CoBAGNPS:一个评估wascobs -管立管和盲入口沉积物去除效率的工具箱

A. Gupta, R. Rudra, Bahram Gharabaghi, P. Daggupati, G. Parkin, P. Goel, Rituraj Shukla
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引用次数: 1

摘要

水沙控制盆地(WASCoB)是沿集中流道(沟渠等)建造的重要的BMP,用于控制流域内水沙的运动。WASCoB由护堤、表面入口和排水管组成,用于将水排入沟渠。直接的径流汇集在护堤后面,通过地表入口进入地下排水管。因此,表面入口是WASCoB极其重要的组成部分。进一步的管立管和盲式进口是最常用的两种表面进口。因此,在流域尺度上,WASCoB的最大除沙效率可以通过适当选择一个表面入口来实现,因为WASCoB的效率很大程度上受到离开表面入口的径流和沉积物数量的影响。本研究开发了CoBAGNPS工具箱,用于计算立管和盲口的除沙效率。在工具箱中集成了流域尺度模型(AGNPS)。AGNPS模型的输出文件作为输入文件输入到工具箱中,工具箱中分别对立管和盲口进行了沉积物路由模块的编程,以获得每种类型的地面进水口的沉积物去除效率。此外,为盲入口编程的沉积物路由模块将AGNPS模型与HYDRUS 1-D模型集成在一起。将开发的工具箱应用于安大略省的Gully Creek流域,并比较了通过管立管和盲入口的泥沙负荷。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CoBAGNPS: A Toolbox to Estimate Sediment Removal Efficiency of WASCoBs–Pipe Risers and Blind Inlets
Water and Sediment Control Basin (WASCoB) is an important BMP constructed along concentrated flow-paths (gullies etc.) to control the movement of water and sediment within a watershed. A WASCoB constitutes of a berm, surface inlets, and a drainage pipe to route water into a ditch. Direct runoff ponded behind the berm is routed through surface inlets into an underground drainage pipe. Therefore, surface inlets are an exceedingly important constituent of a WASCoB. Further pipe risers and blind inlets are the two most common type of surface inlets used. Therefore, maximum sediment removal efficiency of WASCoBs at a watershed-scale can be attained by the appropriate selection of a surface inlet, since the efficiency of a WASCoB is greatly impacted by the quantity of runoff and sediment leaving the surface inlet. In this study a toolbox was developed viz., CoBAGNPS to compute the sediment removal efficiency of pipe risers and blind inlets. A watershed-scale model (AGNPS) was integrated within the toolbox. Output files of the AGNPS model are fed as input files into the toolbox where a sediment routing module is programmed separately for pipe risers and blind inlets to obtain the sediment removal efficiency for each type of surface inlet. Further, the sediment routing module programmed for blind inlets integrates the AGNPS model with the HYDRUS 1-D model. The toolbox developed was applied to the Gully Creek watershed in Ontario, and the sediment load routed through pipe risers and blind inlets were compared.
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