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Study on the Optimal Allocation of Water Resources Systems and the Comprehensive Utilization of Water Resources in Arid-Semiarid Multiple Mining Areas pp 171–217Cite as

Study on MultiObjective Optional Allocation of Complex Water Resources System

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Part of the book series: Springer Theses ((Springer Theses))

Abstract

From chapter three, it can be seen that the water resources system in Shendong mining area has complexity, i.e., multilevel (surface water, groundwater, and mine water). Multiuser and distributive characters, at the same time, are impacted by coal mining activities.

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References

  1. Zhang Z, Wu Q, Zhai D (2001) Karst water resource management model of Xuzhou City. J Liaoning Tech Univ 20(6):754–760 (natural science edition)

    Google Scholar 

  2. Ma Z, Wu Q, Fu S (2004) Study on management model of sustainable utilization of groundwater resources. J Hydraul Eng 9:1–6

    Google Scholar 

  3. Wang W, Li Y, Hou D (2004) Groundwater management model of karst water system at water source site of Shiheng power plant in Feicheng basin. J Earth Sci Environ 26(3):32–38

    Article  Google Scholar 

  4. Yin S, Liu Y (2002) Application of the boundary element method in groundwater resources management. J South China Univ Technol 30(5):86–90 (natural science edition)

    Google Scholar 

  5. Zhang G, Deng W, He Y et al (2002) Groundwater system simulation and optimal management model based on ecological water use. J Acta Geosci Sin 57(5):611–618

    Google Scholar 

  6. Wu Q, Zhu B, Xu H (2005) Study on groundwater resource management model based on digital signal processing technology—with the set-up of planning management model of a water source in Northwest. J China Univ Min Technol 34(2):160–166

    Google Scholar 

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Authors and Affiliations

  1. Xi’an Research Institute of China Coal Technology & Engineering Group Corp., Xi’an, China

    Dong Shuning

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  1. Dong Shuning
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Correspondence to Dong Shuning .

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© 2016 Springer International Publishing Switzerland

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Shuning, D. (2016). Study on MultiObjective Optional Allocation of Complex Water Resources System. In: Study on the Optimal Allocation of Water Resources Systems and the Comprehensive Utilization of Water Resources in Arid-Semiarid Multiple Mining Areas. Springer Theses. Springer, Cham. https://doi.org/10.1007/978-3-319-32342-8_6

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