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姓名: 毛德强

职位:教授、博导

职务:bat365在线平台副经理

研究领域:地下水地球物理

研究方向: 水文和地球物理模型耦合

水文地质模型参数识别

地电法在水文地质勘探和监测的应用

水文地质和地球物理高性能模拟计算

个人简介

毛德强,bat365在线平台教授、博士生导师。20125月毕业于美国亚利桑那大学获得水文学博士学位。现任bat365在线平台副经理、bat365中文官方网站侨界联合会秘书长、水利工程系主任、中国水利学会地下水科学与工程分会委员,亚洲地球科学协会(AOGS)地学分会秘书。获中组部特聘青年专家,bat365中文官方网站齐鲁青年学者。

主要从事水文地球物理等方面教学与科研工作,主持相关领域国家级、省部级、工程科研项目20余项,包括国家重点研发计划(国合专项)项目1项,国家重点研发项目子课题2项,国家自然科学基金中组部特聘专家“青年项目”1项、面上项目1项等。在地学环境领域TOP期刊WWRESTWM等国际高水平期刊发表论文51篇(第一和通讯作者论文23篇),授权发明专利、软著35项,应邀作国际和国内学术会议特邀报告10余次。

针对场地污染精准刻画提出基于激发极化多源数据融合的地下水污染地球物理刻画与监测关键技术,成功应用于北京、天津、上海11个省市20余个污染场地,探测深度提升一倍,空间分辨率达分米级,监测成本降低40%,成果获2023年山东省环境技术进步一等奖。坚持以德树人、为国育才的教育理念,以“重点平台+科研项目+老员工科技创新”的教学模式,获2023年bat365中文官方网站优秀教学案例。培养研究生十余名,并指导员工获“互联网+”双创大赛省金奖、银奖各一项。

学习经历

   2007 - 2012,亚利桑那大学水文与水资源系,水文与水资源专业,
博士导师: Tian-Chyi Jim Yeh 教授

   2004 - 2013,中国地质大学(北京)水资源与环境学院,水文与水资源专业,
博士导师: 万力 教授

   2000 - 2004,中国矿业大学资源与地球科学学院,水文与水资源专业,
本科导师: 杨国勇 教授

工作经历

   2017.10 – 至今,bat365在线平台,教授, 博士生导师

   2016.8 – 2017.9,新墨西哥理工学院地球环境系,助理教授

   2016.1 – 2016.8,科罗拉多矿业学院石油工程系,博士后

   2013.6 - 2015.12,科罗拉多矿业学院地球物理系,博士后

   2012.5 - 2013.5,亚利桑那大学水文与水资源系,博士后

社会学术兼职

 

   2021-至今,EI 期刊《煤田地质与勘察》,编委

   2020-至今,中国水利学会地下水科学与工程分会,委员

   2020-至今,亚洲地球科学协会(AOGS)地学分会,学会秘书

   2020-至今,SCI期刊 Hydrogeology Journal,副主编

   2018-至今,SCI期刊 Journal of Environmental & Engineering Geophysics,副主编

   2016-至今,AGU Hydrogeophysics Technical Committee Member

代表性科研项目

 

   科技部,国家重点研发项目子课题,2023YFC3706000土壤与地下水重非水相液体(DNAPLs)精细刻画关键技术2024-2027,主持

   科技部,国家重点研发计划政府间国际科技创新合作专项,渗透式反应墙运行稳定性的低影响监测预警技术,2023-2025,主持

   山东滨州工业园区管理委员会,滨州滨城化工产业园地下水环境状况详细调查评估项目, 2023-2023,主持

   山东省生态环境规划研究院,黄河流域典型灌区农业面源氮磷污染调查,2022-202480万元,主持

   国家自然基金委,自然科学基金面上项目,42177056纳米零价铁原位修复过程的复电阻率监测机理研究2022-2025,主持

   科技部,国家重点研发项目子课题,2019YFC1520502石窟水盐运移的监测系统及规律研究2020-2022,主持

   国家自然基金委,中组部特聘专家青年项目,地下水地球物理,2019-2024,主持

   天津市北辰区土地整理中心,天津海豚橡胶集团有限公司(新光道)地块污染场地修复技术方案,2021-2021,主持

   bat365中文官方网站齐鲁青年学者,水文地球物理数据融合,2017/10-2022/10,主持

代表性论文(*通讯作者)

