西安交通大学人居环境与建筑工程学院导师教师师资介绍简介-王文东

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个人信息 - 王文东基本信息

王文东、男、西安交通大学教授/博士生导师，美国宾州州立大学首府学院访问****，我国勘察设计行业注册环境保护工程师、注册公用设备工程师（给水排水）、陕西省青年科技新星、陕西省中小企业首席工程师、国际水协会中国青年委员会委员、“饮用水强化净化与安全保障”研究团队带头人。多年从事微污染水强化净化与水质安全保障领域的研究，在微污染水净化材料与设备研发，以及污染物在水质净化和输配过程中的转移转化规律等方面取得了有影响力的成果。先后主持包括国家重大水专项和国家自然科学基金在内的国家级和省部级科研项目10余项，科研经费合同额合计1800万左右；作为第一完成人获2014年陕西省科技进步三等奖和陕西省高等学校科技进步二等奖各1项。基于上述研究工作，发表学术论文100余篇，其中SCI期刊收录论文40余篇。主编、参编著作/教材4部，已授权国家发明专利10项。
1.研究方向
l 新兴污染物在水环境中的转移/转化与蓄积特性
l 微污染水强化净化理论与技术
l 新型水处理材料开发与评价
2.教育经历
l 2004.09-2008.09:清华大学,环境科学与工程,博士
l 2000.09-2004.06:哈尔滨工业大学，给水排水科学与工程
3.工作经历
l 2018.06-至今:教授，西安交通大学，人居学院，地球环境科学系
l 2015.01-至今:教授（兼职），清华长三角研究院，生态环境研究所
l 2012.08-2013.07:访问****，美国宾州州立大学，首府学院
l 2010.10-2018.5:副教授，西安建筑科技大学，环境与市政工程学院
4.社会任职
l 国际水协会中国青年委员会（IWAWYP-China）委员
l 《EnvironmentalScience&Technology》,《WaterResearch》,《Desalination》,《Chemosphere》和《环境科学》等学术期刊审稿人

联系方式
联系电话:/**通讯地址:陕西省西安市雁塔路99号，交大曲江校区西一楼405B电子信箱:wdwang@xjtu.edu.cn邮政编码:710054

教学研究 - 王文东基本信息

王文东、男、西安交通大学教授/博士生导师，美国宾州州立大学首府学院访问****，我国勘察设计行业注册环境保护工程师、注册公用设备工程师（给水排水）、陕西省青年科技新星、陕西省中小企业首席工程师、国际水协会中国青年委员会委员、饮用水强化净化与安全保障研究团队带头人。多年从事微污染水强化净化与水质安全保障领域的研究，在微污染水净化材料与设备研发，以及污染物在水质净化和输配过程中的转移转化规律等方面取得了有影响力的成果。先后主持包括国家重大水专项和国家自然科学基金在内的国家级和省部级科研项目10余项，科研经费合同额合计1800万左右；作为第一完成人获2014年陕西省科技进步三等奖和陕西省高等学校科技进步二等奖各1项。基于上述研究工作，发表学术论文100余篇，其中SCI期刊收录论文40余篇。主编、参编著作/教材4部，已授权国家发明专利10项。

联系方式
联系电话: （固话）、**（手机）
通讯地址: 陕西省西安市雁塔路99号，交大曲江校区西一楼405B
电子信箱: wdwang@xjtu.edu.cn
邮政编码: 710054

教学风采

承担本科课程《环境工程学》、《工业水处理》和《水资源利用与保护》以及研究生课程《高级氧化与消毒》的教学工作，主持和参与教育教学改革项目2项，发表教改论文5篇，主编/参编国家计划教材4部。
出版教材
[1]苏俊峰,王文东.环境微生物学.北京:中国建筑工业出版社, 2013.
[2]王文东.废水生物处理技术.北京:化学工业出版社, 2014.
[3]王文东,周成,张卉.工业废水处理技术.北京:中国建筑工业出版社, 2016.
[4]刘宏斌,李卓,王文东.污水湿地生态处理技术.西安:西北大学出版社, 2010.
教改论文
[1]王文东.转变培养模式提高本科生培养质量.西安建筑科技大学学报（社会科学版）,2010,29(1):85-88.
[2]王文东.浅议研究生学位论文的选题. 中国建设教育协会普通高校教育委员会2009年教育教学改革与研究论文集. 2009,12:198-201.
[3]王文东,朱陆莉,邓林煜.对比教学法在《给水排水管网系统》教学中的应用. 西安建筑科技大学学报（社会科学版）,2012,29(3):12-15.
[4]王文东,朱陆莉, 邓林煜. 卓越工程师培养理念下《工业废水处理技术》教学方法探讨.西安建筑科技大学学报（社会科学版）,2012, 29.
[5]王文东,朱陆莉, 邓林煜. 工业水处理技术课堂教学方法探讨.山西建筑。43(17):215-216.
指导学生获奖情况
[1]第七届“哈希”全国环境友好科技竞赛、2012.9、清华大学、二类竞赛科目国家二等奖.
[2]第六届西安高新“挑战杯”陕西省大学生创业计划大赛、2012.6、共青团陕西省委、省内竞赛科目银奖.

科研项目 - 王文东基本信息

王文东、男、西安交通大学教授/博士生导师，美国宾州州立大学首府学院访问****，我国勘察设计行业注册环境保护工程师、注册公用设备工程师（给水排水）、陕西省青年科技新星、陕西省中小企业首席工程师、国际水协会中国青年委员会委员、饮用水强化净化与安全保障研究团队带头人。多年从事微污染水强化净化与水质安全保障领域的研究，在微污染水净化材料与设备研发，以及污染物在水质净化和输配过程中的转移转化规律等方面取得了有影响力的成果。先后主持包括国家重大水专项和国家自然科学基金在内的国家级和省部级科研项目10余项，科研经费合同额合计1800万左右；作为第一完成人获2014年陕西省科技进步三等奖和陕西省高等学校科技进步二等奖各1项。基于上述研究工作，发表学术论文100余篇，其中SCI期刊收录论文40余篇。主编、参编著作/教材4部，已授权国家发明专利10项。

联系方式
联系电话: （固话）、**（手机）
通讯地址: 陕西省西安市雁塔路99号，交大曲江校区西一楼405B
电子信箱: wdwang@xjtu.edu.cn
邮政编码: 710054

