Numerical Simulation of Two-Dimensional Dam Failure and Free-Side Deformation Flow Studies

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Abstract

A dam breaking is a major flood catastrophe. The shape, depth, and wave Doppler effect of initial water flow are all modified as a result of the interaction of the water body with downstream structures after a dam breach, forming a diffraction and reflection flow field. This study investigates the dam breaking problem of a single liquid, by creating a two-dimensional simplified numerical model using the VOF approach, analysing the interaction and effect between barriers of various forms and the dam failure flow, and explains the problem of a complex flow mechanism involving significant deformation of the free surface of a medium. According to the findings, obstacles of varying forms could obstruct the dam break’s water flow to various degrees, and the viscous dissipation characteristic of the water body at the edge of the obstacle is closely related to the slope of the site. The numerical simulation presented in this study is validated, demonstrating its accuracy for both the gate-pulling and downstream wet-bed scenarios.

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Jiang, H., Zhao, B., Dapeng, Z., & Zhu, K. (2023). Numerical Simulation of Two-Dimensional Dam Failure and Free-Side Deformation Flow Studies. Water (Switzerland), 15(8). https://doi.org/10.3390/w15081515

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