*; Lu Su; Xiangyu Li; Huizhong Zhang. The role of shape selectivity in catalytic fast pyrolysis of lignin with zeolite catalysts. Applied Catalysis A: General 2012, 447–448, 115–123.
(2)Yujue Wang*; Xinyang Li; Limin Zhen; Heqing Zhang; Chengwen Wang. 银金矿Fenton treatment of concentrates generated in nanofiltration of biologically pretreated landfill leachate. Journal of Hazardous Materials. 2012, 229–230, 115-121.
(3)Xiangyu Li; Lu Su; Yujue Wang*; Yanqing Yu; Chengwen Wang; Xiaoliang Li; Zhihua Wang. Catalytic fast pyrolysis of Kraft lignin with HZSM-5 zeolite for producing aromatic hydrocarbons. Frontiers of Environmental Science and Engineering, 2012, 6 (3), 295–303.
2011
(1)Yujue Wang*; Fred S. Cannon; Xiangyu Li. Comparative analysis of hazardous air pollutant emissions of casting materials measured in analytical pyrolysis and conventional metal pouring emission tests. Environmental Science \u0026 Technology. 2011, 45 (19), 8529–8535.
(2)Yujue Wang*; Ying Zhang; Lu Su; Xiangyu Li; Lei Duan; Chengwen Wang; Tianyou Huang. Hazardous air pollutants formation from pyrolysis of typical Chinese casting materials. Environmental Science \u0026 Technology 2011, 45, 6539–6544.
2010
(1)Chengwen Wang; Yujue Wang*; Yanqi Zhang; Qi Zhao; Ran Wang. Reclamation of elemental 硫 from flue gas biodesulfurization waste sludge. Journal of Air and Waste 管理学 2010, 60, 603-610.
(2)Brian C. Moore; Yujue Wang*; Fred S. Cannon; D. H. Metz; J. Westrick. Relationships between adsorption mechanisms and pore structure for the adsorption of natural organic matter by virgin and reactivated granular activated carbons during water treatment. Environmental Engineering Science. 2010, 27, 187-198.
2009
(1)He Huang*; Yujue Wang; Fred S. Cannon. Pore structure development of in-situ pyrolyzed coals for pollution prevention in iron foundries. Fuel Processing Technology. 2009, 90, 1183-1191.
(2)Yujue Wang; Fred S. Cannon; Magda Salama; D. A. Fonseca; Scott Giese. Characterization of pyrolysis products from a biodiesel phenolic urethane binder. Environmental Science \u0026 Technology. 2009, 43 (5), 1559-1564.
2007
(1)Yujue Wang; He Huang; Fred S. Cannon; Robert C. Voigt; Sridhar Komarneni; James Furness. Evaluation of hydrocarbon emission characteristics of typical carbonaceous additives in green sand foundries. Environmental Science \u0026 Technology. 2007, 41, 2957-2963.
2006
(1)Yujue Wang; Fred Cannon; Robert Voigt; Sridhar Komarneni; James Furness. Effects of advanced oxidation on green sand properties via iron casting into green sand molds. Environmental Science \u0026 Technology. 2006, 40, 3095-3101.
2005
(1)Yujue Wang; Fred Cannon; Sridhar Komarneni; Robert Voigt; James Furness. Mechanisms of advanced oxidation processing on bentonite consumption reduction in foundry. Environmental Science \u0026 Technology. 2005, 39, 7712-7718.
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