科研项目
[1]“十三五”国家重大水专项子课题：城市受损水体生态修复技术集成与应用，主持，310.0万元，2017-2020，2017ZX
[2]“十二五”国家重大水专项子课题：城市内湖氮磷低浓度维持和富营养化控制技术研究，主持，120.0万元，2015-2016，2013ZX
[3] “十二五”国家重大水专项子课题：水资源紧缺城市水环境景观系统修复与构建技术集成研究，参加，537.0万元，2012-2015，2012ZX
[4] 国家自然科学基金面上项目：过渡金属吸附剂同步去除抗生素和砷界面反应机制与功能调控原理，参加，72.0万元，2012-2019，**
[5] 国家自然科学基金青年项目：腐殖酸分子结构的光辐射转化特性及化学凝聚性变化规律研究，主持，19.0万元，2011-2013，**
[6] 国家自然科学基金青年项目：含锰复合氧化物同步吸附砷、磷的界面调控机制与强化除砷原理，参加，28.0万元，2013-2015，**
[7] 陕西省科技统筹计划项目：高效脱氮除磷人工湿地水处理装置模块化研究与工程示范，主持，40.0万元，2016-2018，2016KTCG-17
[8] 陕西省青年科技新星项目：重金属在给水管网中迁移转化规律与水质二次污染控制原理研究，主持，10.0万元，2014-2015，2014KJXX-66
[9] 教育部博士点项目：腐殖酸分子结构的紫外光修饰特征及化学凝聚性变化规律研究，主持，3.6万元，2011-2013，014
[10] 陕西省外国专家局留学归国人员计划项目：高效脱氮除磷滤池填料开发与性能评价，主持，2.0万元，2014-2015,
[11] 校企产学联合项目：三星城工业园区排水对洨河水生态环境的影响研究（2015-2016年度），主持，59.5万元，2015-2016，SCSC&R
[12] 校企产学联合项目：三星城工业园区排水对洨河水生态环境的影响研究（2016-2017年度），主持，64.0万元，2016-2017，SCSL1C
[13] 校企产学联合项目：三星城工业园区排水对洨河水生态环境的影响研究（2017-2018年度），主持，32.5万元，2017-2018，SCSC&R
[14] 校企产学联合项目：三星城工业园区排水对洨河水生态环境的影响研究（2018-2019年度），主持，64.0万元，2018-2019，SCSC&R
[15] 西安市社会发展科技领域计划项目：人工景观水体富营养化生态保障技术集成与示范，参与，30万，2011-2013，HM1105
[16] 校企产学联合项目：三星城工业园区周边大气异味物质分布及其环境影响特征研究，主持，116.0万元，2016-2017，SCSSVS
[17] 政府咨询服务项目：西安市碑林区污染源调查、污染源现场监测第三方服务，主持，45.5万元，2018-2019，,
[18] 陕西省科技厅：供水管网中含铝沉积物的形成机理及稳定性研究，主持，4.0万元，2010-2012,2009JQ7001
[19] 陕西省教育厅：快速渗滤-潜流人工湿地一体化污水处理工艺的开发应用研究，主持，11.0万元，2009-2011,09JS029
[20] 国家自然科学基金：水缔合结构与水质的关系及其控制技术研究，主持，40.0万元，2007-2009,**

科研成果 - 王文东科研成果

课题组在以下三个研究方面取得了具有影响力的成果：
l 发现太阳光辐射对微污染水中有机组分的化学凝聚过程具有促进作用，揭示了有机组分在光辐射环境下结构、性质的变化原理，开发出基于光促作用的微污染水强化混凝设备。同等条件下，其对腐殖质的去除性能可提升30%，对以小球藻为代表的藻类的去除性能可提升20%，具有良好市场发展潜力；
l 开发出成套微污染水强化混凝药剂（CB）、过滤材料（LCFM）和集成化生物沉淀设备，实现了水中有机物和营养盐的同步去除；
l 探明了铝盐混凝剂在净化出水中的残留特点、在管网中的沉积-释放特征，及其对重金属等其它污染组分转移、转化过程的影响规律。

