应用一维模型进行二维复杂区域的陆地流模拟

IF 4 2区环境科学与生态学 Q1 WATER RESOURCES

Advances in Water Resources Pub Date : 2024-04-25 DOI:10.1016/j.advwatres.2024.104711

Yaoxin Zhang , Mohammad Z. Al-Hamdan , Ronald L. Bingner , Xiaobo Chao , Eddy Langendoen , Andrew M. O'Reilly , Dalmo A.N. Vieira

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引用次数: 0

摘要

高计算需求限制了二维（2D）浅水方程模型在高分辨率陆地流模拟中的应用，而一维（1D）模型可以实现更高的计算效率。本研究将一维水动力模型应用于复杂二维域上陆地流模拟的代用二维模型。减少一个维度后，代用模型模拟将具有可接受的精度和更高的计算效率。代用模型是通过在网格生成过程中模仿二维模型来实现的，这样生成的一维河道网络在几何上覆盖了整个域，没有重叠和交叉，并且在水文上遵循最陡峭的斜坡。为了比较一维模型和二维模型的模拟结果，我们使用了实验室和野外尺度二维领域的几个基准案例，这些案例具有复杂的几何形状，从未应用过一维模型。比较结果表明，一维模型确实有潜力有效地模拟二维复杂区域的陆上水流，其精度可与二维模型相媲美。

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Application of 1D model for overland flow simulations on 2D complex domains

High computational demand limits the applications of two-dimensional (2D) shallow water equation models for high resolution overland flow simulations, while one-dimensional (1D) models can achieve higher computing efficiency. This study applied a 1D hydrodynamic model to surrogate 2D models for overland flow simulations on complex 2D domains. With one dimension reduced, the surrogate model simulation would have acceptable accuracy with much higher computing efficiency. The surrogating is fulfilled through mimicking 2D models in mesh generations, so that the 1D channel network is generated in such a way that it geometrically covers the whole domain without overlapping and intersection, and hydrologically follows the steepest slopes. Several benchmark cases on 2D domains in both laboratory and field scales with complex geometry, where no 1D models have been ever applied, are used to compare the 1D and 2D model simulations. The comparisons demonstrate that the 1D model does have potentials to efficiently simulate overland flow on 2D complex domains with accuracy comparable to 2D models.

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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