毛德強 Mao Deqiang
博士🎀,教授🏄🏻,博士生導師
水利工程系,齊魯青年學者
電子郵箱:maodeqiang@sdu.edu.cn
主要從事地下水科學與工程、水文地球物理、地下水汙染物探監測及反演模型的科研教學工作
個人簡介(中文版)🤚🏼:
教育背景:
2007 - 2012,亞利桑那大學,水文與水資源專業🪩,博士
導師: Tian-Chyi Jim Yeh 教授
2004 - 2007,中國地質大學(北京),水文與水資源專業,研究生學習
導師↘️: 萬力 教授
2000 - 2004🤟🏼,中國礦業大學資源與地球科學摩臣2🫳🏽😺,水文與水資源專業🟠,學士
導師: 楊國勇 教授
工作履歷:
2017.10 – 至今,摩臣2平台水利系,教授, 博士生導師
2016.8 – 2017.9🔛,新墨西哥理工摩臣2地球環境系𓀔,助理教授(終身軌)
2016.1 – 2016.8🚄🐪,科羅拉多礦業摩臣2石油工程系🚿,博士後
2013.6 - 2015.12,科羅拉多礦業摩臣2地球物理系♾🦓,博士後
2012.5 - 2013.5🙎🏿♀️,亞利桑那大學水文與水資源系👩🏻🦰,博士後
研究方向:
1.水文地球物理模型反演算法研究
2.水文地質模型參數識別
3.水文和地球物理模型耦合
4.地電法在水文地質勘探和監測的應用
5.水文地質和地球物理高性能模擬計算
學術兼職:
2016- 2018🧅,美國地球物理協會水文地球物理委員會委員
2014 - 2018👆🏻,美國地球物理協會地下水委員會委員
2006至今, 美國地球物理協會會員
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等期刊審稿人
科研項目 (Research grant)💇🏿♂️:
1.Chevron Energy Technology Company, Field electrical resistivity monitoring of bioelectrical degradation of hydrocarbon contaminant, 負責人, 9/2016 – 11/2016,研究方向:利用交叉孔電阻率層析法監測野外尺度下石油汙染物降解過程中電阻率的變化。
2. Chevron Energy Technology Company, Grant CW852844, K26625,PI:Dr. Andre Revil, 7/2013 – 12/2015,研究方向🧍🏻♀️:通過數值模擬和砂箱實驗,利用自然電位法、電阻率法、時域和頻率域激電法研究汙染物降解和運移過程中地球物理信號的變化🙋🏼♀️,主要參與人👘。
3. Department of Defense, SERDP🙎🏽♀️,ER-1365, PI: Dr. Walter Illman, Tian-Chyi Jim Yeh☞, 5/2012 – 5/2013👩🏻⚕️,研究方向🏋🏼♂️:利用協相關分析方法評價抽水試驗中水頭觀測數據與含水層參數的關系,以及如何解決大型水文模型計算中的數據存儲問題🎸🧑🏿🦳,主要參與人⚠️。
4. Department of Defense, SERDP, ER-1610⛹🏼♂️,PI:Dr. Walter Illman, Tian-Chyi Jim Yeh🤞🏽, 8/2007 - 5/2012,研究方向:利用並行計算方法求解潛水含水層參數分布的反演模型,主要參與人。
5. 企事業委托“小浪底水庫大壩壩基滲流研究”,負責人:萬力教授,9/2005 - 8/2007🚣🏼,研究方向:分析求解裂隙含水層抽水井在不均勻出水條件下的井流公式,主要參與人。
6. 國家自然科學基金“黃河源區區域地下水位下降機製及其環境效應”,90302003,負責人👗:萬力教授🧑🏽🎓,8/2005 - 9/2006,研究方向:利用NDVI方法分析黃河源的植被分布和地下水水位變動之間的關系,參與。
研究生招生(碩士、博士研究生):
要求學生科研理論知識紮實🧙♂️,會編程,刻苦認真,性格樂觀開朗,積極向上🥷🏻。歡迎從事地下水科學與工程、地下水汙染監測、地球物理⛳️、水文地球物理等方面的學生報考。
發表論文(Peer-reviewed articles):
2017
1. Shao, Z., Revil, A., Mao, D. and Wang, D. (2017) Induced polarization signature of coal seam fires. Geophysical Journal International 208(3), 1313-1331.
