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Prediction model of outburst debris flow triggered by landslide dam failure considering the erosion process
Abstract The formation of outburst debris flow is different from other types of debris flow as it is formed by the gradual erosion of the riverbed by the unsteady and rapid outburst flow triggered by landslide dam failure. However, a prediction model for outburst debris flow that comprehensively considers the erosion effect has not yet been established. In this paper, the shallow water equation is used to describe the motion of outburst flow. This study proposes a method for constructing a virtual unit and resetting the terrain variables to reproduce the wet and dry boundary. An erosion model considering the effect of hindered erosion is introduced. By combining the shallow water equations, a debris flow prediction model that considers the entire erosion process of outburst flow is thus proposed. The established model is verified by numerical experiments on the evolution of dam-break flow on a dry fixed bed and on a moveable bed; additionally, it is verified by physical experiments on the formation of outburst debris flow. Combined with the calculation results of erosion models with and without a hindered erosion effect, the erosion model without the hindered erosion effect overestimates the flow concentration in this paper. The simulation results are closer to the actual values when considering the effect of hindered erosion in the analysis of outburst debris flow formation. The proposed model in this paper can be used as a tool to predict the occurrence of outburst debris flow.
Highlights A prediction model for outburst debris flow is developed. Hindered erosion is considered to predict the concentration evolution of outburst flow. A TVD-MacCormack finite difference method is proposed considering dry–wet boundary treatment.
Prediction model of outburst debris flow triggered by landslide dam failure considering the erosion process
Abstract The formation of outburst debris flow is different from other types of debris flow as it is formed by the gradual erosion of the riverbed by the unsteady and rapid outburst flow triggered by landslide dam failure. However, a prediction model for outburst debris flow that comprehensively considers the erosion effect has not yet been established. In this paper, the shallow water equation is used to describe the motion of outburst flow. This study proposes a method for constructing a virtual unit and resetting the terrain variables to reproduce the wet and dry boundary. An erosion model considering the effect of hindered erosion is introduced. By combining the shallow water equations, a debris flow prediction model that considers the entire erosion process of outburst flow is thus proposed. The established model is verified by numerical experiments on the evolution of dam-break flow on a dry fixed bed and on a moveable bed; additionally, it is verified by physical experiments on the formation of outburst debris flow. Combined with the calculation results of erosion models with and without a hindered erosion effect, the erosion model without the hindered erosion effect overestimates the flow concentration in this paper. The simulation results are closer to the actual values when considering the effect of hindered erosion in the analysis of outburst debris flow formation. The proposed model in this paper can be used as a tool to predict the occurrence of outburst debris flow.
Highlights A prediction model for outburst debris flow is developed. Hindered erosion is considered to predict the concentration evolution of outburst flow. A TVD-MacCormack finite difference method is proposed considering dry–wet boundary treatment.
Prediction model of outburst debris flow triggered by landslide dam failure considering the erosion process
Jiang, Xiangang (author) / Wen, Tao (author) / Li, Ping (author) / Zhang, Zongliang (author) / Wu, Mingxue (author) / Liu, Xingrong (author) / Chen, Pengshuai (author)
2023-02-11
Article (Journal)
Electronic Resource
English
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