1)地下水地球物理方向

   Meng J, Hu K, Wang S, Wang Y, Chen Z, Gao C, Deqiang Mao(*), (2024) A framework for risk assessment of groundwater contamination integrating hydrochemical, hydrogeological and electrical resistivity tomography method, Environmental Science and Pollution Research, 10.1007/s11356-024-33030-5

   Ma X, J Zhang, Nimrod Schwartz, J Li, C Chao, Meng J, Deqiang Mao(*), (2024) Characterizing Landfill Extent, Composition, and Biogeochemical Activity using Electrical Resistivity Tomography and Induced Polarization under Varying Geomembrane Coverage, Geophysics, 10.1190/geo2023-0599.1

   Ma X, J Zhou, J Li, J Zhang, C Han, L Guo, S Li, Deqiang Mao(*), (2024) Image-guided structure-constrained inversion of electrical resistivity data for improving anomalies characterization, Computers & Geosciences, 10.1016/j.cageo.2024.105545

   Xia T, M Ma, J.A. Huisman, C Zheng, C Gao, Deqiang Mao(*), (2023) Monitoring of in-situ chemical oxidation for remediation of diesel-contaminated soil with electrical resistivity tomography, Journal of Contaminant Hydrology, 10.1016/j.jconhyd.2023.104170.

   Xia T, J Meng, B Ding, Z Chen, S Liu, K Titov, Deqiang Mao(*), (2023) Integration of hydrochemical and induced polarization analysis for leachate localization in a municipal landfill, Waste Management, 10.1016/j.wasman.2022.12.014.

   Mao Deqiang and A. Revil(*) (2016), Induced polarization response of porous media with metallic particles, Part3. A new approach to time domain induced polarization tomography, Geophysics, 81:4, D359-375, doi: 10.1190/geo2015-0283.1.

   Mao Deqiang A. Revil(*), L. Lu, Y. Zuo, J. Hinton and Z. Ren (2016), Geophysical monitoring of hydrocarbon- contaminated soil remediated with bioelectrochemical system, Environmental Sciences & Technology, 50(15), 8205-8213, doi: 10.1021/acs.est.6b00535.

   Mao Deqiang, A. Revil(*), R. Hort, Munakata-Marr J. and Kulessa K. (2015), Resistivity and self-potential tomography applied to groundwater remediation and contaminant plumes: sandbox and field experiments, J. Hydr, doi:10.1016/j.jhydrol.2015.09.031

2)水文地质方向

   Ruijue Zhao, Qingrong Xiong, Zaibin Liu, Shiliang Liu, Xinmin Ma, Deqiang Mao(*), (2023), Reconstruction of hydrogeological parameter distributions by exploiting structural similarities, Advanced in Water Resources, 10.1016/j.advwatres.2023.104404.

   Ma M, Z Liu, X Ma, R Zhao, Deqiang Mao(*), (2022) Exploration of Ordovician limestone aquifer heterogeneity with tomographic water releasing tests, Journal of Hydrology, 10.1016/j.jhydrol.2022.127655

   赵瑞珏,毛德强*,刘再斌,姬中奎,曹祖宝,(2021) 基于水力层析法的某煤矿承压含水层叠加放水试验分析,水文地质与工程地质,10.16030/j.cnki.issn.1000-3665.202003024

   Mao Deqiang, Z Liu, W Wang, S Li, Y Gao, Z Xu, C Zhang, (2018) An application of hydraulic tomography to a deep coal mine: combining traditional pumping tests with water inrush incidents, Journal of hydrology 567, 1-11

   Mao Deqiang, T.-C. J. Yeh, L. Wan, K.-C. Hsu, C.-H. Lee and J.-C. Wen(*) (2013), Joint interpretation of sequential pumping tests in unconfined aquifers, Water Resour. Res., 49, 1782-1796, doi:10.1002/wrcr.20129.

   Mao Deqiang, T.-C. J. Yeh, L. Wan, K.-C. Hsu, C.-H. Lee and J.-C. Wen (*) (2013), Cross-correlation analysis and information content of observed heads during pumping in unconfined aquifers, Water Resour. Res., 49, doi:10.1002/wrcr.20066.

   Mao, Deqiang, T.-C. J. Yeh, L. Wan, K.-C. Hsu and C.-H. Lee(*), (2013), Necessary and sufficient conditions for inverse modeling of flow through variably saturated porous media, Adv. Water Resour., http://dx.doi.org/10.1016/j.advwatres. 2012.08.001.