2. Revil, A., Sleevi, M. and Mao, D. (2017a) Induced polarization response of porous media with metallic particles — Part 5: Influence of the background polarization. Geophysics, E77-E96.
3. Revil, A., Mao, D., Shao, Z., Sleevi, M. and Wang, D. (2017b) Induced polarization response of porous media with metallic particles — Part 6: The case of metals and semimetals. Geophysics, E97-E110.
2016
4. Mao D. and A. Revil (2016), Induced polarization response of porous media with metallic particles, Part 3. A new approach to time domain induced polarization tomography, Geophysics, 81:4, D359-375, doi: 10.1190/geo2015-0283.1.
5. Mao D. 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.
6. Mao D. A. Revil and J. Hinton (2016), Induced polarization response of porous media with metallic particles. Part 4. Detection of metallic and non-metallic targets in time domain induced polarization tomography, Geophysics, 80(5), D525-538, doi: 10.1190/GEO2015-0480.1.
7. Feist R. A, H.R. Barnard, Mao D., A. Revil and K. Singha (2015), Examining diel patterns of soil and xylem moisture using electrical resistivity imaging, J. Hydr., doi: 10.1016/j.jhydrol.2016.03.003 .
8. Zha Y, T-C J Yeh, W. Illman, T. Tanaka, P. Bruines, H. Onoe, H. Saegusa, D. Mao, S. Takeuchi, J‐C Wen, An Application of Hydraulic Tomography to a Large‐Scale Fractured Granite Site, Mizunami, Japan, Groundwater, doi:10.1111/gwat.12421.
2015
9. Yeh T.-C., Mao D., Zha Y., Wen J.-C., Wan L., Hsu K.-C. & Lee, C.-H., (2015). Uniqueness, scale, and resolution issues in groundwater model parameter identification, Water Science and Engineering, 8, 175- 194. doi:10.1016/j.wse.2015.08.002.
10. Mao D., T.-C. J. Yeh, W. Illman A. Revil, J.-C. Wen and Zha Y. (2015), Hydraulic tomography, in Handbook of Groundwater Engineering: 3rd edition, edited by J. H. Cushman and D. M. Tartakovsky, , Third Edition, CRC, ISBN: 978-1-49-870304-8, 2016.
11. Mao D., 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.
12. Zhao Z., W. Illman, S. Berg, D. Mao and T.-C. Yeh (2015), Validation of hydraulic tomography in unconfined aquifer: a controlled sandbox study, Water. Resour. Res.,doi:10.1002/2015WR016910.
13. Hort R. A., A. Revil. Munakata-Marr J. and D. Mao (2015), Evaluating the potential for quantitative monitoring of in-situ chemical oxidation of aqueous phase TCE using in-phase and quadrature electrical conductivity, Water. Resour. Res., doi: 10.1002/2014WR016868.
14. Revil. A, G. Z. Abdel Aal, E.A. Atekwana, D. Mao and N. Florsch. (2015), Induced polarization response of porous media with metallic particles - Part 2. Comparison with a broad database of experiments data, Geophysics, doi: 10.1190/GEO2014-0578.1.
15. Revil. A, N. Florsch and D. Mao (2015), Induced polarization response of porous media with metallic particles - Part 1. A theory for disseminated semi-conductors, Geophysics, doi: 10.1190/GEO2014- 0577.1.
2014
16. Revil A. D. Mao, A. Hass and M. Karaoulis (2014), Passive electrical monitoring and location of fluid leakages from wells, J. Hydr., doi:10.1016/j.jhydrol.2014.12.003.
17. Wang X.-S., J.-P. Zuo and D. Mao (2014), SEM in-situ study on the effect of offset-notch on basalt cracking behavior under three–point load, Engineering Fracture Mechanics, doi:10.1016/j.engfracmech.2014.09.006.
18. Zha Y. T.-C. J. Yeh, D. Mao, J. Yang and W. Lu. (2014), Usefulness of Flux Measurements during Hydraulic Tomographic Survey for Mapping Fractures, Adv. Water Resour., doi: 10.1016/j.advwatres.2014.06.008.
19. Karaoulis M., A. Revil and D. Mao. (2014), Localization of a coal seam fire using combined self- potential and resistivity data, Int. J. Coal Geol., doi: 10.1016/j.coal.2014.04.011.
2013
20. Kuang X., J. J. Jiao, K. Zhang, and D. Mao (2013), Air and water flows induced by pumping tests in unconfined aquifers with low-permeability zones, Hydrol. Process, doi: 10.1002/hyp.10058.
