靳孟贵
个性化签名
- 姓名:靳孟贵
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- 担任导师情况:
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学术头衔:
博士生导师
- 职称:-
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学科领域:
水文学
- 研究兴趣:
靳孟贵,1957年生,教授,博士生导师,注册土木工程师(岩土)。1982年7月武汉地质学院毕业留校任教以来,长期从事水文学及水资源工程、地下水科学与工程的教学与科研工作,是湖北省级精品课程《地下水动力学》负责人。现任Co-Chair of IAH Commission on Regional Groundwater Flow,Associate editor of Hydrogeology Journal,中国地质学会水文地质和农业地学专业委员会委员。曾任高等学校水文与水资源工程专业教学指导分委员会委员(2008-2012)。
长期从事包气带水文学、地下水补给、地下水流动系统、土壤水与咸水利用、水土污染控制、再生水回灌等科学研究及技术研发。先后主持国家863计划课题、973计划专题、国家自然科学基金(5项)、高等学校博士学科点专项基金(2项)、国家地质调查项目(5项)、国际水和粮食挑战计划等各类科研项目30余项。获国土资源科学技术一等奖和新疆维吾尔自治区科学技术进步二等奖各1项、地质矿产部科技进步三等奖3项、湖北省教学成果一等奖1项。在Journal of Hazardous Materials,Journal of Hydrology, Hydrological Processes, Water Resource Research, Irrigation Science, Agricultural Water Management, Ground Water, Hydrogeology Journal等期刊上发表学术论文160余篇,其中SCI(30)、EI(30+)收录60余篇,出版专著2部,主编或参编教材2部。
指导博士、硕士研究生70余人,已有33人获博士学位、38人获硕士学位,其中4人完成的学位论文被评为湖北省优秀博士学位论文。
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3750
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成果阅读
880
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成果数
20
靳孟贵, 霍思远, 梁杏, 林丹
Journal of Earth Science, 25(6): 1043–1050. doi:10.1007/s12583-014-0486-7,-0001,():
-1年11月30日
The thickness of vadose zone plays a critical role in vertical groundwater recharge. The decline of water table since the past decades due to long-term groundwater over-exploitation has resulted in deep vadose zone in North China Plain. One-dimensional variably saturated flow models were established by Hydrus-1D software and simulations were run under steady and continuous declining water table respectively to estimate the impact of increase in thickness of vadose zone on recharge process, quantity and recharge time. Luancheng area was selected to estimate recharge quantity considering steady and continuous declining water table. The simulation results show that the increase in thickness of vadose zone delays recharge process to water table. The recharge quantity decreases first and then remains stable with the decline of water table. Under the condition of declining water table, the evaluation of recharge by the flux at water table overestimates the recharge quantity. The average annual recharge rate of Luancheng area is 134 mm/a.
North China Plain,, declining water table,, vertical groundwater recharge,, numerical simulation
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【期刊论文】应用水热运移数值模拟优化地下水源热泵系统抽灌井布局
靳孟贵, 汤庆佳, 栗现文
地质科技情报,2012, 31(5):129:136,-0001,():
-1年11月30日
地下水源热泵系统, 水热运移, 数值模拟, 抽灌井布局
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67浏览
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靳孟贵, 高云福, 张人权, 孙连发, 张德忠, 方连玉, 张素娥
地球科学,1997,22(6):656-659,-0001,():
-1年11月30日
土壤水,, 全时空调控,, 田间,, 土壤水流动系统
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36浏览
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【期刊论文】Numerical simulation of groundwater flow patterns using flux as upper boundary
靳孟贵, Liang Xing, Quan Dongjie, Jin Menggui, Liu Yan, Zhang Renquan
Hydrol. Process. 27, 3475–3483 (2013),-0001,():
-1年11月30日
groundwater flow, flow pattern, numerical simulation, flux upper boundary, ratio of infiltration to conductivity
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30浏览
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【期刊论文】Direct observation of complex Tothian groundwater flow systems in the laboratory
靳孟贵, Liang Xing, Liu Yu, Jin Menggui, Lu Xingchen, Zhang Renquan
Hydrol. Process. 24, 3568–3573 (2010),-0001,():
-1年11月30日
sand-box model, groundwater flow, visual physical simulation, complex flow systems
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46浏览
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【期刊论文】Sustainable yield of a karst aquifer system: a case study of Jinan springs in northern China
靳孟贵, Kang Fengxin, Jin Menggui, Qin Pinrui
Hydrogeology Journal (2011) 19: 851–8,-0001,():
-1年11月30日
Karst,, China,, Sustainable yield,, Maximum allowable drawdown,, Numerical model
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【期刊论文】Database management system for a groundwater regime
靳孟贵, Jin Menggui, Wu Baiyi, Zhang Binhai
GROUND WATER, 1993, 31(4),593-597. DOI: 10.1111/j.1745-6584.1993.tb00592.x,-0001,():
-1年11月30日
Database management,, groundwater regime,,
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39浏览
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靳孟贵, Wang Zaimin, Jin Menggui, šimůnek J, van Genuchten M. Th.
Irrigation Science. 2013: 1-13. doi: 10.1007/s00271-013-0409-x.,-0001,():
-1年11月30日
mulched drip irrigation,, Brakish water,, Cotton,, Northwest China
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【期刊论文】Groundwater Recharge at Five Representative Sites in the Hebei Plain, China
靳孟贵, Lu Xiaohui, Jin Menggui*, van Genuchten Martinus Th., Wang Bingguo.
Ground Water. 2011, 49(2): 286-294.,-0001,():
-1年11月30日
groundwater recharge, numerical modeling, Hebei plain
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靳孟贵, Jin MG, Liang X, Cao YL, Zhang RQ
In: Sharma, B.R., Willholth, K. G. and Sharma, K.D. 2006 (Eds.). Groundwater Research and Management: Integrating Science into Management Decisions. 47-61. Malhotra Publishing House, New Delhi..:,-0001:
-1年11月30日
China is one of the 13 most water-deficient countries in the world and water shortage is limiting the development of its economy. The authors present an overview of the availability, status of delopment, and constraints for sustainable exploitation of groundwater in China. Groundwater is the most important or exclusive water source in arid or semi-arid regions of north and northwest China. Average groundwater recharge in China is estimated to be 883.6 billion m3/yr, approximating 31 percent of the nation’s total water resources. Estimated allowable yield of fresh groundwater resource is 352.8 billion m3/yr, or 40 percent of total available amount. Groundwater pollution occurs in many areas of the country, and especially in urban areas. Main pollution sources are industrial and domestic pollution. Current groundwater use approximates 20 percent of total water use of China. Groundwater in the North China Plains (NCP) is over-exploited, being 52 percent of its total water supply for all purposes. Total annual groundwater abstraction in China increased from 57.2 billion m3/yr in the 1970’s to 111.5 billion m3/yr in 1999. Groundwater in south China has great potential for development. To accommodate new water resource management concepts and challenges, China has promulgated many laws and rules in the 1980s and the 1990s and still drafts complementarities and modifies previous ones. The policy shifted several years ago; the primary emphasis from structural engineering interventions to water supply and control problems, and to recognition of the need for a more comprehensive and diffused notion of water as a resource to be developed and managed in response to changing market criteria. Sustainable use of groundwater requires comprehensive efforts from scientists, decision makers and all individual water users. The most important things are: to enhance public awareness and knowledge of groundwater; and to create work environments for better communication among water managers, planners, decision-makers, scientists, water users, etc. and reduce the gaps among different parties.
groundwater, availability, sustainable exploitation, China
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