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王文东  
研究领域(方向)

1.        新兴污染物在环境中的迁移、转化与强化净化理论

2.        新型水处理技术、药剂/材料与装备研发与评价

个人及工作简历

2018.01-至今:教授,西安交通大学,人居学院,地球环境科学系

2015.01-至今:教授(兼职),清华长三角研究院,生态环境研究所

2012.08-2013.07:访问学者,美国宾州州立大学,首府学院

2010.10-2017.12:副教授,西安建筑科技大学,环境与市政工程学院

2009.01-2010.09:讲师,西安建筑科技大学,环境与市政工程学院

科研项目

1.    陕西新型城镇化建设重点研究项目:黄土高原丘陵沟壑区新型城镇化建设问题分析与对策——以榆林市子洲县为例(20CZ-39)

2.    自然资源部土地工程技术中心开放基金重点项目:污染土地挥发性有机组分热解吸与无机盐分淋滤回收技术研究

3.    煤制乙二醇工艺污水零排放关键技术研发及其工程示范化应用研究(YF-2020-007)

4.    “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(2017ZX0740100304)

5.    “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(2013ZX0731000101)

6.    “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(2012ZX0730800108)

7.    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(51578440)

8.    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(21007050)

9.    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(51208415)

10.    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(2016KTCG-17)

11.    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(2014KJXX-66)

12.    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(20106120120014)

13.    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(6040300550)

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(2015-2016)(SCSC&R201500672)

15.    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)(SCSL1C201600573)

16.    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)(SCSC&R201700635)

17.    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)(SCSSVS201801223)

18.    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(2019-2020)(SCSC&R201900582)

19.    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(2020-2021)(SCS-OT-202000795)

20.    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(SCSSVS201600593)

21.   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(201806104)

22.   政府咨询服务项目:西安市航空基地污染源调查、污染源现场监测第三方服务(201911026)

学术及科研成果、专利、论文

一、发表学术论文

[1]  Jin Li, Chao He, Tian Tian, Zongkuan Liu, Zhaolin Gu, Guan Zhang, Wendong Wang. UASB-modified Bardenpho process for enhancing bio-treatment efficiency of leachate from a municipal solid waste incineration plant. Waste Management, 02/2020, 102:97-105, DOI:https://doi.org/10.1016/j.wasman.2019.10.028

[2]  Jin Chen, Huiqi Zheng, Yang Zhao, Meidan Que, Wendong Wang, Xiping Lei. Morphology and photocatalytic activity of TiO2/MXene composites by in-situ solvothermal method, Ceramics International, 08/2020, 46(12):20088-96. DOI:10.1016/j.ceramint.2020.05.083

[3]  Kun Wu, Yang Li, Ting Liu, Qinbin Huang, Shengjiong Yang, Wendong Wang, Pengkang Jin. The simultaneous adsorption of nitrate and phosphate by an organic-modified aluminum-manganese bimetal oxide: Adsorption properties and mechanisms, Applied Surface Science,06/2019,478:539-551

[4]  Wendong Wang, Yuefeng Xie, H. Larry Tang. The haloacetic acid leap in effluent of a biologically active carbon filter experiencing a disinfectant switch, Chemosphere, 04/2020,244:125435.DOI: 10.1016/j.chemosphere.2019.125435

[5]  Po-Hsiang Chang, Wei-The Jiang, Binoy Sarkar, Wendong Wang* Zhaohui Li. The Triple Mechanisms of Atenolol Adsorption on Ca-Montmorillonite: Implication in Pharmaceutical Wastewater Treatment, Materials, 09/2019, 12(18):2858. DOI: 10.3390/ma12182858

[6]  Kun Wu, Chunyang Jing, Jin Zhang, Ting Liu, Shengjiong Yang, Wendong Wang. Magnetic Fe3O4@CuO nanocomposite assembled o Magnetic Fe3O4@CuO nanocomposite assembled on graphene oxide sheets for the enhanced removal of arsenic(III/V) from water n graphene oxide sheets for the enhanced removal of arsenic(III/V) from water, Applied Surface Science, 10/2018, 746-756. DOI:10.1016/j.apsusc.2018.10.091

[7]  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, 11/2018, 145:83-93.

[8]  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. 2018, 190:524. DOI: 10.1007/s10661-018-6901-2

[9]  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

[10]    Kun Wu, Yang Li, Ting Liu, Nan Zhang, Meng Wang, Shengjiong Yang, Wendong Wang, Pengkang Jin. Evaluation of the adsorption of ammonium-nitrogen and phosphate on a granular composite adsorbent derived from zeolite, Environmental Science and Pollution Research, 04/2019, 26:17632-17643, DOI: 10.1007/s11356-019-05069-2

[11]    Zixia Qiao, Yaoguo Wu, Jin Qian, Sihai Hu, Jiangwei Chan, Xiaoyan Liu, Ran Sun, Wendong Wang, Bo Zhou. A lab-scale study on heterotrophic nitrification-aerobic denitrification for nitrogen control in aquatic ecosystem, Environmental Science and Pollution Research, 01/2020, 27:9307-9317, DOI: 10.1007/s11356-019-07551-3

[12]    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, Chemical Engineering Journal, 12/2018, 353:329-339, DOI: 10.1016/j.cej.2018.07.105

[13]    Wendong Wang, Zhiwen Chen, Qin Yang, Mawuli Dzakpasu. Coagulation performance of cucurbit[8]uril for the removal of azo dyes: Effect of solution chemistry and coagulant dose. Water Science and Technology, 2018.

[14]    Ge Gao, Lujie Nie, Shengjiong Yang, Pengkang Jin, Rongzhi Chen, Dahu Ding, Xiaochang 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. DOI: 10.1016/j.apsusc.2018.06.278

[15]    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

[16]    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

[17]    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

[18]    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

[19]    Junfeng Su, Donghui Liang, Tinglin Huang, Tingting Lian, Wendong 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

[20] 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.

[21] 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.

[22] 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.

[23] 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.

[24] 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.

[25] 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.

[26] 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.

[27] 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.

[28] 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

[29] 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.

[30] 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.

[31] 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.

[32] 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.

[33] 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.

[34] 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.

[35] 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.

[36] 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.

[37] 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.

[38] 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.

[39] 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.

[40] 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.

[41] 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.

[42] 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.

[43] 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.

[44] 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.

[45] 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.

二、出版学术著作

[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 高湘. 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.

三、授权专利

[1]        王文东, 马翠, 冯佩, 王晓昌. 一种模块化人工湿地污水处理装置, 2018.7.11, 中国, ZL201510963438.4

[2]        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, ZL201510963439.9

[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, ZL201510963536.8

[4]      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, ZL201610060045.7

[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装置, 2014.12.19, 中国, ZL201410802975.6

[6]      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, ZL201410799237.0

[7]      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, ZL201420332869.1

[8]      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, ZL201410745608.7

[9]      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, ZL201110442417.X

[10]   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, ZL201110313868.3

[11]   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, ZL201110312695.3

联系方式
电子邮箱:wdwang@xjtu.edu.cn
联系电话:13572547081/18066769125
联系地址:陕西省西安市中国西部科技创新港泓润楼3026/3027
更新日期:2021-01-20