21. Yan Zhu, L. Shi, J. Yang, J. Wu, and D. Mao (2013), Coupling methodology and application of a fully integrated model for contaminant transport in the subsurface system, J. Hydrology, 501, 56-72. doi: 10.1016/j.jhydrol.2013.07.038.
22. T.-C. J. Yeh, D. Mao, Y. Zha, K.-C. Hsu, C.-H. Lee and J.-C. Wen and J. Yang (2013), Why hydraulic tomography works? Ground Water. doi: 10.1111/gwat.12129.
23. Sun, R., T.-C. J. Yeh, D. Mao, M. Jin, W. Lu, and Y. Hao (2013), A temporal sampling strategy for transient hydraulic tomography analysis, Water Resour. Res., 49, 3881-3896, doi:10.1002/wrcr.20337.
24. Mao D., 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.
25. Mao D., 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.
26. Mao, D., 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.
2012
27. Yeh, T.-C. J., D. Mao, L. Wan, C.-H. Lee, J.-C. Wen, and W. Lu (2012), Replies to comments on “A revisit of drawdown behavior during pumping in unconfined aquifers” by Neuman and Mishra, Water Resour. Res., 48, W02802, doi: 10.1029/2011WR011153.
2011
28. 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.
29. Kuang, X., J. J. Jiao, L. Wan, X. Wang, and D. Mao (2011), Air and water flows in a vertical sand column, Water Resour. Res., 47, W04506, doi: 10.1029/2009WR009030.
30. Zhu J., T.-C. J. Yeh, and D. Mao (2011), Hydraulic tomography to characterize heterogeneity of unconfined Aquifers, Journal of Nanjing University (Natural Sciences), Vol. 47, No. 3, p252-264.
2008
31. 毛德強,萬力,張美靜,詹紅兵(2008)⛑🚵🏻♂️,裂隙含水層中抽水井不均勻出水條件下的井流公式,工程勘察,1,35-38.
會議組織(Conference session chairing)
1. Mao, D., Judy Robinson, Christopher Zahasky, Bwalya Malama, Advances in Subsurface Characterization using Innovative Methods of Geophysics and Hydrogeology, American Geophysical Union, New Orleans, LA, AGU Fall Meeting, 2017.
2. Carroll K.C., H. Michael, D. Mao, and P.K. Mishra, Advances, breakthroughs, and challenges in hydrogeologic sciences, American Geophysical Union, San Francisco, CA, AGU Fall Meeting, 2016.
3. Mao, D., K.L. Kuhlman, P.A. Marker and T. Lochbuehler, Advances in Hydrogeology and Hydrogeophysics: Innovations in Experimental Methods, Data Processing and Modeling, American Geophysical Union, San Francisco, CA, AGU Fall Meeting, 2014.
4. Mishra, P.K., D. Mao, B. Malama and B. Jafarpour, Innovative methods in hydrogeology and hydrogeophysics, American Geophysical Union, San Francisco, CA, AGU Fall Meeting, 2013.
聯系方式🗺:
通訊地址:山東省濟南市經十路17922號 摩臣2平台千佛山校區摩臣2娱乐
郵編:250061
電子郵箱: maodeqiang@sdu.edu.cn
個人主頁:http://faculty.sdu.edu.cn/~zmyeee/zh_CN/index.htm
Resume(English version)👩🏻✈️:
Deqiang Mao, PhD
Professor of Hydrogeology
Department of Hydraulic Engineering
Email: maodeqiang@sdu.edu.cn
Research areas: hydrogeology, hydrogeophysics, and inverse modeling
Education
2007 – 2012, The University of Arizona, hydrology major, soil science minor, PhD
Advisor: Dr. Tian-Chyi Jim Yeh
2004 – 2007, China University of Geosciences (Beijing), hydrology major, graduate study
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 - 2013.5👩🏼🚒,Department of Hydrology, The University of Arizona, Postdoc
Service
2016- 2018🏧,AGU Hydrogeophysics Technical Committee Member
2014 - 2018,AGU 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
Research interest
1. Inverse modeling in hydrogeophysics
2. Parameter estimation in hydrogeology
3. Hydrological and geophysical model coupling
4. Application of geo-electrical methods in groundwater exploration and monitoring
5. 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 website:http://faculty.sdu.edu.cn/~zmyeee/zh_CN/index.htm
