Volume 17 Issue 4
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Wen-jie Yang, Yong Huang, Xiao-song Dong, Xu-feng Zhu, Zhong-bo Yu, Ke-han Miao. 2024: A novel approach for quantifying upper reservoir leakage. Water Science and Engineering, 17(4): 397-405. doi: 10.1016/j.wse.2024.03.001
Citation: Wen-jie Yang, Yong Huang, Xiao-song Dong, Xu-feng Zhu, Zhong-bo Yu, Ke-han Miao. 2024: A novel approach for quantifying upper reservoir leakage. Water Science and Engineering, 17(4): 397-405. doi: 10.1016/j.wse.2024.03.001
shu

A novel approach for quantifying upper reservoir leakage

doi: 10.1016/j.wse.2024.03.001

  • a. School of Earth Science and Engineering, Hohai University, Nanjing 211100, China;

  • b. College of Hydrology and Water Resources, Hohai University, Nanjing 210098, China

Funds:

This work was supported by the Joint Fund Project of the National Natural Science Foundation of China (Grant No.U2240217).

  • Received Date: 2023-08-20
  • Accepted Date: 2024-02-02
    • Available Online: 2024-11-30
    Abstract
  • During the operational phases of the upper reservoir in a pumped storage power station, the water level, leakage area, and hydraulic gradient of the upper reservoir alter dynamically due to the cyclic pumping and draining activities. The rising groundwater level during storage introduces distinct leakage conditions within the reservoir basin, characterized by unsaturated, partially saturated, and saturated states. Consequently, reservoir basin leakage exhibits variability across these states. To address this issue, this study formulated rational assumptions corresponding to the three leakage states in a reservoir basin and derived analytical expressions for seepage calculation based on Darcy's law and the principles governing groundwater flow refraction. A case study was conducted to investigate the relationship between various factors and leakage. The results showed that leakage primarily depended on the permeability of the impermeable layer in the reservoir basin. The upper reservoir leakage was estimated, and the calculated leakage generally agreed with the measurements, offering insights into the leakage mechanism of the Liyang pumped storage power station. In addition, the reasons for disparities between measured and calculated leakage were analyzed, and the reliability of the developed method was validated. The findings of this study provide a foundation for the seepage control design of upstream reservoirs in similar projects.

     

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