代朝猛 教授
职称：教授 学位：博士 简介：博士生导师、副系主任（主持工作） 联系地址：上海市四平路1239号 联系电话：02165982531 E-mail：daichaomeng@tongji.edu.cn
最新信息地址：https://hydraulic.tongji.edu.cn/info/1021/1535.htm
主要研究方向
地下水安全保障理论与技术：地下水中污染物迁移转化规律及模拟、新型环境功能材料在地下水安全修复中的应用、水动力智能模拟与计算。

主要从事滨海区域地下水渗流数值模拟、滨海区域地下水污染物活性运移及模拟、新型环境功能材料在地下水污染修复中的应用、水动力智能模拟与计算等研究。在国内外核心期刊上发表论文150余篇，其中SCI收录100余篇。主编专著2部，参编专著1部。授权国家专利29项。担任期刊Jacobs Journal of Hydrology编委、期刊《南水北调与水利科技（中英文）》编委、中国可持续发展研究会理事、中国水利学会青年科技工作委员会委员、上海海洋湖沼学会理事、中国大坝工程学会数值模拟专业委员会委员、十二五技部科技规划纲要城镇化与城市发展领域专题评估组成员、上海市水利学会专业委员会委员等。主持国家重点研发计划重点专项项目、国家自然科学基金项目、科技部科学家交流计划项目等多项国家级项目。获上海市技术发明一等奖2项（R4、R9）、上海市科技进步一等奖1项（R9）、上海海洋技术发明一等奖1项（R1）、全国水利类专业青年教师讲课竞赛二等奖1项、同济大学青年英才计划-优青计划等。
教育经历

2007/09–2011/01，同济大学，环境科学与工程学院，博士

2008/09–2010/10，德国柏林工业大学，环境过程工程系，联合培养博士

2004/09–2007/06，郑州大学，水利与环境学院，硕士

2000/09–2004/06，河南工业大学，化学化工学院，学士
工作经历

2016年7月-8月在澳大利亚墨尔本大学做访问学者

2014年6月-7月在新西兰奥克兰大学做访问学者

2011年1月-至今在同济大学土木工程学院水利工程系师资博士后、讲师、副教授、教授
学术兼职

[1] 中国可持续发展研究会理事

[2] 中国水利学会青年科技工作委员会委员

[3] 中国大坝工程学会数值模拟专业委员会委员

[4] 上海市海洋湖沼学会理事

[5] 上海市水利学会水资源专业委员会委员

[6] Jacobs Journal of Hydrology编委（USA）

[7] 中文核心期刊《南水北调与水利科技（中英文）》编委

[8] 科技部十二五科技规划纲要城镇化与城市发展领域专题评估组成员

[9] 上海市水利学会水环境专业委员会委员

[10] 同济大学土木工程学科学位评定分委会委员
代表性科研项目

[1] 国家重点研发计划重点专项项目，滨海区域低渗透区地下水中多环芳烃污染原位强化增溶-活化过硫酸盐氧化耦合靶向修复技术研究，2020.12-2023.11，主持；

[2] 国家自然科学基金面上项目，微流体作用下MNBs强化微生物修复页岩油井深层地下水石油烃污染的机理研究，2023.01-2026.12，主持；

[3] 国家自然科学基金面上项目，羰基化生物炭@MIP活化过氧乙酸靶向修复地下水中典型PhACs污染的机理研究，2021.01-2024.12，主持；

[4] 国家自然科学基金面上项目，包气带中典型PhACs的迁移转化机理及污染修复研究，2015.01-2018.12，主持；

[5] 国家自然科学基金青年项目，地下水中典型PPCPs的赋存特征和去除技术研究。2012.01-2014.12，主持；

[6] 科技部中澳（中国-澳大利亚）青年科学家交流计划项目，地表地下水交互带变渗透系数环境下污染物的运移特征研究，2016.07-2016.08，主持；

[7] 上海市“科技创新行动计划”政府间国际合作领域项目，基于PAA的滨海区域地下水典型PPCPs污染原位修复机理及效能评估研究，2021.07-2024.06，主持；

[8] 上海市“科技创新行动计划”自然科学基金项目，近海岸区域非饱和土壤石油类污染过硫酸盐氧化修复及强化调控机制研究，2019.01-2021.12，主持；

[9] 上海市“科技创新行动计划”“一带一路”青年科学家交流项目，河口海岸区域地下水复杂条件下多环芳烃污染物的迁移转化机理研究，2019.11-2021.10，主持；

