Abstract
The Xiluodu Dam is a concrete double-curvature arch dam with a crest elevation of 610 m and a height of 285.5 m. Since the impoundment of the Xiluodu reservoir, remarkable river valley contractions (RVCs) have been observed upstream and downstream of the reservoir, potentially threatening the safety of the dam. However, the cause of these RVCs remains unclear. Based on an analysis of hydrogeological conditions, the RVCs were determined a result of the expansion of the aquifer, within which the effective stress decreased due to an increase in the hydraulic head after reservoir impoundment. Referring to the hydrostatic seasonal time (HST) model, a groundwater hydrostatic seasonal (GHS) model is proposed for simulating and predicting the development of the RVCs. Unlike the HST model, the GHS model can provide information on aquifer hydraulic diffusivity. The calibration results illustrate that the GHS model can accurately fit the observed RVCs data. The calculation results revealed that the RVCs were mainly affected by the hydraulic head of the confined aquifer, and that seasonal effects gave rise to less than 10% of the total RVCs. Finally, the development of RVCs were predicted using the GHS model. The prediction results demonstrated that the RVCs of most monitoring lines in the Xiluodu reservoir would gradually approach a convergence condition after 6 February 2021. Until the deadline of the prediction on 1 May 2035, there is still one monitoring line that has not reached a convergence condition (whose RVCs are 157.6 mm, and where the RVC growth rate will decrease to 0.005 mm/d by that time). Considering the large amount of RVCs, we think the safety of the dam requires closer consideration.
Highlights
A large number of hydropower stations have been built around the world, and engineering problems that occur in reservoirs have been discussed widely
These findings extend those of Liang, confirming that the reservoir water level affects the hydraulic head of the confined aquifer through hydraulic transfer, and the increase in the hydraulic head induced the
river valley contractions (RVCs) are rare phenomena that directly threaten the safety of the Xiluodu Dam, so it is important to predict RVCs development
Summary
A large number of hydropower stations have been built around the world, and engineering problems that occur in reservoirs have been discussed widely. RVCs may occur both upstream and downstream of a reservoir and increase due to the impoundment or operational stage of a hydropower station and continue to grow for several years. A specific case of RVCs occurred in the Zeuzier arch dam, located in Switzerland. These RVCs were first observed after the hydropower station safely operated for 21 years. The Xiluodu arch dam is located in the Yongsheng synclinal basin in Yunnan province, China. The basin is a wide, gentle, and relatively complete tectonic synclinal basin, which has not been cut by regional faults In this basin, the direction of the synclinal axial line is northeast, and the dip angle of the northwest wing is 10◦ –15◦ , while the southeast wing is 20◦ –35◦. The Upper Permian Emeishan basalt formation is widely distributed over the Yongsheng synclinal basin, and its rock is dense and hard
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