Numerical simulation of flow characteristics in nonprismatic compound channels

Water Practice & Technology Pub Date : 2024-06-08 DOI:10.2166/wpt.2024.153

Vijay Kaushik, Munendra Kumar, Bandita Naik

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Abstract

The assessment of the flow characteristics of river systems is a very intricate undertaking in the development of hydraulic models for the purposes of flood control and floodplain management. Therefore, it is essential to use simulation models in order to calibrate and verify the experimental results. In this study, the Hydrologic Engineering Centre's – River Analysis System (HEC-RAS) is used to calibrate and validate the distribution of velocity and shear stress for different converging compound channels. Two separate flow regimes were assessed for validation based on experimental data obtained from converging compound channels with angles of θ = 5°, 9°, and 12.38°. The projected values for two relative depths (β = 0.15 and 0.20) exhibit a similar pattern of variation as the empirical observations and are marginally lower than the recorded values. This suggests that the HEC-RAS model accurately estimates the velocity and shear stress values. The disparity between the simulated and experimental outcomes shows a discrepancy of less than 10%. Hence, the implications of our results suggest that while dealing with nonprismatic rivers, it is advisable to take into account lower values. The used methodology and the outcomes focused on problem-solving might potentially inform the development of flood control infrastructure for nonprismatic watercourses.

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非棱柱复合渠道中流动特性的数值模拟

在开发用于洪水控制和洪泛区管理的水力模型时，对河流系统流量特性的评估是一项非常复杂的工作。因此，必须使用模拟模型来校准和验证实验结果。在这项研究中，水文工程中心的河流分析系统（HEC-RAS）被用来校准和验证不同汇流复合河道的流速和剪应力分布。根据从角度为 θ = 5°、9° 和 12.38°的汇流复合河道获得的实验数据，对两种不同的水流状态进行了评估验证。两个相对深度（β = 0.15 和 0.20）的预测值表现出与经验观测值类似的变化模式，并略低于记录值。这表明，HEC-RAS 模型准确地估计了速度和剪应力值。模拟结果与实验结果之间的差异小于 10%。因此，我们的结果表明，在处理非棱镜河流时，最好考虑较低的数值。所使用的方法和以解决问题为重点的结果有可能为非棱镜河道防洪基础设施的开发提供参考。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Water Practice & Technology

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