学术论文
[1] Hui Zhang, Xue Zhou, Kai Wang, Wendong Wang: Development of a software tool for teaching real-time state simulation of water distribution networks. Computer Applications in Engineering Education 05/2018; DOI:10.1002/cae.21909
[2] Hui Zhang, Xue Zhou, Luobin Wang, Wendong Wang, Jinlan Xu: Concentrations and potential health risks of strontium in drinking water from Xi'an, Northwest China. Ecotoxicology and Environmental Safety 11/2018; 164:181-188., DOI:10.1016/j.ecoenv.2018.08.017
[3] Hui Zhang, Kai Wang, Xue Zhou, Weihuang Zhu, Wendong Wang: Water quality characteristics and corrosion potential in blending zones in X city drinking water distribution system. Environmental Monitoring and Assessment 09/2018; 190(9):524.
[4] Hui Zhang, Shan Chang, Luobin Wang, Wendong Wang: Estimating and comparing the cancer risks from THMs and low-level arsenic in drinking water based on disability-adjusted life years. Water Research 08/2018; DOI:10.1016/j.watres.2018.08.012
[5] Shengjiong Yang, Xiaojie Qiu, Pengkang Jin, Mawuli Dzakpasu, Xiaochang C Wang, Qionghua Zhang, Lu Zhang, Lei Yang, Dahu Ding, Wendong Wang, Kun Wu: MOF-templated synthesis of CoFe2O4 nanocrystals and its coupling with peroxymonosulfate for degradation of bisphenol A. The Chemical Engineering Journal 07/2018; 353:329-339.
[6] Ge Gao, Lujie Nie, Shengjiong Yang, Penkang Jin, Rongzhi Chen, Dahu Ding, Xiaochang C. Wang, Wendong Wang, Kun Wu, Qionghua Zhang: Well-Defined Strategy for Development of Adsorbent Using Metal Organic Frameworks (MOF) Template for High Performance Removal of Hexavalent Chromium. Applied Surface Science 06/2018; 457., DOI:10.1016/j.apsusc.2018.06.278
[7] Hui Zhang, Kai Wang, Xue Zhou, Wendong Wang: Using DFP algorithm for nodal demand estimation of water distribution networks. KSCE Journal of Civil Engineering 02/2018;, DOI:10.1007/s12205-018-0176-6
[8] Jun feng Su, Ting ting Lian, Ting lin Huang, Dong hui Liang, Wen dong Wang: Simultaneous removal of Fe³⁺ and nitrate in the autotrophic denitrification immobilized systems. Water Science & Technology Water Supply 11/2017;, DOI:10.2166/ws.2017.186
[9] Kun Wu, Jin Zhang, Bing Chang, Ting Liu, Furong Zhang, Pengkang Jin, Wendong Wang, Xiaochang Wang: Removal of arsenic(III,V) by a granular Mn-oxide-doped Al oxide adsorbent: surface characterization and performance. Environmental Science and Pollution Research 06/2017;, DOI:10.1007/s11356-017-9465-8
[10] Jun feng Su, Dong hui Liang, Ting lin Huang, Ting ting Lian, Wen dong Wang: Mixed electron donors autotrophic denitrification processes for groundwater treatment by immobilized biological filter. Water Science & Technology Water Supply 04/2017;, DOI:10.2166/ws.2017.049
[11] Wendong Wang, Yu Han, Hui Liu, Ke Zhang Qiang Yue, Longli Bo, Xiaochang Wang. Pollutant removal performance of an integrated upflow-constructed wetland filled with haydites made of Al-based drinking water treatment residuals. Environmental Technology, 2017, 38(9): 1111-1119.
[12] Junfeng Su, Tingting Lian, Tinglin Huang, Donghui Liang, Li Wei, Wendong Wang. Microbial community analysis of simultaneous ammonium removal and Fe³⁺ reduction at different influent ammonium concentrations. Bioprocess and Biosystems Engineering, 2017, 40(10): 1555-1563.
[13] H. Zhang, X. Zhou, K. Wang, W.D. Wang. Health risk assessment of arsenic from blended water in distribution systems. Journal of Environmental Science and Health. Part A, Toxic/hazardous Substances & Environmental Engineering, 2017, 52(14): 1322-1329.
[14] Wendong Wang, Pei Feng, Qin Yang, Wen Wang, Xiaochang Wang. Effects of sodium, magnesium, and calcium salts on the coagulation performance of cucurbit[8]uril for humic acid removal from synthetic seawater. Desalination, 2016, 386: 77-83.
[15] Wendong Wang, Cui Ma, Yinting Zhang, Shengjiong Yang, Yue Shao, Xiaochang Wang. Phosphate adsorption performance of a novel filter substrate made from drinking water treatment residuals. Journal of Environmental Sciences, 2016, 45: 191-199.
[16] W. D. Wang, M. Esparra, H. Liu, Y. F. Xie. Application of forward osmosis in reusing the brackish concentrate produced in reverse osmosis plants with secondary treated wastewater as feed solution: a case study. Journal of Water Reuse and Desalination, 2016, 6(4): 533-543.
[17] Wendong Wang, Shan Song, Zixia Qiao, Qin Yang, Mengmeng Wang, Lichuan Zhou, Hongping Wang, Ruiguang Guo, Xuejun Sun, Ying Hua. Evaluation on the rural drinking water quality in a centralized supplied area of China. Environmental Engineering and Management Journal, 2016, 15(2): 435-442.
[18] Wendong Wang, Xiaogang Wang, Lichuan Zhou, Hongbin Liu, Zhenzhen Ding, Yuting Liang. Wastewater treatment in a constructed wetland followed by an oxidation pond in a rural area of China. Environmental Engineering and Management Journal, 2016, 15(1): 199-205.
[19] Wendong Wang, Qinghai Fan, Zixia Qiao, Qin Yang, Yabo Wang, Xiaochang Wang. Effects of water quality on the coagulation performances of humic acids irradiated with UV light. Frontiers of Environmental Science and Engineering, 9(6), 2015, 9(1): 147-154
[20] Wendong Wang, Lichuan Zhou, Zhenzhen Ding, Hongping Wang, Xiaoni Zhang, Xiaochang Wang, Xuejun Sun, Ying Hua. Study on the adsorption of Cu²⁺, Cd²⁺, and Pb²⁺ on amorphous Al(OH)₃ scale formed in drinking water distribution systems. Environmental Engineering and Management Journal, 2015, 14(12): 2829-2835.
[21] Wendong Wang, Yinting Zhang, Mariem Esparra, Xiaomao Wang, Hongwei Yang, Yuefeng Xie. Effects of pH and temperature on forward osmosis membrane flux using rainwater as the makeup for cooling water dilution. Desalination, 2014, 351: 70-76.
[22] Wendong Wang, Wen Wang, Qinghai Fan, Yabo Wang, Zixia Qiao, Xiaochang Wang. Effects of UV radiation on humic acid coagulation characteristics in drinking water treatment processes. Chemical Engineering Journal, 2014, 256: 137-143.
[23] Wendong Wang, Shan Song, Xiaoni Zhang, J. Mitchell Spear, Xiaochang Wang, Wen Wang, Zhenzhen Ding, Zixia Qiao. Effects of Ni²⁺ on aluminum hydroxide scale formation and transformation on a simulated drinking water distribution system. Chemosphere 2014, 107: 211-217.
[24] Wang W. D. , Zhang X. N., Wang X. C., Zhou L. C., Liu R., Liang Y. T. Laboratory study on the adsorption of Mn²⁺ on suspended and deposited amorphous Al(OH)₃ in drinking water distribution systems. Water Research, 2012, 46(13), 4063-4070.