[10] 国家自然科学基金金砖国家国际合作项目，快速城镇化影响下大河流域抗性基因的演化规律及多尺度控制技术研究，2020.01-2022.12，课题1主持。
获奖荣誉

[1] 荣获上海市技术发明奖一等奖（4/13），2020；

[2] 荣获上海市科技进步奖一等奖（9/15），2021；

[3] 荣获上海市技术发明奖一等奖（9/15），2013；

[4] 荣获上海海洋技术发明一等奖（1/12），2025；

[5] 入选科技部“中澳（中国-澳大利亚）青年科学家交流计划”2016；

[6] 入选科技部“中新（中国-新西兰）科学家交流计划”2014；

[7] 荣获全国水利类专业青年教师讲课竞赛二等奖，中国水利教育协会、教育部高等学校水利类专业教学指导委员会，2020；

[8] 荣获2021年第七届全国大学生水利创新大赛一等奖，第1指导教师，2021；

[9] 荣获2023年高等学校水利类专业教学成果奖二等奖（R4）,2023;

[10] 荣获上海市重点课程建设《工程水文学》（R4），2019；

[11] 荣获同济大学青年英才计划-优青计划，2016；

[12] 荣获2021年同济大学优秀共产党员，2021；

[13] 荣获2024年同济大学教学成果奖二等奖（R8），2025；

[14] 荣获2021年同济大学教学成果奖二等奖（R3），2021；

[15] 荣获2021年同济大学本科生学科竞赛优秀指导教师奖，2022；

[16] 荣获2020年同济大学社会捐赠教育奖励金，2021；

[17] 荣获同济大学土木工程学院2023年度师德师风优秀教师，2023；

[18] 荣获2021年同济大学土木工程学院优秀共产党员，2021；

[19] 荣获2019年同济大学土木工程学院水利工程系优秀教工党员，2020；

[20] 荣获2018级同济大学新生院“我最喜爱的老师”，2019；

[21] 荣获2018级同济大学新生院“优秀班主任”，2019；

[22] 荣获2016-2017学年土木工程学院“优秀班主任”，2017。
主要论文

在国内外学术期刊上发表论文150余篇，代表性论文如下：

[1] XJ You, SG Liu,CM Dai*,GH Zhong, YPDuan*, YP Guo, Y Tu, KH Leong, F Zhou. Effects of EDTA on adsorption of Cd(II) and Pb(II) by soil minerals in low-permeability layers: batch experiments and microscopic characterization. Environmental Science and Pollution Research, 2020, 27(33), 41623-41638.

[2] XJ You, SG Liu,CM Dai*,YP Guo, GH Zhong,YP Duan*. Contaminant occurrence and migration between high- and low-permeability zones in groundwater systems: A review. Science of the Total Environment, 2020, 743: 140703.

[3] W Liang, NQ Zhou,CM Dai*,YP Duan*, Y Tu. Zero-valent iron nanoparticles and its combined process for diclofenac degradation under various experimental. Polish Journal of Environmental Studies.

[4] YR Zheng, SG Liu,CM Dai*,YP Duan, AN Makhinov, LK Hon; JTA Júnior. Study on the influence mechanism of underground mineral element Fe(II) on Cr(VI) transformation under subsurface and groundwater interaction zones, Environmental Sciences Europe, 2020, 32: 62.

[5] SS Cao, YP Duan, Y Tu, Y Tang, J Liu, WD Zhi,CM Dai*.Pharmaceuticals and personal care products in a drinking water resource of Yangtze River Delta Ecology and Greenery Integration Development Demonstration Zone in China: occurrence and human health risk assessment. Science of the Total Environment,2020,721: 137624.

[6] CM Dai, H Zhou, XJ You, YP Duan*, Y Tu, SG Liu, F Zhou, LK Hon. Silica colloids as non-carriers facilitate Pb2+ transport in saturated porous media under a weak adsorption condition: effects of Pb2+ concentrations, Environmental Science and Pollution Research, 2020, 27 (13): 15188-15197.

[7] XJ You, SG Liu,CM Dai*,GH Zhong, YP Duan*, Y Tu. Acceleration and centralization of a back-diffusion process: Effects of EDTA-2Na on cadmium migration in high- and low-permeability systems. The Science of the total environment, 2020,706: 135708.

[8] CM Dai, H Shen, YP Duan, SG Liu, F Zhou, DL Wu,GH Zhong, A Javadi, Y Tu. TiO2 and SiO2 Nanoparticles Combined with Surfactants Mitigate the Toxicity of Cd2+ to Wheat Seedlings. Water Air and Soil Pollution, 2019, 230:232.

