From Landslide Intrusion to River Damming: An Open-Channel Multiphase SPH Simulation Framework
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更新:2026-07-16 15:11:41 浏览:0次
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摘要
Landslide-induced river damming is governed by transient momentum exchange between a moving landslide and receiving open-channel flow, yet this short formation stage is difficult to observe and predict. This study presents a fully Lagrangian multiphase smoothed particle hydrodynamics framework for resolving landslide intrusion, granular deposition, channel blockage, and backwater development under sustained inflow and outflow. The method couples an interface-aware multiphase SPH formulation [1] with buffer-layer open boundaries [2], allowing river hydraulics and topographic confinement to evolve within a finite reach.
Verification against multiphase and open-channel benchmarks and validation against flume tests demonstrate that the model captures interfacial deformation, partial-to-complete blockage, and rapid upstream impoundment. The framework is then applied to the 2008 Yangjiagou landslide dam in the Mianyuan River basin [3], where the simulated runout, channel-spanning deposit, and impounded-water distribution are consistent with field evidence (Fig. 1).
Results indicate that dam formation is controlled not only by bulk discharge but also by depth-dependent momentum redistribution, which regulates deposition pathway and blockage efficiency. This framework provides a process-based tool for assessing river-blocking landslide hazards in confined mountain valleys.
关键词
Landslide Dam,Smooth particle hydrodynamic method,multiphase flows,open channel flow,boundary condition
稿件作者
Asai Mitsuteru
九州大学
Zheng Han
中南大学
Yangfan Ma
Kyushu University
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