[25] Wang W. D. , Li H., Wang X. C., Ding Z. Z. Effects of humic acid on residual aluminum control in drinking water treatment plants with orthophosphate addition. Frontiers of Environmental Science and Engineering in China, 2012, 6(4), 470-476.
[26] Wang W. D. , Yang H. W., Wang X. C., Ding Z. Z., Zhu W. P. Aluminum speciation in drinking water distribution system: a case study in China. Korean Journal of Chemical Engineering, 2011, 28(5), 1227-1232.
[27] Wang W. D. , Li H., Wang X. C., Ding Z. Z. Effects of advanced oxidation pretreatment on residual aluminum control in high humic acid water purification. Journal of Environmental Sciences, 2011, 23(7), 1079-1085.
[28] Wang W. D., Yang H. W., Wang X. C., Jiang J., Zhu W. P. Reaction mechanism of fuvic acid with aluminum in natural water. Journal of Environmental Sciences, 2010, 22(2), 211-217.
[29] Wang W. D., Yang H. W., Wang X. C., Jiang J., Zhu W. P. Factors effecting aluminum speciation in drinking water by laboratory research. Journal of Environmental Sciences, 2010, 22(1), 47-55.
[30] Wang W. D., Li H., Wang X. C., Liu Y. J. Spatial variations of aluminum species in drinking water supplies in Xi’an studied applying geographic information system (GIS). Journal of Environmental Sciences, 2010, 22(4), 519-525.
[31] Wang W. D., Yang H. W., Zhao H. Z., Jiang Z. P. Transfer and transport of aluminum in filtration unit. Journal of Environmental Sciences, 2007, 19(8): 897-901.
[32] WANG Wen-Dong, YANG Hong-Wei, JIANG Jing, ZHU Wan-Peng, JIANG Zhan-Peng. Reaction Mechanism of Soluble Silicic Acid with Aluminum in Natural Water. ACTA CHIMICA SINICA, 2008, 66(23): 2625-2630.
[33] YANG Qin, YANG Yong-li, WANG Wen-dong, MENG Xiao-rong, JIANG Yuan-ru. Study on the removal of model compound of humic acid by cucurbiturils. Journal of Functional Materials, 2013, 44(5): 685-688.
[34] Yang Q., Yang Y. L., Wang W. D., Ge M., Li D. The influence factor of removal humic acid from wastewater using cucurbiturils. Advanced Material Research, 413, 217-222, 2012.
[35] DING Zhenzhen, WANG Wenke, YANG Hongbin, WANG Wendong. Environmental Supervision for Campus Wastewater Treatment and Reuse. In Proceedings 2011 International Symposium on Water Resource and Environmental Protection, May 20-22, 2011, Xi’an, China. pp. 2816-2819.
[36] YANG Qin, YANG Yong-li, WANG Wen-dong, XING Yuan-qing, LI Dan. Study on β-cyclodextrin and metal phthalocyanine effects of functional assembly. Journal of Functional Materials, 2011, 42(7), 1293-1296.
[37] Rui LIU, Juhong FAN, Wen-dong WANG, Chun-fang MU, Qiang CAI, Lv-jun CHEN, Xia Huang, Takashi KAMEYA, Takeshi Kobayashi. Research on biodegradability and biotoxicity of wastewater from vitamin-A manufacturing process. Proceeding of Water and Environment Technology Conference 2010, 2010.6, Yokohama, Japan.
[38] Qin Yang ; Yongli Yang; ; Man Ge; Dan Li, Wendong Wang, The Influence Factor of Removal Humic Acid from Wastewater Using Cucurbiturils , 2^nd International Conference on Materials Science and Engineering Application, ICMSEA 2012, Xian, P.R. China, 2012.12.16-2012.12.17
[39] 白居蓉,郑杰,马翠,刘荟,王文东.转盘转速对生物净化沉淀池除污效能的影响研究.中国给水排水,2018,34(07):42-46.
[40] 余春育,白居蓉,柳剑男,等.铜制给水管道中铝垢的形成与转化机制研究.中国给水排水,2018,34(09):
[41] 王文东，王霞，郑杰等.基于水力优化的模块化人工湿地除污性能评价.安全与环境学报
[42] 王文东，王霞，郑杰，杨世博等.模块化人工湿地基质筛选与除污性能评价，环境污染与防治
[43] 王文东, 王昌鑫, 刘荟, 韩雨. 紫外辐射对高岭土混凝过程的影响机制. 环境科学, 2017, 38(1): 188-194.
[44] 王文东, 马翠, 刘荟, 范银萍, 刘国旗, 张珂. 水力负荷对生物沉淀池污染物净化性能的影响特性研究. 环境科学, 2016, 37(12): 4727-4733.
[45] 王文东, 刘荟, 马翠, 韩雨, 常妮妮. 一体式生物净化-沉淀池对微污染水体污染物的强化去除性能. 环境科学, 2016, 37(10): 3858-3863.
[46] 王文东, 刘荟, 张银婷, 杨生炯. 新型污泥基吸附材料制备及其氨氮去除性能评价. 环境科学, 2016, 37(8): 3186-3191.
[47] 王文东, 张轲, 范庆海, 郑丹. 紫外辐射对腐殖酸溶液理化性质及其混凝性能的影响. 环境科学, 2016, 37(3): 994-999.
[48] 王文东, 张轲, 许洪斌, 刘国旗. 紫外辐射对小球藻混凝效果作用途径探讨. 环境科学, 2016, 37(1): 187-192.
[49] 王文东, 杨宏伟, 祝万鹏, 蒋展鹏. 北方某市给水管网系统中的铝含量及形态分布状况调查. 环境科学, 2007, 28(11):2557-2561.
[50] 王文东, 刘国旗, 范银萍, 张轲. 西北某水厂原水中土臭素和二甲基异莰醇年变化特征与来源分析. 西安建筑科技大学学报(自然科学版), 2017,548-554 548-55449(4):548-554.
[51] 王文东, 范银萍, 刘国旗, 刘荟. O₃-颗粒活性炭联用去除对二甲基异莰醇研究. 水处理技术, 2017, 43(5): 33-37, 42.
[52] 许洪斌, 王文东, 王楠, 王晓昌, 张彦, 刘红磊. 再生水补水景观湖浮游藻类群落结构特征及与环境因子的关系. 环境工程学报, 2016, 10(11): 6-6424.
[53] 王文东, 岳强, 刘国旗, 孙学军, 王洪平, 王晓昌. 传统饮用水净化工艺对锰的去除特性. 环境工程学报, 2016, 10(9): **-6424-4736.
[54] 王文东, 张银婷, 周礼川, 蒋云龙, 王洪平, 丁真真. 基于铝盐混凝污泥的新型LCFM吸附性能评价. 环境工程学报, 2016, 10(4): 1-6424.
[55] 王文, 王文东, 范庆海, 岳强, 杨琴. 瓜环对污水厂二级处理出水中有机物的混凝性能评价. 环境工程学报, 2015, 9(11): 6-5218.
[56] 冯莉, 卜龙利, 白丽荣, 高宁, 赵佩, 王文东. 倒置A2/O工艺参数变化对污水中医药类污染物的去除影响. 环境工程学报, 2014, 8(10): 6-4290
[57] 陈燕, 赵华章, 王文东. 共价键型有机硅铝复合絮凝剂的混凝效果研究. 水处理技术, 2014, 40(12): 35-38.
[58] 王文东, 张银婷, 王洪平, 周礼川, 王小刚, 杨琴. 高效脱氮除磷新型人工湿地基质开发与性能评价. 水处理技术, 2014, 40(5): 79-82, 91.
[59] 白丽荣,卜龙利,冯莉,高宁,赵佩,王文东.间歇式生物反应器中PHACs的吸附降解性及动力学特性[J]. 环境科学学报, 2014, 34(8): 1978-1985.
[60] 王文东, 王亚博, 范庆海, 丁真真, 王文员, 宋珊, 张银婷. 紫外辐射对小分子有机酸化学凝聚性作用途径探讨. 环境科学, 2014, 35(10): 151-155.
[61] 王文东, 周礼川, 丁真真, 王洪平, 孙学军. 紫外辐射对腐殖酸化学稳定性影响机制研究. 环境科学, 2013, 34(10): 3921-3926.
[62] 王文东, 王小刚, 高榕, 丁真真, 徐福军, 翟萌. 表流－潜流人工湿地处理北方城市景观水体研究. 水处理技术, 2013, 39(10): 76-79, 84.
[63] 杨琴, 孟晓荣, 杨永利, 王文东. 瓜环与苯甲酸和萘的组装及热力学规律. 环境化学, 2013, 32(9): 1680-1686.
[64] 范举红, 刘锐, 余素林, 张杰, 王文东, 陈吕军. 分质预处理强化制药废水处理效果的研究. 中国给水排水, 2012, 28(23): 34-37, 41.
[65] 万梅, 刘锐, 汤灵容, 王文东, 蔡强, 张永明, 陈吕军. 工业区域土壤和地下水中挥发性氯代烃的污染现状与防治法规. 环境工程, 2011, 29(S1): 397-401, 411.
[66] 王文东, 杨宏伟, 王晓昌, 蒋晶, 祝万鹏, 蒋展鹏. 基于化学反应动力学的饮用水铝形态分布模型研究. 环境科学, 31(4), 976-982, 2010.
[67] 李华, 王文东, 王晓昌, 刘永军, 丁真真, 金鹏康. 臭氧-紫外预处理对高有机物原水混凝效果的影响. 环境科学, 31(8), 1807-1812, 2010.
[68] 李侃, 王晓昌, 王文东, 李忠民. 二级串联自造粒生物流化床污染物降解特性研究. 水处理技术, 2010, 36(9): 34-37, 72.[69] 王文东, 杨宏伟, 蒋晶, 祝万鹏, 蒋展鹏. 水温和溶液pH值对饮用水铝形态的影响, 环境科学, 2009, 30(8):2259-2262.
[70] 王文东, 杨宏伟, 祝万鹏, 蒋展鹏, 师绍琪. 凝胶层析-荧光分光光度法联用分析饮用水中铝的形态. 环境化学, 2007, 26(1):79-81.
[71] 范举红, 刘锐, 王文东, 陈吕军. 制药废水有机污染物特性分析与处理. 化工环保, 2011, 31(4): 332-337.
[72] 王文东, 张小妮, 乔子霞, 周礼川, 王洪平, 丁真真. 给水管网中含铝水垢对微量金属元素蓄积释放特性综述. 净水技术, 2013, 32(5): 22-25.
[73] 张小妮, 王文东, 乔子霞, 周礼川, 王洪平, 丁真真. 供水管道中含铝管垢的形成机理及其结构组成. 净水技术, 2013, 32(4): 1-4.
[74] 刘锐, 范举红, 王文东, 蔡强, 李荧, 陈吕军. 物化预处理工艺在制药废水强化生物处理中的应用. 净水技术, 2010, 29(6):46-50.
[75] 方亚曼, 范举红, 刘锐, 王文东, 李荧, 陈吕军. 铁- 炭微电解技术强化制药废水处理效果. 净水技术, 2011, 30(1): 29-32.
[76] 王文东 ; 张小妮; 杨钊; 王晓昌; 丁真真; 李荧, 淀粉-碘化镉法测定水中聚丙烯酰胺含量探讨 , 净水技术, 2010, 29(5): 33~35
[77] 王文东 ; 张小妮; 王晓昌; 刘锐; 丁真真, 人工湿地处理农村分散式污水的应用 , 净水技术, 2010, 29(5): 17~21
[78] 王文东, 杨宏伟, 蒋晶, 王晓昌. 天然水体中铝形态分析方法研究进展. 净水技术, 2009, 28(6):8-12,29.
[79] 王文东, 杨宏伟, 祝万鹏, 蒋展鹏. 给水系统中铝迁移转化研究进展. 净水技术, 2007, 26(4): 8-11.
[80] 杨宏伟, 王文东, 赵华章, 蒋展鹏. 过滤过程中铝形态的变化规律. 中国给水排水, 2006, 22(z1): 446-450.
[81] 王文东, 李华, 王晓昌, 丁真真, 刘锐. 高溶解性有机物浓度下出厂水残铝浓度控制措施研究. 第十届全国水处理化学大会暨海峡两岸水处理化学研讨会论文集. 2010年8月8, 哈尔滨.
[82] 杨宏伟, 赵华章, 王文东, 蒋展鹏. 铝形态对铝吸收和脂质过氧化反应的影响. 第三届全国环境化学学术大会论文集, 2006, V118-V119.