[9] XY Zhan, C Chen, QH Wang, F Zhou, K Hayashi, XT Ju, SK Lam, YH Wang, YL Wu, J Fu, LP Zhang, SS Gao, XK Hou, Y Bo, D Zhang, KW Liu, QX Wu, RR Su, JQ Zhu, CL Yang,CM Dai, HB Liu. Improved Jayaweera-Mikkelsen model to quantify ammonia volatilization from rice paddy fields in China, Environmental Science and Pollution Research, 2019, 26(8): 8136-8147.

[10] YL Wu, Y Bo, F Zhoua, QH Tangb, M Guimberteauc, P Ciais,T Yang, SS Peng, SL Piao, JL Zheng, YJ Dong,CM Dai. Quantifying the unauthorized lake water withdrawals and their impacts on the water budget of eutrophic lake Dianchi, China. Journal of Hydrology 565 (2018) 39–48,2018.

[11] B Tan, S Liu,CM Dai*,H Zhou, Z Hui, G Zhong, H Zhang. Modelling of colloidal particle and heavy metal transfer behaviours during seawater intrusion and refreshing processes，Hydrological Processes，2017, 31(22): 3920-3931.

[12] S Liu, A Tao,CM Dai*; B Tan, H Shen, G Zhong, S Lou, S.Chalov, R Chalov. Experimental Study of Tidal Effects on Coastal Groundwater and Pollutant Migration. Water Air and Soil Pollution. 2017,288(4):163.

[13] YZ He,CM Dai*,XF Zhou*. Magnetic cobalt ferrite composite as an efficient catalyst for photocatalytic oxidation of carbamazepine，Environmental Science and Pollution Research, 2017, 24（2）:2065–2074.

[14] W Chen, YM Su, ZP Wen, YL Zhang, XF Zhou*,CM Dai*.Recovery of indium ions by nanoscale zero-valent iron. JOURNAL OF NANOPARTICLE RESEARCH.2017,19(3):97.

[15] BB Shao, YF Chen, DL Wu,CM Dai, YL Zhang. Mineral transformation of structural Fe(II) hydroxides with O-2, Cu(II), Cr (VI) and NO2- for enhanced arsenite sequestration. Chemical Engineering Jounal，2017,311:247-254.

[16] S Lou, SG Liu*,CM Dai, A Tao, B Tan, GF Ma,RS Chalov, SR Chalov. Heavy Metal Distribution and GroundwaterQuality Assessment for a Coastal Areaon a Chinese Island,Polish Journal of Environmental Studies, 2017, 26(2): 733-745.

[17] YL Zhang, ZF Yin,CM Dai*,XF Zhou, W Chen. Interfacial thermodynamics and kinetics of sorption of diclofenac on prepared high performance flower-like MoS2，JOURNAL OF COLLOID AND INTERFACE SCIENCE, 2016, 481: 210-219.

[18] BB Shao, Y Chen, DL Wu, HP He,CM Dai, YL Zhang. Aqueous nickel sequestration and release during structural Fe(II) hydroxide remediation: the roles of coprecipitation, reduction and substitution.RSC ADVANCES,2016,6(88):85347-85354.

[19] H He, D Wu, L Zhao, C Luo,CM Dai, Y Zhang. Sequestration of chelated copper by structural Fe(II): Reductivedecomplexation and transformation of CuII-EDTA.Journal of Hazardous Materials, 2016,309: 116–125.

[20] Y Zhang, W Chen,CM Dai*,C Zhou, X Zhou. Structural Evolution of Nanoscale Zero-Valent Iron (nZVI) in Anoxic Co2+ Solution: Interactional Performance and Mechanism, Scientific reports, 5, 2015.

[21] Y Zhang, J Yan,CM Dai*,Y Li, Y Zhu, X Zhou. Sequestration of Ag(I) from aqueous solution as Ag(0) nanostructures by nanoscale zero valent iron (nZVI). Journal of nanoparticle research,2015,17(11),455.

[22] S LIU, B TAN,CM Dai*,S LOU, A TAO. Geochemical characterization and heavy metal migration in a coastal polluted aquifer incorporating tidal effects: field investigation in Chongming Island, China. Environmental Science and Pollution Research, 2015, 22(24), 20101-20113.

