[Objective]The RM hydropower station is proposed to be constructed in the upper reaches of the Lan-cang River.Its impoundment and operation might result in deformation and instability of the RS giant accumulation on the left bank near the dam,thereby triggering landslide-induced wave disasters and endangering the safety of the key hydraulic structures and the downstream residents.[Methods]This study combines extensive geological sur-veys and physical mechanics experiments to investigate the potential instability and failure modes of RS accumula-tion under reservoir filling.On this basis,a three-dimensional numerical model of the entire river channel from the RS accumlation to the dam section was established.An analysis of the dynamic evolution of landslide-wave chain disasters caused by RS accumulation was conducted,and parameters such as the initial wave height,wave height a-long the opposite bank,propagation characteristics,wave height at the dam front,and wave height climbing along the dam were predicted.[Results]The results indicate that as the reservoir water level is gradually elevated to an altitude of 2 800 meters,the RS accumulation is most likely to undergo a large-scale instability failure.The rear tensile fracture boundary is the crushed stone and soil layer of the accumulation within a certain range above the reservoir water level,and the front shear boundary is the fine-grained layer in the middle and lower parts of the ac-cumulation.After the instability failure of the accumulation,it induces a landslide-induced wave.The height of the first wave peaks near the water entry point,approximately 31.5 meters,and lasts for about 15 seconds.As the wave propagates downstream,the wave height decreases by 39.5%at the No.1 river bay,reaching the dam in ap-proximately 147 s and continuing to climb along the dam slope.The climbing wave height is approximately 2.6 m and lasts for 180 s,with no risk of overtopping by the initial or subsequent smaller waves.After being impeded by the dam,the initial wave propagates upstream,creating a backflow phenomenon,which,combined with subse-quent waves,forms a locally high wave area.At monitoring point P5,the maximum backflow wave height reaches approximately 4.56 m and lasts for 219 s.[Conclusion]During the wave propagation process,the topography of the river bay and backflow phenomena significantly accelerate the energy dissipation of the waves,effectively reduc-ing the risk of wave impact and secondary disasters.
关键词
澜沧江/巨型堆积体/离心机模型试验/失稳模式/滑坡-涌浪链式灾害预测
Key words
Lantsang River/giant accumulation/centrifuge model test/instability mode/prediction of landslide-wave chain disaster
维普
万方数据