发明专利
[1] 王文东,马翠,韩雨,王晓昌.一种人工湿地基质集成化装填和铺设方法, 2016.5.4,中国, ZL9.9
[2] 王文东,马翠,常妮妮,冯佩,王晓昌.一种集成化生物接触装置 , 2016.4.27,中国,ZL5.7
[3] 王文东,马翠,韩雨,王晓昌.一种模块化人工湿地水封性与水流均匀性控制方法 , 2016.3.16,中国, ZL6.8
[4] 王文东,张轲,常妮妮,王晓昌.一种测定水体富营养化驱动力因子的实验装置, 2014.12.19,中国,ZL5.6
[5] 王文东,张轲,常妮妮,王晓昌.一种测定水体富营养化驱动力因子的实验方法, 2014.12.19,中国,ZL7.0
[6] 王文东,范庆海,郑丹,刘国旗,岳强.一种混凝实验装置,2014.12.10, 中国,ZL9.1
[7] 王文东,张银婷,范庆海,宋珊,卜龙利,杨琴.一种新型滤料及其制备方法, 2014.12.8,中国,ZL8.7
[8] 杨琴,杨永利,李丹,王文东,江元汝,葛曼,李晓莉,姜瑛.磁性瓜环的制备及其去除饮用水源水中HA类污染物的应用, 2011.12.19, 中国, ZL7.X
[9] 王文东,周礼川,王洪平,刘海楠,卜龙利.一种人工湿地球形陶粒基质及其制备方法, 2011.10.17, 中国, ZL8.3
[10] 王文东,刘海楠,王洪平,周礼川,卜龙利.一种人工湿地污水处理装置, 2011.10.16,中国,ZL5.3
[11] 王文东,余春育,白居蓉.一种拜耳石的制备方法,2018.02.01, 6.0
[12] 王文东,余春育,白居蓉.一种快速制备拜耳石的方法,2018.02.01, 1.1
[13] 王文东,余春育,白居蓉.一种三水铝石的制备方法,2018.02.01, 4.2
[14] 王文东,白居蓉,余春育.一种制备铜铝水滑石的方法,2018.02.01, 1.7
[15] 杨生炯,陈晓恬,王晓昌,金鹏康,张琼华,王文东. 一种镧改性氧化石墨烯，磷酸盐离子格栅及制备方法,2017.09.02, 2.3
[16] 葛碧洲,金鹏康,王文东,马心琪,刘雪峰,宋飞扬,葛畅.一种适用于分散式水处理的太阳能曝气反应装置,2017.06.13, 3.X

