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Volume 1 Issue 2
Sep.  2013
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Article Contents
Xu Guangming, Bi Pan, Li Anna. 2013: A Study of the Groundwater Reservoirs and Regulation in the Alluvial Fan of the Hutuo River. Journal of Groundwater Science and Engineering, 1(2): 24-31.
Citation: Xu Guangming, Bi Pan, Li Anna. 2013: A Study of the Groundwater Reservoirs and Regulation in the Alluvial Fan of the Hutuo River. Journal of Groundwater Science and Engineering, 1(2): 24-31.

A Study of the Groundwater Reservoirs and Regulation in the Alluvial Fan of the Hutuo River

  • Publish Date: 2013-09-28
  • Based on analysis of the geology and hydrogeology of the alluvial fan of the Hutuo River, Hebei province of China, this paper studies the groundwater reservoir’s regulated space, storage capacity and regulated water in system. On this basis, a groundwater numerical simulation model was established. Using this model and taking into account specific regulating schemes, this paper evaluates the regulation and storage capacity of groundwater reservoirs and the effect of conjunct-tive operation of surface water and groundwater. Results show that the funnel area of the study area status storage space is 12.83×108m3. Groundwater level after the regulation has clearly rebounded; improving groundwater supply and ensuring stable water supply in Shijiazhuang city of Hebei province, this clearly has important practical significance.
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  • Xu GM, Liu LJ, et al. Research on the Adjustment of Groundwater Storage In NorthChina Plain [J]. Re?source Science.2009,31(3):375-381
    Zhu SY, Tian JC, Li QD. Current Situation and Development Trend of Research on Ground-water Reservoir [J].Water-saving Irrigation. 2008,(4): 23-27
    Li WL, Shu LC, et al. Concept and design theory of groundwater reservoir [J]. Water Resour. Res. 2006,37(5):613-618
    Gong HL. Assessment of Groundwater Resources and Underground Reservior in Zhengzhou City [J]. Journal of Basic Science and Engineering . 1999,7(4):372-380
    Fei HY, Chen SE, Liu KY. Characteristics of inferior variation of water environment in Hutuohe River dried-up area [J]. Water Resour. Res. 2001,(11): 41-44
    Fei YH, Cui GB. Development and Problems: Research on Artificial Adjustment of Ground-water Storage [J]. Hydrology. 2006,26(4): 10-14
    Wang WK, Kong JL, et al. Simulation of regula-tional capacity of groundwater reservoirs in the piedmont of the Qinling Mountain for Guanzhong Basin [J]. Hydrogeology and Engineering Geology. 2002,(4):5-9
    Cui QP, Zhang ZQ, et al. An analysis of construction conditions of Hutuo river ground-water reservoir [J]. Hydrogeology and En-gineering Geology. 2011,38(3):19-23
    Dai CL, Chi BM. Analysis of the regulation and storage capacity of gronudwater reservoir [J]. Hydrogeology and Engineering Geology. 2003 (2): 37-40
    Wang JJ, Wang KZ, et al. The feasibility investigation of underground reservoir con-struction in the excess exploited funnel area [J] . Engineering Investigation. 2009(3):36-41
    Zhang GH, Fei YH. A study on artif icial under-ground reserve function in the aquifer with river channels in Taihang piedmont plain of China : a case study in the alluvial plain of Hutuo River[J]. Hydrology. Arid Land Re?sources and Environ-ment. 2004, (1):42-48
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