DOI: 10.3724/SP.J.1201.2011.01001

South-to-North Water Diversion and Water Science & Technology (南水北调与水利科技) 2011/9:1 PP.1-7

Large Scale Distributed Hydrological Model of Inter-basin Water Transfer and its Application

Distributed water cycle simulation research under environment change is a important problem of earth system science.It is also the application foundation of regional water security and water resources risk management.This paper studied regional water cycle simulation,environment change and water security at Han River,Yellow River and Hai River which are linked with South-to-North Water Diversion Project..We focused on the research and prospects for the large-scale inter-basin water transfer distributed hydrological model (LDTVGM). There are two research purposes.Fisrt,to explore how to develop the large-scale inter-basin water transfer distributed hydrological model under changing environment.Second,to develop the theory and impact assessment methods about regional water cycle dynamics - nonlinear systems - multiple sources of uncertainty analysis.This study can provide a scientific basis for regional water resources security and risk management of countermeasures under climate change and high intensity of human activities and.

Key words:Inter-basin water transfer,distributed hydrological model,ground water,impact

ReleaseDate:2014-07-21 15:58:48

[1] Vorosmarty,C.;Lettenmaier,D.;Leveque,C.;Meybeck,M.;Pahl-Wostl,C.;Alcamo,J.;Cosgrove,W.;Grassl,H.;Hoff,H.;Kabat,P.;Lansigan,F.;Lawford,R.;Naiman,R.(as Members of the Framing Committee of the GWSP)(2004):Humans Transforming the Global Water System.Eos,Transactions,American Geophysical Union,85:48(30 November 2004).

[2] 夏军.全球变化与水文学科新的进展与挑战[J].资源科学,2002,24(3):1-7.(XIA Jun.Hydrological Science Towards Global Change:Progress and Challenge[J].Resources Science,2002,24(3):1-7.(in chinese))

[3] 李善同,许新宜.南水北调与中国发展[M].北京:经济科学出版社,2004.(LI Shan-tong,XU Xin-yi.Enforcement of Southern-to-North Water Development of China[M].Beijing:Economy Science Press,2004.(in Chinese)

[4] 夏军,王纲胜, 谈戈,等.水文非线性系统与分布式时变增益模型[J].中国科学D辑地球科学,2004,34(11):1062-1071.(XIA Jun,WANG Gang-sheng,TAN Ge,et al.Development of Distributed Time-variant Gain Model for Nonlinear Hydrological Systems[J].Science in China Series D:Earth Sciences,2004,34(11):1062-1071.(in Chinese))

[5] 贾仰文,王浩,倪广恒,等.分布式流域水文模型原理与实践[M].北京:中国水利水电出版社,2005.(JIA Yang-wen,WANG Hao,NI Guang-heng,et al.Theory and Practice of Distributed Basin Hydrological Model [M].Beijing:Chinese Water Resources and Hydrology Press,2005.(in Chinese))

[6] 熊立华,郭生练.分布式流域水文模型[M].北京:中国水利水电出版社,2004.(XIONG Li-hua,GUO Sheng-lian.Distributed Basin Hydrological Model[M].Beijing:Chinese Water Resources and Hydrology Press,2004.(in Chinese))

[7] 刘昌明,郑红星,王中根.流域水循环分布式模拟[M].郑州:黄河水利出版社,2006.(LIU Chang-ming,ZHENG Hong-xing,WANG Zhong-gen.Basin Water Cycle Distributed Simulation[M].Zhengzhou:Yellow River Conservancy Press,2006.(in Chinese))

[8] 夏军.水文非线性系统理论与方法[M].武汉:武汉大学出版社,2002.(XIA Jun. Hydrological Nonlinear Theories and Approaches[M].Wuhan:Wuhan University Press,2002.(in Chinese)

[9] XIA Jun,2010,Screening for Climate Change Adaptation:Water Problem,Impact and Challenges in China,International Journal on Hydropower & Dams,17(2),78-81.

[10] J.Bogardi & Z W.Kundzewicz,2002,Risk,Reliability,Uncertainty,and Robustness of Water Resources System,International Hydrology Series,Cambridge University Press.

[11] 夏军.水问题的复杂性与不确定性研究与进展[M].北京:中国水利水电出版社, 2004.(XIA Jun. Complexty and Uncertainly of Water Problem:Progress and Research[M].Beijing:Chinese Water Resources and Hydrology Press,2004.(in Chinese))