   Mao, D., L. Wan, T.-C. J. Yeh, C.-H. Lee, K.-C. Hsu, J.-C. Wen and W. Lu(*) (2011), A revisit of drawdown behavior during pumping in unconfined aquifers, Water Resour. Res., 47, W05502, doi: 10.1029/2010WR009326.

代表性专利

    一种地下水污染地球物理模拟测试装置及方法,毛德强 郭丽莉、晁琛、 李书鹏、 张家铭、 王蓓丽、 杨凯,授权公布号:ZL202310883983.7,授权公告日期:2023-09-19

    一种基于复电阻率信号的非连续渗透反应墙运维检测方法,毛德强、郭丽莉、李婧、李书鹏、熊静、张家铭、赵瑞珏,授权公布号:ZL202310884822.X,授权公告日:2023-09-15

    一种石质文物本体高密度电法监测装置、系统及方法,毛德强、马新民、刘士亮、夏腾、孟健、赵瑞珏,授权公布号:ZL202211431438.6,授权公告日:2023-03-31

    井间激发极化供测双线探测装置、系统及阵列采集方法,毛德强、夏腾、刘士亮、董艳辉、马新民、孟建、赵瑞珏,授权公布号:ZL202210941000.6,授权公告日:2022-11-15

    一种基于定向平滑约束反演的场地污染物刻画方法及系统,毛德强、马新民、夏腾、马敏、赵瑞珏、孟健、刘正达、王亚洵,授权公布号:ZL202110299494.8,授权公告日:2022-06-17

    多功能便携式跨孔电阻率CT信号采集装置、系统及方法,毛德强、夏腾、孟健、赵瑞珏,授权公布号:ZL202110205195.3,授权公告日:2022-05-17

    一种获取岩石裂隙分布及水力学参数的实验装置及方法,刘正达、毛德强、孟健、王亚洵、夏腾、赵瑞珏、胡开友、宋瑞超,授权公布号:ZL202010317397.2,授权公告日:2021-09-17

    一种便携式高密度电缆专用盘线装置,毛德强、夏腾、孟健、赵瑞珏、宋瑞超、王亚洵、胡开友,授权公布号:ZL202022272675.5,授权公告日:2021-07-09

    基于ERTIP圈定包气带中LNAPLs的污染源区探测方法及系统,胡开友、毛德强、董艳辉、夏腾、宋瑞超、赵瑞珏、王亚洵、孟健、刘正达,授权公布号:ZL202010318235.0,授权公告日:2021-06-04

    一种水库渗漏检测实验用模拟平台、试验系统及方法,王亚洵、毛德强、夏腾、宋瑞超、孟健、刘正达、胡开友、赵瑞珏,授权公布号:ZL202010242448.X,授权公告日:2021-04-13

代表性软著

    石窟水盐运移监测平台[简称:GWSTM]V1.0,马新民、毛德强,授权日期:2024-1-12

    智慧环境监测数据可视化平台V1.0毛德强、马新民、苏志慧、孟健,授权日期:2023-11-23

    基于污染指数法的地下水污染评价系统V1.0,李婧、陈子方、毛德强、王丙晖,授权日期:2023-02-28

    基于单指标评价法的地下水质量评价系统V1.0,李婧、陈子方、毛德强、宁美璐,授权日期:2022-11-15

    基于水力层析的水文地质参数插值系统V1.0,马敏、毛德强、马新民、孟健,授权日期:2021-11-22

    基于图像约束反演的四方向平滑矩阵计算系统,马新民、毛德强、孟健,授权日期:2021-06-18

    通用正反演模型实现与拟合软件V2.0,孟健、毛德强、赵瑞珏,授权日期:2020-06-28

    通用正反演模型实现与拟合软件V1.0,孟健、毛德强,授权日期:2020-04-16

出版物

   Mao D., T.-C. J. Yeh, W. Illman A. Revil, J.-C. Wen and Zha Y. (2016), Chapter 19: Hydraulic tomography, in Handbook of Groundwater Engineering: 3rd edition, edited by J. H. Cushman and D. M. Tartakovsky.