[23] Y Su, X Sun, X Zhou,CM Dai*,Y Zhang. Zero-valent Iron Doped Carbons Readily Developed from Sewage Sludge for Lead Removal from Aqueous Solution, Journal of Environmental Sciences,2015, 36:1-8.

[24] Z Zhou, CM Dai*,X Zhou, J Zhao, Y Zhang. The Removal of Antimony by Novel NZVI-Zeolite: the Role of Iron Transformation. Water Air and Soil Pollution. 226(3):76-92, 2015.

[25] Z Wen,CM Dai, Y Zhu ,Y Zhang. Arsenate removal from aqueous solutions using magnetic mesoporous iron manganese bimetal oxides. RSC Advances, 5(6): 4058-4068, 2015.

[26] Z Wen, Y Zhang, CM Dai,Z Sun. Nanocasted synthesis of magnetic mesoporous iron cerium bimetal oxides (MMIC) as an efficient heterogeneous Fenton-like catalyst for oxidation of arsenite. Journal of Hazardous Materials. 287:225-233,2015.

[27] Y Su, X Zhou,CM Dai, M Jiang, Y Zhang. Phosphate removal mechanism in an airlift-loop reactor under limited filamentous bulking conditions, Desalination and Water Treatment, 1299-1308, 2015.

[28] Q Zhang, J Chen,CM Dai, Y Zhang, X Zhou. Degradation of carbamazepine and toxicity evaluation using the UV/persulfate process in aqueous solution. Journal of Chemical Technology and Biotechnology. 90: 701-708,2015.

[29] CM Dai, Z Zhou, X Zhou, Y Zhang. Removal of Sb(III) and Sb(V) from aqueous solutions using nZVI. Water Air and Soil Pollution. 225:1799, 2014.

[30] W Liang,CM Dai*,X Zhou, Y Zhang. Application of zero-valent iron nanoparticles for the removal of aqueous zinc ions under various experimental conditions. PLoS One, 9(1): e85686, 2014.

[31] Y Zhang, Y Liu,CM Dai*,X Zhou. Adsorption of Clofibric Acid from Aqueous Solution by Graphene Oxide and the Effect of Environmental Factors. Water Air Soil Pollut, 225: 2064, 2014.

[32] Z Wen, Y Zhang,CM Dai*.Removal of Phosphate from Aqueous Solution Using NanoscaleZerovalent Iron (nZVI). Colloids and Surfaces A: Physicochemical and Engineering Aspects, 457: 433–440, 2014.

[33] Y Zhang, Z Shen,CM Dai*,X Zhou. Removal of selected pharmaceuticals from aqueous solution using magnetic chitosan: sorption behavior and mechanism. Environmental Science and Pollution Research, 21(22):12780-9, 2014.

[34] Y Zhang, S Lin,CM Dai*,L Shi, X Zhou*. Sorption-desorption and transport of trimethoprim and sulfonamide antibiotics in agricultural soil: effect of soil type, dissolved organic matter and pH. Environmental Science and Pollution Research. 21(9): 5827-5835, 2014.

[35] Y Zhang, Y Li,CM Dai*,X Zhou, W Zhang. Sequestration of Cd(II) with nanoscale zero-valent iron (nZVI): Characterization and test in a two-stage system. Chemical Engineering Journal, 244: 218-226, 2014.

[36] Y Zhang, K Zhang,CM Dai*,X Zhou. Performance and mechanism of pyrite for nitrobenzene removal in aqueous solution. Chemical Engineering Science, 111:135-141, 2014.

[37] Y Zhang, K Zhang,CM Dai*,X Zhou, H Si. An enhanced Fenton reaction catalyzed by natural heterogeneous pyrite for nitrobenzene degradation in an aqueous solution. Chemical Engineering Journal, 244: 438-445, 2014.

[38] Z Wen, Y Zhang,CM Dai, B Chen, S Guo, H Yu, D Wu. Synthesis of Ordered Mesoporous Iron Manganese Bimetal Oxides for Arsenic Removal from Aqueous Solutions. Microporous and Mesoporous Materials, 200: 235–244, 2014.

[39] Y Su, AS Adeleye, X Zhou,CM Dai,W Zhang, AA Keller, Y Zhang. Effects of Nitrate on the Treatment of Lead Contaminated Groundwater by NanoscaleZerovalent Iron. J. Hazard. Matls., 280: 504-513, 2014.

[40] Y Su, A Adeleye, Y Huang, Z Sun,CM Dai, X Zhou, Y Zhang, AA. Keller (2014). Simultaneous Removal of Cadmium and Nitrate in Aqueous Media by NanoscaleZerovalent Iron (nZVI) and Au Doped nZVI Particles, Water Research, 63: 102-111, 2014.

