Urban flood modeling with a novel coupling method of surface and sewer hydrodynamic processes

Water Science & Technology Pub Date : 2024-05-24 DOI:10.2166/wst.2024.172

Siyi Wang, Jiaying Wang, K. Xin, Hexiang Yan, Shuping Li, Tao Tao

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Abstract

Drainage modeling that accurately captures urban storm inundation serves as the foundation for flood warning and drainage scheduling. In this paper, we proposed a novel coupling ideology that, by integrating 2D-1D and 1D-2D unidirectional processes, overcomes the drawback of the conventional unidirectional coupling approach that fails to properly represent the rainfall surface catchment dynamics, and provides more coherent hydrological implications compared to the bidirectional coupling concept. This paper first referred to a laboratory experimental case from the literature, applied and analyzed the coupling scheme proposed in this paper and the bidirectional coupling scheme that has been widely studied in recent years, compared the two coupling solutions in terms of the resulting accuracy and applicability, and discussed their respective strengths and weaknesses to validate the reliability of the proposed method. The verified proposed coupling scheme was then applied to the modeling of a real drainage system in a region of Nanjing, China, and the results proved that the coupling mechanism proposed in this study is of practical application value.

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利用地表和下水道水动力过程的新型耦合方法建立城市洪水模型

能准确捕捉城市暴雨淹没情况的排水模型是洪水预警和排水调度的基础。本文提出了一种新颖的耦合思想，通过整合 2D-1D 和 1D-2D 单向过程，克服了传统单向耦合方法不能正确表达降雨面汇水动态的缺点，与双向耦合概念相比，提供了更加连贯的水文意义。本文首先参考了文献中的一个实验室实验案例，应用并分析了本文提出的耦合方案和近年来广泛研究的双向耦合方案，比较了两种耦合方案的精度和适用性，并讨论了各自的优缺点，以验证所提方法的可靠性。随后，将经过验证的耦合方案应用于中国南京某地区实际排水系统的建模，结果证明本研究提出的耦合机制具有实际应用价值。

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 Science & Technology

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