赛事奖项

    2023年第九届互联网+老员工创新创业大赛山东省银奖,第一指导教师,参赛题目:问诊地球-水土污染智慧云监测技术革新者

    2022年第八届中国国际互联网+老员工创新创业大赛山东省金奖,第一指导教师,参赛题目:长距离调水渠道渗漏快速检测技术

    2022年第三届水科学数值模拟创新大赛,优胜奖,第一指导老师,参赛题目:城市内涝模拟

    2022年bat365中文官方网站第九届山东省老员工科技创新大赛校级选拔赛,一等奖,第一指导老师,参赛题目:问诊地球污染场地远程智慧监测云平台

学术奖励

    山东省环境技术进步一等奖,第一完成人,2023

    bat365中文官方网站专业学位优秀教学案例,第一完成人,2023

    山东省高等学校科学技术一等奖,第三完成人,2023

    河南省科学技术进步二等奖,第七完成人,2023

    美国水资源高校联合会CUAHSIInstrumentation Discovery Travel Grant2016

    美国亚利桑那大学,John and Margaret Harshbarger Doctoral Fellowship, 2011

 

联系方式:

通讯地址:山东省济南市经十路17922 bat365中文官方网站千佛山校区bat365在线平台

邮编:250061

电子邮箱: maodeqiang@sdu.edu.cn

个人主页:http://faculty.sdu.edu.cn/~zmyeee/zh_CN/index.htm

 

 

 ResumeEnglish version):

Deqiang Mao, PhD

Professor of Hydrogeology

Vice Dean of the School of Civil Engineering

Department of Hydraulic Engineering

Research areas: hydrogeology, groundwater geophysics, and inverse modeling

Education

2007 – 2012, The University of Arizona, hydrology major, soil science minor, PhD

Advisor Dr. Tian-Chyi Jim Yeh

2004 – 2013, China University of Geosciences (Beijing), hydrology major, PhD

Advisor Prof. Wan Li

2000 – 2004, China University of Mining and Technology, School of Resource and Earth Science, hydrology major, Bachelor, Supervisor: Prof. Yang Guoyong

Professional experience

2017.10 – today, School of Civil Engineering, Shandong University, Professor

2016.8 – 2017.9, Department of Earth and Environment Sciences, New Mexico Institute of Mining and Technology, Assistant professor

2016.1 – 2016.8, Department of Petroleum Engineering, Colorado School of Mines, Postdoc

2013.6 - 2015.12, Department of Geophysics, Colorado School of Mines, Postdoc

2012.5 - 2013.5Department of Hydrology,  The University of Arizona, Postdoc

Service

2021 – today, Editorial Board Member, EI journal "Coal Geology & Exploration"

2020 – today, Member, Groundwater Science and Engineering Branch, China Water Resources Association

2020 – today, Secretary, Geosciences Division, Asian Association of Geological Sciences (AAGS)

2020 – today, Associate Editor, SCI journal "Hydrogeology Journal"

2018 – today, Associate Editor, SCI journal "Journal of Environmental & Engineering Geophysics,"

2016- 2018AGU Hydrogeophysics Technical Committee Member

2014 - 2018AGU Groundwater Technical Committee Member

Since 2006, AGU member

 

Reviewers for: Advance in Water Resources; Applied Mathematical Modeling; Geophysics; Hydrology Research; Hydrogeology Journal; Journal of Hydrology; Stochastic Environmental Research and Risk Assessment; Transport in Porous Media; Water Resources Research

 

Representative Papers (* Corresponding Author)

1Groundwater Geophysics

   Meng J, Hu K, Wang S, Wang Y, Chen Z, Gao C, Deqiang Mao(*), (2024) A framework for risk assessment of groundwater contamination integrating hydrochemical, hydrogeological and electrical resistivity tomography method, Environmental Science and Pollution Research, 10.1007/s11356-024-33030-5

   Ma X, J Zhang, Nimrod Schwartz, J Li, C Chao, Meng J, Deqiang Mao(*), (2024) Characterizing Landfill Extent, Composition, and Biogeochemical Activity using Electrical Resistivity Tomography and Induced Polarization under Varying Geomembrane Coverage, Geophysics, 10.1190/geo2023-0599.1

   Ma X, J Zhou, J Li, J Zhang, C Han, L Guo, S Li, Deqiang Mao(*), (2024) Image-guided structure-constrained inversion of electrical resistivity data for improving anomalies characterization, Computers & Geosciences, 10.1016/j.cageo.2024.105545

   Xia T, M Ma, J.A. Huisman, C Zheng, C Gao, Deqiang Mao(*), (2023) Monitoring of in-situ chemical oxidation for remediation of diesel-contaminated soil with electrical resistivity tomography, Journal of Contaminant Hydrology, 10.1016/j.jconhyd.2023.104170.