团队组成 - 王文东课题组成员

毕业生信息

招生信息 - 王文东基本信息

王文东、男、西安交通大学教授/博士生导师，美国宾州州立大学首府学院访问****，我国勘察设计行业注册环境保护工程师、注册公用设备工程师（给水排水）、陕西省青年科技新星、陕西省中小企业首席工程师、国际水协会中国青年委员会委员、饮用水强化净化与安全保障研究团队带头人。多年从事微污染水强化净化与水质安全保障领域的研究，在微污染水净化材料与设备研发，以及污染物在水质净化和输配过程中的转移转化规律等方面取得了有影响力的成果。先后主持包括国家重大水专项和国家自然科学基金在内的国家级和省部级科研项目10余项，科研经费合同额合计1800万左右；作为第一完成人获2014年陕西省科技进步三等奖和陕西省高等学校科技进步二等奖各1项。基于上述研究工作，发表学术论文100余篇，其中SCI期刊收录论文40余篇。主编、参编著作/教材4部，已授权国家发明专利10项。

招生信息
硕士研究生招生信息

083001环境科学

02环境动力机制

王文东
初试
复试

101思想政治理论
参大气污染控制和水污染控制二选一，参考书目：《环境化学》（第一版）高等教育出版社 1997年戴树桂、《大气污染控制工程》（第二部版）高等教育出版社、郝吉明《水污染控制工程》第二版冶金工业出版社张希衡

201英语一

302数学二

805工程热力学或807环境学或813传热学或843流体力学

博士研究生招生信息

99J2地球与人居环境科学及工程

王文东
初试
复试

1101英语
具体招生办法见博士招生简章

2801综合能力

3901综合能力

English - 王文东Basic Information

Dr.Wangisaprofessor/doctoralsupervisoratXi'anJiaotongUniversity,registeredenvironmentalprotection engineer,registeredutilityengineer(watersupply&drainage),memberofShaanxiprovinceyouthscienceandtechnologynewstar,chiefengineerofShaanxismallandmediumenterprises,memberofInternationalWaterAssociationChinaYouthCommittee,andteamleaderoftheenhanceddrinkingwaterpurificationandqualityassurance.Hismainareaofresearchisonmicro-pollutedwaterpurificationandqualityassuranceandhasaccomplishedsubstantialcontributionintheinnovativedevelopmentofmicro-pollutedwaterpurificationmaterialsandequipment,aswellaspollutantstransferandtransformationcharacteristicsduringwaterpurificationanddistributionprocesses.Dr.WanghostsmorethantennationalandprovincialresearchprojectsincludingthosefundedbytheNationalWaterPollutionControlandTreatmentMajorProject,andNationalNaturalScienceFoundationof China,withresearchfundingapproximately9,000,000RMB.Basedontheaboveresearchwork,wehavepublishedover100articles,ofwhichmorethan40areinSCI-indexedjournals.

Education & Work experience
Education experience
? Sep 2004 – Sep 2008 Tsinghua University, PhD, Environmental Science and Engineering, Beijing, China
? Sep 2000 – Jul 2004 Harbin Institute of Technology, BSc, Water Supply and DrainageHarbin, China
Work experience
?Jun 2018-present, Professor (Full), Xi'an Jiaotong University, Department of Environment Science andTechnology, Xi'an, China
? May 2016-Nov 2017, Professor (Associate), International Science & Technology Cooperation Center for Urban Alternative Water
Resources Development, Xi'an, China
? Aug 2012 – Jul 2013, Visiting Professor, Pennsylvania State University, Environmental Engineering Middletown, United States
? Jan 2009 –May 2018, Professor (Associate), Department of Environment and Civil Engineering, Xi'an University of Architechture
and Technology, Xi'an, China

Major achievements
The main innovative achievements include:
Discovered the ability of solar radiation to promote the aggregation of organic materials, elucidated their molecular structure and the mechanisms by which their physiochemical properties change under light irradiation, and developed a micro-polluted water coagulation device based on the above theory. Compared with the traditional coagulation unit, the device achieves an additional 30% removal of humic acid and 20% additional removal of Chlorella, with competitive application potential;
Developed a novel coagulation reagent (CB), filter material (LCFM) , and bio-settlement equipment to achieve the simultaneous removal of organic matter and nutrients from micro-polluted water;
Revealed aluminum residue deposition and release characteristics in pipe networks, due to the usage of aluminum-based coagulates, and its influence on the transfer and transformation of heavy metals and other pollutions in the process of drinking water distribution. The above inventions have been adopted by many local waterworks and reported by the Scientific Chinese magazine, providing critical support for the purification and distribution of micro-polluted water.

