個人簡介
上海交通大學環境科學與工程學院執行院長、教授,博士生導師。 生態與地下環境研究所所長, 中國科學院1997年“百人計畫”入選者,陝西省1997年“三五人才”入選者。國家海洋局海洋赤潮災害立體監測技術與套用重點實驗室學術委員會委員,國際水文地質學家協會會員(IAH), 國際環境水文家協會會員(IAEH),《地球科學進展》編委,上海市學位委員會第四屆學科評議組成員,上海市城鄉建設與交通第七屆科技委員會委員,上海市2007-2008年,2009-2010年科技預見專家,上海市環境科學學會理事、副秘書長,上海市閔行區環境科學學會理事長。上海交通大學學術委員會委員,學位委員會委員,上海交通大學環境科學與工程學院分學位委員會主席。中國環境科學學會土壤與地下水專業委員會委員。
主要事跡
1982年畢業於吉林大學;1988年長安大學獲理學碩士學位; 1992年長安大學獲理學博士學位;1995年3月成都理工大學博士後出站,1995年7月評為教授,1996年11月被原機械工業部批准為博士生導師,1995年8月-2004年1月在西安理工大學任教授,1998-2004年中國科學院寒區旱區環境與工程研究所 研究員,博士生導師,(“百人計畫”入選者)。指導畢業碩士生 12名,畢業博士生17名,指導的博士生柴軍瑞獲2003年陝西省優秀博士論文。
主要成就
出版專著5部,發表學術論文200餘篇,獲省級獎4項。
研究方向
(1)流域水資源與水環境模擬;
(2)土壤與地下水污染修復;
(3)海洋環境;
(4)岩土水力學與地質環境;
(5)生態地下水文學;
(6)同位素水文學
代表性論著
1. 仵彥卿,張應華,溫小虎,蘇建平,中國西北黑河流域水文循環與水資源模擬,科學出版社,2010年1月
2. 仵彥卿, 岩土水力學,科學出版社,2009年4月
3. 仵彥卿, 多孔介質污染物遷移動力學,上海交通大學出版社,2007年2月
4. 仵彥卿、張倬元, 岩體水力學導論, 西南交通大學出版社, 1995年
5. 仵彥卿、李俊亭、張倬元, 地下水動態觀測網的最佳化設計, 成都科技大學出版社, 1993年
6. Wu Yanqing, Mechanism analysis of hazards caused by the interaction between groundwater and geo-environment, Environmental Geology,2003,44:811–819
7. Wu Yanqing,Optimal design of groundwater monitoring network in Daqing, China, Environmental Geology,2004, 45(4):527-535
8. Wu Yanqing, X Wen, Y Zhang,Analysis of the exchange of groundwater and river water by using Radon-222 in the middle Heihe Basin of northwestern China,Environmental Geology, 2004,45:647–653
9. Wu Yanqing, Parameter identification of a leakage aquifer system in Daqing region of China using model of coupled FEM and Kalman filter, COMMUNICATIONS IN NUMERICAL METHODS IN ENGINEERING, 2005,21:675-690
10. Changwen Ma, Yanqing Wu(通訊作者),Chengxin Sun, Leonora Lee, Adsorption characteristics of perchloroethylene in natural sandy materials with low organic carbon content, Environmental Geology, 2007, 52(8): 1511-1519
11. XH Wen, YQ Wu, LJE Lee, JP Su, Groundwater flow modeling in the Zhangye Basin, Northwestern China, Environmental Geology, 2007, 53(1): 77-84
12. Jun Wu, Yanqing Wu(通訊作者), Jian Lu, Leonora Lee, Field investigations and laboratory simulation of clogging in Lixi tailings dam of Jinduicheng, China, Environmental Geology, 2007, 53(2): 387-397
13. Jun Wu,Yanqing Wu(通訊作者), Jian Lu, Laboratory study of the clogging process and factors affecting clogging in a tailings dam, Environmental Geology,2008,54(5): 1067-1074
14. Changwen Ma, Yanqing Wu(通訊作者), Dechlorination of perchloroethylene using zero-valent metal and microbial community, Environmental Geology,2008,55(1):47-54
15. Qiang An,Yanqing Wu(通訊作者),Shauna Taylor Bin Zhao, Influence of the Three Gorges Project on saltwater intrusion in the Yangtze River Estuary, Environmental Geology,2009,56:1679–1686
16. X H Wen, Y Q Wu and J Wu,Hydrochemical characteristics of groundwater in the Zhangye Basin, Northwestern China,Environmental Geology,2008,55(8):1713-1724
17.Qiang An, Yanqing Wu(通訊作者),Jinhui Wang,Zhien Li,Heavy metals and polychlorinated biphenyls in sediments of the Yangtze river estuary, China,Environ Earth Sci., 2009.11,59(2):363-370,DOI 10.1007/s12665-009-0034-4
18. Qiang An, Yanqing Wu(通訊作者),Jinhui Wang,Zhien Li,Assessment of dissolved heavy metal in the Yangtze River estuary and its adjacent sea, China,Environ Monit Assess.,DOI 10.1007/sz,2010,164:173-187
19. Y. H. Zhang,X. F. Song,Y. Q. Wu,Use of oxygen-18 isotope to quantify flows in the upriver,and middle reaches of the Heihe River, Northwestern China,Environmental Geology,2009.08,58(3):645-653
20. Yonghua Zhu , Liliang Ren, Todd H. Skaggs, Haishen Lü, Zhongbo Yu, Yanqing Wu, Xiuqin Fang. Simulation of Populus euphratica root uptake of groundwater in an arid woodland of the Ejina Basin, China. Hydrological Processes, 23(17):2460-2469,2009
21. Yanqing Wu, Changwen Ma,Remediation technology of groundwater contaminated by perchloroethylene,Int. J. Environment and Pollution, Vol. 45, Nos. 1/2/3, 2011:176-185
22. Xu Zengguang, Wu Yanqing, Wu Jun, Zhong Xiaoqing, A model of seepage field in the tailings dam considering the chemical clogging process, Advances in Engineering Software, 42(2011):426-434
23. Fei Yu, Jie Ma and Yanqing Wu,Adsorption of toluene, ethylbenzene and xylene isomers on multi-walled carbon nanotubes oxidized by different concentration of NaOCl,Frontiers of Environmental Science & Engineering in China,DOI: 10.1007/s11783-011-0340-4