   Xia T, J Meng, B Ding, Z Chen, S Liu, K Titov, Deqiang Mao(*), (2023) Integration of hydrochemical and induced polarization analysis for leachate localization in a municipal landfill, Waste Management, 10.1016/j.wasman.2022.12.014.

   Mao Deqiang and A. Revil(*) (2016), Induced polarization response of porous media with metallic particles, Part3. A new approach to time domain induced polarization tomography, Geophysics, 81:4, D359-375, doi: 10.1190/geo2015-0283.1.

   Mao Deqiang A. Revil(*), L. Lu, Y. Zuo, J. Hinton and Z. Ren (2016), Geophysical monitoring of hydrocarbon- contaminated soil remediated with bioelectrochemical system, Environmental Sciences & Technology, 50(15), 8205-8213, doi: 10.1021/acs.est.6b00535.

   Mao Deqiang, A. Revil(*), R. Hort, Munakata-Marr J. and Kulessa K. (2015), Resistivity and self-potential tomography applied to groundwater remediation and contaminant plumes: sandbox and field experiments, J. Hydr, doi:10.1016/j.jhydrol.2015.09.031

2Hydrogeology

   Ruijue Zhao, Qingrong Xiong, Zaibin Liu, Shiliang Liu, Xinmin Ma, Deqiang Mao(*), (2023), Reconstruction of hydrogeological parameter distributions by exploiting structural similarities, Advanced in Water Resources, 10.1016/j.advwatres.2023.104404.

   Ma M, Z Liu, X Ma, R Zhao, Deqiang Mao(*), (2022) Exploration of Ordovician limestone aquifer heterogeneity with tomographic water releasing tests, Journal of Hydrology, 10.1016/j.jhydrol.2022.127655

   赵瑞珏,毛德强*,刘再斌,姬中奎,曹祖宝,(2021) 基于水力层析法的某煤矿承压含水层叠加放水试验分析,水文地质与工程地质,10.16030/j.cnki.issn.1000-3665.202003024

   Mao Deqiang, Z Liu, W Wang, S Li, Y Gao, Z Xu, C Zhang, (2018) An application of hydraulic tomography to a deep coal mine: combining traditional pumping tests with water inrush incidents, Journal of hydrology 567, 1-11

   Mao Deqiang, T.-C. J. Yeh, L. Wan, K.-C. Hsu, C.-H. Lee and J.-C. Wen(*) (2013), Joint interpretation of sequential pumping tests in unconfined aquifers, Water Resour. Res., 49, 1782-1796, doi:10.1002/wrcr.20129.

   Mao Deqiang, T.-C. J. Yeh, L. Wan, K.-C. Hsu, C.-H. Lee and J.-C. Wen(*) (2013), Cross-correlation analysis and information content of observed heads during pumping in unconfined aquifers, Water Resour. Res., 49, doi:10.1002/wrcr.20066.

   Mao, Deqiang, T.-C. J. Yeh, L. Wan, K.-C. Hsu and C.-H. Lee(*), (2013), Necessary and sufficient conditions for inverse modeling of flow through variably saturated porous media, Adv. Water Resour., http://dx.doi.org/10.1016/j.advwatres. 2012.08.001.

   Mao, D., L. Wan, T.-C. J. Yeh, C.-H. Lee, K.-C. Hsu, J.-C. Wen and W. Lu(*) (2011), A revisit of drawdown behavior during pumping in unconfined aquifers, Water Resour. Res., 47, W05502, doi: 10.1029/2010WR009326.

Research interest

   Inverse modeling in hydrogeophysics

   Parameter estimation in hydrogeology

   Hydrological and geophysical model coupling

   Application of geo-electrical methods in groundwater exploration and monitoring

   High performance computing in hydrogeology and geophysics

Graduate student recruitment

Students with quantitative backgrounds and experience in either hydrogeology or geophysics (or both!!) are encouraged to apply. Please contact me if you are interested in joining my group.

Contact information

Mailing address:

Jingshi Rd 17922

School of Civil Engineering

Shandong University, Qianfoshan Campus

Jinan, Shandong province 250061

Email: maodeqiang@sdu.edu.cn

Personal websitehttp://faculty.sdu.edu.cn/~zmyeee/zh_CN/index.htm

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