Hongyan Wei scite author profile

Abstract. Experiments were conducted in a bend flume to study the overtopping breaching process and the corresponding overflow rates of river levees constructed with cohesive sediments. The river and land regions were separated by the constructed levee in the bend flume. Results showed that the levee breaching process can be subdivided into a slope erosion stage, a headcut retreat stage and a breach widening stage. Mechanisms such as flow shear erosion, impinging jet erosion, side slope erosion and cantilever collapse were discovered in the breaching process. The erosion characteristics were determined by both flow and soil properties. Finally, a depth-averaged 2-D flow model was used to simulate the levee breaching flow rates, which is well expressed by the broad-crested weir flow formula. The deduced discharge coefficient was smaller than that of common broad-crested rectangular weirs because of the shape and roughness of the breach.

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Investigation of non-cohesive levee breach by overtopping flow

Wei

Liang

et al. 2013

J Hydrodyn

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Non-symmetrical levee breaching processes in a channel bend due to overtopping

Wei

et al. 2018

International Journal of Sediment Research

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Study on the stability of non-cohesive river bank

Wei

Liang

et al. 2010

International Journal of Sediment Research

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Hongyan Wei

Experimental study on the bank erosion and interaction with near-bank bed evolution due to fluvial hydraulic force

Overtopping breaching of river levees constructed with cohesive sediments

Investigation of non-cohesive levee breach by overtopping flow

Non-symmetrical levee breaching processes in a channel bend due to overtopping

Study on the stability of non-cohesive river bank

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