Published papers
[1] Hui Zhang, Xue Zhou, Kai Wang, Wendong Wang: Development of a software tool for teaching real-time state simulation of water distribution networks. Computer Applications in Engineering Education 05/2018; DOI:10.1002/cae.21909
[2] Hui Zhang, Xue Zhou, Luobin Wang, Wendong Wang, Jinlan Xu: Concentrations and potential health risks of strontium in drinking water from Xi'an, Northwest China. Ecotoxicology and Environmental Safety 11/2018; 164:181-188., DOI:10.1016/j.ecoenv.2018.08.017
[3] Hui Zhang, Kai Wang, Xue Zhou, Weihuang Zhu, Wendong Wang: Water quality characteristics and corrosion potential in blending zones in X city drinking water distribution system. Environmental Monitoring and Assessment 09/2018; 190(9):524.
[4] Hui Zhang, Shan Chang, Luobin Wang, Wendong Wang: Estimating and comparing the cancer risks from THMs and low-level arsenic in drinking water based on disability-adjusted life years. Water Research 08/2018; DOI:10.1016/j.watres.2018.08.012
[5] Shengjiong Yang, Xiaojie Qiu, Pengkang Jin, Mawuli Dzakpasu, Xiaochang C Wang, Qionghua Zhang, Lu Zhang, Lei Yang, Dahu Ding, Wendong Wang, Kun Wu: MOF-templated synthesis of CoFe2O4 nanocrystals and its coupling with peroxymonosulfate for degradation of bisphenol A. The Chemical Engineering Journal 07/2018; 353:329-339.
[6] Ge Gao, Lujie Nie, Shengjiong Yang, Penkang Jin, Rongzhi Chen, Dahu Ding, Xiaochang C. Wang, Wendong Wang, Kun Wu, Qionghua Zhang: Well-Defined Strategy for Development of Adsorbent Using Metal Organic Frameworks (MOF) Template for High Performance Removal of Hexavalent Chromium. Applied Surface Science 06/2018; 457., DOI:10.1016/j.apsusc.2018.06.278
[7] Hui Zhang, Kai Wang, Xue Zhou, Wendong Wang: Using DFP algorithm for nodal demand estimation of water distribution networks. KSCE Journal of Civil Engineering 02/2018; DOI:10.1007/s12205-018-0176-6
[8] Jun feng Su, Ting ting Lian, Ting lin Huang, Dong hui Liang, Wen dong Wang: Simultaneous removal of Fe³⁺ and nitrate in the autotrophic denitrification immobilized systems. Water Science & Technology Water Supply 11/2017; DOI:10.2166/ws.2017.186
[9] Kun Wu, Jin Zhang, Bing Chang, Ting Liu, Furong Zhang, Pengkang Jin, Wendong Wang, Xiaochang Wang: Removal of arsenic(III,V) by a granular Mn-oxide-doped Al oxide adsorbent: surface characterization and performance. Environmental Science and Pollution Research 06/2017; DOI:10.1007/s11356-017-9465-8
[10] Jun feng Su, Dong hui Liang, Ting lin Huang, Ting ting Lian, Wen dong Wang: Mixed electron donors autotrophic denitrification processes for groundwater treatment by immobilized biological filter. Water Science & Technology Water Supply 04/2017; DOI:10.2166/ws.2017.049
[11] Wendong Wang, Yu Han, Hui Liu, Ke Zhang Qiang Yue, Longli Bo, Xiaochang Wang. Pollutant removal performance of an integrated upflow-constructed wetland filled with haydites made of Al-based drinking water treatment residuals. Environmental Technology, 2017, 38(9): 1111-1119.
[12] Junfeng Su, Tingting Lian, Tinglin Huang, Donghui Liang, Li Wei, Wendong Wang. Microbial community analysis of simultaneous ammonium removal and Fe³⁺ reduction at different influent ammonium concentrations. Bioprocess and Biosystems Engineering, 2017, 40(10): 1555-1563.
[13] H. Zhang, X. Zhou, K. Wang, W.D. Wang. Health risk assessment of arsenic from blended water in distribution systems. Journal of Environmental Science and Health. Part A, Toxic/hazardous Substances & Environmental Engineering, 2017, 52(14): 1322-1329.
[14] Wendong Wang, Pei Feng, Qin Yang, Wen Wang, Xiaochang Wang. Effects of sodium, magnesium, and calcium salts on the coagulation performance of cucurbit[8]uril for humic acid removal from synthetic seawater. Desalination, 2016, 386: 77-83.
[15] Wendong Wang, Cui Ma, Yinting Zhang, Shengjiong Yang, Yue Shao, Xiaochang Wang. Phosphate adsorption performance of a novel filter substrate made from drinking water treatment residuals. Journal of Environmental Sciences, 2016, 45: 191-199.
[16] W. D. Wang, M. Esparra, H. Liu, Y. F. Xie. Application of forward osmosis in reusing the brackish concentrate produced in reverse osmosis plants with secondary treated wastewater as feed solution: a case study. Journal of Water Reuse and Desalination, 2016, 6(4): 533-543.
[17] Wendong Wang, Shan Song, Zixia Qiao, Qin Yang, Mengmeng Wang, Lichuan Zhou, Hongping Wang, Ruiguang Guo, Xuejun Sun, Ying Hua. Evaluation on the rural drinking water quality in a centralized supplied area of China. Environmental Engineering and Management Journal, 2016, 15(2): 435-442.
[18] Wendong Wang, Xiaogang Wang, Lichuan Zhou, Hongbin Liu, Zhenzhen Ding, Yuting Liang. Wastewater treatment in a constructed wetland followed by an oxidation pond in a rural area of China. Environmental Engineering and Management Journal, 2016, 15(1): 199-205.
[19] Wendong Wang, Qinghai Fan, Zixia Qiao, Qin Yang, Yabo Wang, Xiaochang Wang. Effects of water quality on the coagulation performances of humic acids irradiated with UV light. Frontiers of Environmental Science and Engineering, 9(6), 2015, 9(1): 147-154
[20] Wendong Wang, Lichuan Zhou, Zhenzhen Ding, Hongping Wang, Xiaoni Zhang, Xiaochang Wang, Xuejun Sun, Ying Hua. Study on the adsorption of Cu²⁺, Cd²⁺, and Pb²⁺ on amorphous Al(OH)₃ scale formed in drinking water distribution systems. Environmental Engineering and Management Journal, 2015, 14(12): 2829-2835.
[21] Wendong Wang, Yinting Zhang, Mariem Esparra, Xiaomao Wang, Hongwei Yang, Yuefeng Xie. Effects of pH and temperature on forward osmosis membrane flux using rainwater as the makeup for cooling water dilution. Desalination, 2014, 351: 70-76.
[22] Wendong Wang, Wen Wang, Qinghai Fan, Yabo Wang, Zixia Qiao, Xiaochang Wang. Effects of UV radiation on humic acid coagulation characteristics in drinking water treatment processes. Chemical Engineering Journal, 2014, 256: 137-143.
[23] Wendong Wang, Shan Song, Xiaoni Zhang, J. Mitchell Spear, Xiaochang Wang, Wen Wang, Zhenzhen Ding, Zixia Qiao. Effects of Ni²⁺ on aluminum hydroxide scale formation and transformation on a simulated drinking water distribution system. Chemosphere 2014, 107: 211-217.
[24] Wang W. D. , Zhang X. N., Wang X. C., Zhou L. C., Liu R., Liang Y. T. Laboratory study on the adsorption of Mn²⁺ on suspended and deposited amorphous Al(OH)₃ in drinking water distribution systems. Water Research, 2012, 46(13), 4063-4070.
[25] Wang W. D. , Li H., Wang X. C., Ding Z. Z. Effects of humic acid on residual aluminum control in drinking water treatment plants with orthophosphate addition. Frontiers of Environmental Science and Engineering in China, 2012, 6(4), 470-476.
[26] Wang W. D. , Yang H. W., Wang X. C., Ding Z. Z., Zhu W. P. Aluminum speciation in drinking water distribution system: a case study in China. Korean Journal of Chemical Engineering, 2011, 28(5), 1227-1232.
[27] Wang W. D. , Li H., Wang X. C., Ding Z. Z. Effects of advanced oxidation pretreatment on residual aluminum control in high humic acid water purification. Journal of Environmental Sciences, 2011, 23(7), 1079-1085.
[28] Wang W. D. , Yang H. W. , Wang X. C., Jiang J., Zhu W. P. Reaction mechanism of fuvic acid with aluminum in natural water. Journal of Environmental Sciences, 2010, 22(2), 211-217.
[29] Wang W. D., Yang H. W. , Wang X. C., Jiang J., Zhu W. P. Factors effecting aluminum speciation in drinking water by laboratory research. Journal of Environmental Sciences, 2010, 22(1), 47-55.
[30] Wang W. D. , Li H., Wang X. C., Liu Y. J. Spatial variations of aluminum species in drinking water supplies in Xi’an studied applying geographic information system (GIS). Journal of Environmental Sciences, 2010, 22(4), 519-525.
[31] Wang W. D. , Yang H. W., Zhao H. Z., Jiang Z. P. Transfer and transport of aluminum in filtration unit. Journal of Environmental Sciences, 2007, 19(8): 897-901.
[32] WANG Wen-Dong, YANG Hong-Wei, JIANG Jing, ZHU Wan-Peng, JIANG Zhan-Peng. Reaction Mechanism of Soluble Silicic Acid with Aluminum in Natural Water. ACTA CHIMICA SINICA, 2008, 66(23): 2625-2630.
[33] YANG Qin, YANG Yong-li, WANG Wen-dong, MENG Xiao-rong, JIANG Yuan-ru. Study on the removal of model compound of humic acid by cucurbiturils. Journal of Functional Materials, 2013, 44(5): 685-688.
[34] Yang Q., Yang Y. L., Wang W. D. , Ge M., Li D. The influence factor of removal humic acid from wastewater using cucurbiturils. Advanced Material Research, 413, 217-222, 2012.
[35] DING Zhenzhen, WANG Wenke, YANG Hongbin, WANG Wendong. Environmental Supervision for Campus Wastewater Treatment and Reuse. In Proceedings 2011 International Symposium on Water Resource and Environmental Protection, May 20-22, 2011, Xi’an, China. pp. 2816-2819.
[36] YANG Qin, YANG Yong-li, WANG Wen-dong, XING Yuan-qing, LI Dan. Study on β-cyclodextrin and metal phthalocyanine effects of functional assembly. Journal of Functional Materials, 2011, 42(7), 1293-1296.
[37] Rui LIU, Juhong FAN, Wen-dong WANG, Chun-fang MU, Qiang CAI, Lv-jun CHEN, Xia Huang, Takashi KAMEYA, Takeshi Kobayashi. Research on biodegradability and biotoxicity of wastewater from vitamin-A manufacturing process. Proceeding of Water and Environment Technology Conference 2010, 2010.6, Yokohama, Japan.
[38] Qin Yang ; Yongli Yang; ; Man Ge; Dan Li, Wendong Wang, The Influence Factor of Removal Humic Acid from Wastewater Using Cucurbiturils , 2^nd International Conference on Materials Science and Engineering Application, ICMSEA 2012, Xian, P.R. China, 2012.12.16-2012.12.17

