基于拉格朗日块体平流的洪水波浪动力学

L. Tan, V. Chu
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引用次数: 0

摘要

洪波动力学模拟采用鲁棒且精确的拉格朗日块平流(LBA)方案,该方案可以跟踪干湿界面并捕获冲击,而无需使用任何坡度限制器来控制数值振荡。利用LBA考虑了两组具有挑战性的数值问题。首先,对抛物面碗中的水波进行了计算。采用LBA方法对碗表面的干湿界面进行跟踪,具有绝对的计算稳定性。通过数值解收敛到精确解,验证了LBA方法的准确性。最后,应用LBA方法进行了一系列的洪波模拟,模拟结果与室内实验数据吻合较好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Flood wave dynamics using Lagrangian block advection
Flood wave dynamics simulations are determined by a robust and accurate Lagrangian block advection (LBA) scheme that can track the dry-and-wet interface and capture the shocks without using any slope limiter to control the numerical oscillations. Two series of challenging numerical problems are considered using the LBA. First, computations are carried out for water waves in a parabolic bowl. The wetting-and-drying interface on the surface of the bowl is tracked by the LBA method with absolute computational stability. The accuracy of the LBA method is verified by the convergent of the numerical solution to an exact solution. Finally, the LBA method is applied to carry out a series of flood wave simulations, which have closely reproduced the data obtained from the laboratory experiments.
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