Journal of Yangtze River Scientific Research Institute ›› 2024, Vol. 41 ›› Issue (9): 79-85.DOI: 10.11988/ckyyb.20231379

• Hydraulics • Previous Articles     Next Articles

Abnormal Water Level Increase in the Valve Shaft of a Ship Lock Induced by High Density Currents in Impounded River

YANG Zhong-yong1(), LI Lin1, SUN Shi-wei1, ZHANG Yong2, TANG Yan-ping2, WANG Zi-yang2, LIU Xin-jian3, XU Yang4()   

  1. 1 College of Hydraulic and Environmental Engineering, China Three Gorges University, Yichang 443002,China
    2 Three Gorges Navigation Authority, Yichang 443000,China
    3 Chongqing Building Research InstituteCo., Ltd., Chongqing 400042, China
    4 Hubei Key Laboratory of Intelligent Yangtze River and HydroelectricScience, China Yangtze Power Co.,Ltd., Yichang 443000, China
  • Received:2023-12-15 Revised:2024-04-01 Online:2024-09-01 Published:2024-09-20
  • Contact: XU Yang

Abstract:

The valve shaft of Gezhouba dam ship lock is connected to the transmission gallery of the river area. During the flood season of 1993, the water level in the valve shaft increased abnormally, jeopardizing the safety of the lock’s equipment and facilities. To investigate the causes of the abnormal water level rise in the valve shaft of the Gezhouba ship lock, we examined the quantitative relationship between high-sediment-concentration flow and abnormal water levels. Using the Mike-3D numerical model, we simulated the vertical distribution of flow and sediment concentration under various discharge rates and sediment concentrations. We then calculated the relationship between the abnormal water levels in the valve shaft and sediment concentration. Based on these simulations, we explained the abnormal water level increases in the two valve shafts of the Gezhouba ship lock during 1993. Finally, we assessed the likelihood of future abnormal water level increases in the valve shafts. The modelling result reveals that the discharge and sediment concentration at approximately (30 000 m3/s, 2.85 kg/m3), (40 000 m3/s, 1.42 kg/m3), and (50 000 m3/s, 1.23 kg/m3), respectively, would lead to the abnormal water level increase exceeding 0.5 m. Following the construction of cascade reservoirs in the upstream and the implementation of China’s policy of returning farmland to forests, the probability of water level rise exceeding 0.5 m is now quite low. The findings offer valuable management insights for the safe operation of the Gezhouba ship lock.

Key words: Gezhouba ship lock, valve shaft, water-sediment numerical simulation, high density flow, abnormal water level

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