清华大学环境学院博士研究生导师简介：王玉珏

清华大学环境学院博士研究生导师简介：王玉珏

　　姓　　名：王玉珏

　　所在单位：清华大学环境学院

　　职　　称：副高级

　　邮寄地址：清华大学环境学院 100084

　　电子邮件：wangyujue@tsinghua.edu.cn

　　办公地点：环境节能楼703室

　　教育背景

　　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

　　工作履历

　　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

　　学术兼职

　　2010-至今 American Chemistry Society 会员

　　2010-至今 Water Environment Federation 会员

　　Environmental Science & Technology, Water Research, Bioresource Technology, Ozone: Science & Engineering, Thermochim Acta等杂志审稿人

　　研究领域

　　主要从事电化学水处理技术、生物质热化学转化技术研究：

　　(1) 电化学、高级氧化等新型废水处理技术，重点研究Electro-peroxone技术在难降解废水处理，工业废水处理中应用和机理。

　　(2) 生物质、固体废物资源化技术，重点研究生物质催化快速热解(catalytic fast pyrolysis)制备高品质液体燃料和化学品的热化学转化技术。

　　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。

　　研究概况

　　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、美国环保局、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：于艳卿，李剑，李永坤，林志荣

　　博士生：李翔宇，展巨宏(联合培养，昆明理工大学)，Vineet Singh(印度)，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，Phivos Frangos(塞浦路斯)，褚耀飞(上海应用技术学院，联合培养)，郭迪(浙江大学，联合培养)，沈文华

　　已毕业学生：周国强(硕士)，Belal Bakheet(苏丹)，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 (硕士)，苏露(硕士)，李晓亮(硕士，联合培养，北京化工大学)

　　出站博士后：张海凤(博士后)，冯宇(博士后)，邱翠翠(博士后)

　　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)

　　学术成果

　　发表文章：

　　以通讯作者或第一作者在Environmental Science & Technology，Water 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)

　　2014

　　1. Jian Li, Weikun Yao, Xiangyu Li, Yanqing Yu, Yujue Wang*, Wei Wang, Gang Yu, Shubo Deng, Jun Huang, Bin Wang.Maximizing carbon efficiency of petrochemical production from catalytic co-pyrolysis of biomass and plastics using gallium-MFI zeolites. Applied Catalysis B: Environmental. Submitted.

　　2. Yongkun Li, Wenhua Shen, Shujie Fu, Hongwei Yang*, Yujue Wang*. Inhibition of bromate formation during drinking water treatment by adapting ozonation to electro-peroxone process. Chemical Engineering Journal. Submitted.

　　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 boron-doped diamond anode. Journal of Hazardous Materials. In revision.

　　4. 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 cellulose by ZSM-5 modification with boron and co-feeding of low-density polyethylene. Applied Catalysis A: General, In revision.

　　5. 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.

　　6. 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.

　　7. 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.

　　8. 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.

　　9. 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 NaOH solutions. Applied Catalysis A: General, 2014, 470, 115-122.

　　10. 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.

　　2013

　　1.Belal Bakheet; Shi Yuan; Zhaoxin Li; Huijiao Wang; Jiane Zuo; Sridhar Komarneni; Yujue Wang*, Electro-peroxone treatment of Orange II dye wastewater. Water Research, 2013, 47, (16), 6234-43.

　　2.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.

　　3.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.

　　4.Zhaoxin Li; Shi Yuan; Yujue Wang*; Xuejun Pan; Jiane Zuo; Chengwen Wang. Effective degradation of refractory organic pollutants in landfill leachate by electro-peroxone treatment. Electrochimica Acta, 2013, 102, 174-182.

　　5.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.

　　6.Xiangyu Li; Haifeng Zhang; Jian Li; Lu Su; Jiane Zuo; Sridhar Komarneni; Yujue Wang*. Improving the aromatic production in catalytic fast pyrolysis of cellulose by co-feeding low-density polyethylene. Applied Catalysis A: General, 2013, 455, 114-121.

　　7.Shi Yuan; Zhaoxin Li; Yujue Wang*. Effective degradation of methylene blue by a novel electrochemically driven process. Electrochemistry Communications, 2013，29, 48-51.

　　8.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. 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. Electro-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 & 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 & Technology 2011, 45, 6539–6544.

　　2010

　　1.Chengwen Wang; Yujue Wang*; Yanqi Zhang; Qi Zhao; Ran Wang. Reclamation of elemental sulfur from flue gas biodesulfurization waste sludge. Journal of Air and Waste Management. 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 & 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 & Technology. 2007, 41, 2957-2963.

　　2.Yujue Wang; Fred S. Cannon; Magda Salama; Jeff Goudzwaard; Jame C. Furness. Characterization of hydrocarbon emissions from green sand foundry core binders by analytical pyrolysis. Environmental Science & Technology. 2007, 41, 7922-7927.

　　3.Nohemi Milan-Segovia; Yujue Wang*; Fred Cannon; Robert C. Voigt, James Furness. Comparison of hydroxyl radical generation for various advanced oxidation combinations as applied to foundries. Ozone: Science & Engineering, 2007, 29, 461-471.

　　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 & 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 & Technology. 2005, 39, 7712-7718.

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文章来源：清华大学环境学院