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Numerical Model Simulating Water Flow and Contaminant and Sediment Transport in WAterSHed Systems of 1-D Stream-River Network, 2-D Overland Regime, and 3-D Subsurface Media (WASH123D: Version 1.0)

机译：模拟一维河网，二维陆地系统和三维地下介质的WasHs系统中的水流和污染物和泥沙输移的数值模型（WasH123D：1.0版）

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This report presents the development of a numerical model simulating water flow and contaminant and sediment transport in watershed systems of one- dimensional river/stream network, two-dimensional overland regime, and three- dimensional sub surface media. The model is composed of two modules: flow and transport. Three options are provided in modeling the flow module in river/ stream network and overland regime: the kinematic wave approach, diffusion wave approach, and dynamic wave approach. The kinematic and diffusion wave approaches are known to be numerically robust in terms of numerical convergency and stability; i.e., they can generate convergent and stable simulations over a wide range of ground surface slopes in the entire watershed. The question is the accuracy of these simulations. The kinematic wave approach usually produces accurate solutions only over the region of steep slopes. The diffusion wave approach normally gives accurate solutions over the region of mild to steep slopes. However, neither approach has the ability to yield accurate solutions over the region of small slopes, in which the inertial forces are no longer negligible compared to the gravitational forces. The kinematic wave approach cannot address the problems of backwater effects. On the other hand, a dynamic wave approach, having included all forces, can theoretically have the potential to generate accurate simulations over all ranges of slopes in a watershed. The subsurface flow is described by Richard's equation where water flow through saturated-unsaturated porous media is accounted for.

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作者
Yeh, G. ; Cheng, H. ; Cheng, J. ; Lin, H. C. ; Martin, W. D.;
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年度 1998
页码 1-267
总页数 267
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Sediment transport; Ground water; Watersheds; Mathematical models; Finite element analysis; Water pollution; Diffusion; Hydraulic models;

机译：泥沙输送;地下水;流域;数学模型;有限元分析;水污染;扩散;水力模型;

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Numerical Model Simulating Water Flow and Contaminant and Sediment Transport in WAterSHed Systems of 1-D Stream-River Network, 2-D Overland Regime, and 3-D Subsurface Media (WASH123D: Version 1.0)

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