Patents & Books
Patents
[1] Wendong Wang, Nini Chang, Xiaochang C Wang: An integrated biological contact oxidation device. Year: 12/2017
[2] Wendong Wang: A novel filtration material and its preparation method. Year: 12/2015
[3] Wendong Wang, Nini Chang, Xiaochang C Wang: An eutrophication driving force determination method. Year: 12/2014
[4] Wendong Wang, Nini Chang, Xiaochang C Wang: An experimental device used for eutrophication driving force determination. Year: 12/2014
[5] Wendong Wang, Guoqi Liu: A novel coagulation experiment device. Year: 12/2014
[6] Wendong Wang, Hainan Liu, Longi Bo: A novel constructed wetland substrate and its preparation method. Year: 04/2013
[7] Wendong Wang: A constructed wetland sewage treatment equipment. Year: 04/2013
[8] Wendong Wang, Yuanru Jiang, Xiaoli Li, Ying Jiang: Preparation of magnetic melon ring and its application in the removal of HA from source waters. Year: 04/2013
Books
[1] Wendong Wang, Hui Zhang: Industrial Water and Wastewater Treatment Technology. 08/2017; China Architecture and Building Press., ISBN: 987-7-112-20922-4
[2] Xiaochang C. Wang, Pengkang Jin, Yongjun Liu, Wendong Wang: Coagulation mechanism of auqa colloidal pollutants and application. 06/2015; Science Press., ISBN: 987-7-03-043329-9
[3] Wendong Wang: Biological technologies used in domestic wastewater treatment. 08/2014; Chemical Industry Press., ISBN: 978-7-122-20752-4
[4] Junfeng Su, Wendong Wang: Environmental Microbiology. 1st edited by Meiling Wang, 10/2013; China Architecture & Building Press., ISBN: 53

Awards
[1] Dec 2014 Shaanxi science and Technology Third-Grade Award
[2] Aug 2014 Registered Water Supply and Drainage Engineer (RWSDE)
[3] Jun 2014 Shaanxi Province Youth Science and technology new star
[4] Oct 2012 Registered Environmental Protection Engineer (REPE)

Contact
Tel：+8629-8339-5128;+86-135-7254-7081
Email:wdwang@xjtu.edu.cn/wendong_wang@qq.com
Website:http://gr.xjtu.edu.cn/web/wdwang
Address:99YataRoad,Xi'an710054,ShaanxiProvince,China