A 2D shallow water flow model with 1D internal boundary condition for subgrid-scale topography

IF 4 2区环境科学与生态学 Q1 WATER RESOURCES Advances in Water Resources Pub Date : 2024-05-07 DOI:10.1016/j.advwatres.2024.104716

P. Vallés , J. Fernández-Pato , M. Morales-Hernández , I. Echeverribar , P. García-Navarro

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Abstract

In this work, a dynamic internal boundary condition is used as subgrid model in a two-dimensional (2D) model based on the shallow water equations in order to model narrow regions in the domain. In this way, computational savings are sought, since it is not necessary to discretize these regions with cells of reduced size. The new internal boundary condition simplifies other works where 1D–2D coupled models were presented, since the 1D model is a subgrid for the 2D mesh, so the coupling between both models is simple and direct. The coupling is performed using mass conservation, simplifying the calculation in the transfer between both models. Test cases are studied to validate the implemented boundary condition, and a mountain catchment as a realistic case. The results obtained with a fully 2D mesh and a 2D mesh with rills in narrow regions are very similar, with a large reduction in computational cost when using rills, both in test cases and in the realistic case. Thus, the use of the implemented internal boundary condition is an effective tool to study regions with narrow regions by reducing the computational cost with little loss of accuracy in the results.

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具有一维内部边界条件的二维浅层水流模型，适用于亚网格尺度地形

在这项工作中，在基于浅水方程的二维（2D）模型中使用了动态内部边界条件作为子网格模型，以便对域中的狭窄区域进行建模。通过这种方法，可以节省计算量，因为不需要用更小的单元对这些区域进行离散化处理。新的内部边界条件简化了其他 1D-2D 耦合模型的工作，因为 1D 模型是 2D 网格的子网格，所以两个模型之间的耦合简单而直接。耦合是通过质量守恒来实现的，从而简化了两个模型之间的传输计算。研究了一些测试案例，以验证所实施的边界条件，并将一个山区集水区作为现实案例。无论是在测试案例中还是在实际案例中，使用全二维网格和在狭窄区域使用带褶皱的二维网格得到的结果都非常相似，使用褶皱网格时计算成本大大降低。因此，使用已实施的内部边界条件是研究狭窄区域的有效工具，可降低计算成本，而结果的准确性几乎没有损失。

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来源期刊

Advances in Water Resources 环境科学-水资源

CiteScore

9.40

自引率

6.40%

发文量

171

审稿时长

36 days

期刊介绍： Advances in Water Resources provides a forum for the presentation of fundamental scientific advances in the understanding of water resources systems. The scope of Advances in Water Resources includes any combination of theoretical, computational, and experimental approaches used to advance fundamental understanding of surface or subsurface water resources systems or the interaction of these systems with the atmosphere, geosphere, biosphere, and human societies. Manuscripts involving case studies that do not attempt to reach broader conclusions, research on engineering design, applied hydraulics, or water quality and treatment, as well as applications of existing knowledge that do not advance fundamental understanding of hydrological processes, are not appropriate for Advances in Water Resources. Examples of appropriate topical areas that will be considered include the following: • Surface and subsurface hydrology • Hydrometeorology • Environmental fluid dynamics • Ecohydrology and ecohydrodynamics • Multiphase transport phenomena in porous media • Fluid flow and species transport and reaction processes