[41] CM Dai, J Zhang, Y Zhang, X Zhou, S Liu. Application of Molecularly Imprinted Polymers to Selective Removal of Clofibric Acid from Water. PlosOne. 8(10): 78167(1-8), 2013.

[42] CM Dai,J Zhang, Y Zhang, X Zhou, YP Duan, SG Liu. Removal of carbamazepine and clofibric acid from water using double templates–molecularly imprinted polymers. Environmental Science and Pollution Research, 20:5492-5501, 2013.

[43] Y Duan,CM Dai*,Y.Zhang, L Chen. Selective trace enrichment of acidic pharmaceuticals in real water and sediment samples based on solid-phase extraction using multi-templates molecularly imprinted polymers. AnalyticaChimicaActa, 758: 93-100,2013.

[44] Y Zhang, J Zhang,CM Dai*,X Zhou, S Liu. Sorption of carbamazepine from water by magnetic molecularly imprinted polymers based on chitosan-Fe3O4. Carbohydrate Polymers, 97(2):809-816, 2013.

[45] Y Zhang*, Y Su, X Zhou,CM Dai, AK. Arturo. A new insight on the core–shell structure of zerovalentironnanoparticles and its application for Pb(II) sequestration. Journal of Hazardous Materials. 263: 685-693, 2013.

[46] CM Dai, J Zhang, Y Zhang, X Zhou, S Liu. Selective removal of acidic pharmaceuticals from contaminated lake water using multi-templates molecularly imprinted polymer. Chemical Engineering Journal, 211-212: 302-309, 2012.

[47] CM Dai, X Zhou,Y Zhang, Z Qiang, TC Zhang. Comparative Study of the Degradation of Carbamazepine in Water by Advanced Oxidation Processes. Environmental Technology, 33(10-12): 1101-1109,2012.

[48] CM Dai,Y Zhang, X Zhou, S Liu, J Zhang. Synthesis by precipitation polymerization of molecularly imprinted polymer microspheres for the selective extraction of diclofenac from water samples. Journal of Hazardous Materials. 198:175-181,2011.

[49] CM Dai, S Geissen, Y Zhang, Y Zhang, X Zhou. Selective removal of diclofenac from contaminated water using molecularly imprinted polymer microspheres. Environmental Pollution, 159: 1660-1666,2011.

[50] CM Dai, S Geissen, Y Zhang, Y Zhang, X Zhou. Performance evaluation and application of molecularly imprinted polymer for separation of carbamazepine in aqueous solution. Journal of Hazardous Materials, 184(1-3): 156-163,2010.
代表性授权专利

授权专利29项，代表性授权国家发明专利如下：

[1] 一种用于地下水污染物运移物理模型的潮汐型水头控制装置(ZL201510124855.X).

[2] 一种基于视频的水域流量流速监测系统及方法 (ZL201910982786.4).

[3] 一种可测量水位、原位溶解氧及采集不同深度地下水的方法及装置 (ZL201410160857.X).

[4] 一种平板式二维地下水水动力及水质模型装置 (ZL201510056140.5).

[5] 模拟地下水含氧量梯度分布的装置 (ZL201910332088.X).

[6] 利用纳米气泡增效Cl-/PMS修复地下水石油烃污染的方法及应用(ZL202310544307.7).

[7] 一种可逆表面活性剂活化过硫酸盐降解地下水中PAHs的方法 (ZL202310568072.5).

[8] 一种硫酸盐污染场地地下水污染治理和土壤修复方法 (ZL201510016700.4).

[9] 一种Fe(Ⅱ)活化过硫酸钠法修复地下水装置及方法 (ZL201510556985.0).

[10] 组件式垂直饱和土柱污染物迁移试验装置 (ZL201410542316.3).
主要专著

[1] 《滨海区域地下水中重金属污染物的迁移与转化》(R1)。科学出版社，2021；

[2] 《新兴污染物的分析、迁移转化与控制技术：以药物活性化合物为例》（R3），科学出版社，2017；

[3]《药物及个人护理品的环境污染与控制》（参编），科学出版社，2012。
教学工作

[1] 本科生课程：《工程水文学》，《专业导论（智慧建造与低碳环境类）》；

[2] 研究生课程：《生态水文学》（硕士生、博士生共选），《土木工程研究进展与研究方法（水利工程研究进展与研究方法）》（博士生课程）。