Internal erosion of soil pipes: Sediment rating curves for soil pipes

Wilson G. V; Ursic M.; Fox G. A.; Nieber John L.

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Internal erosion of soil pipes: Sediment rating curves for soil pipes

机译：土壤管的内部侵蚀：土壤管道沉积物曲线

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The collapse of soil pipes due to internal erosion can result in fully mature gullies. Few studies have measured the rates of sediment detachment and transport through soil pipesin situ. The objectives of this work were to determine suspended sediment concentration (SSC) in soil pipes as a function of pipeflow rate to develop sediment rating curves (SRC) and measure the bedload transport as a function of cumulative flow per storm event. H-flumes were installed in seven discontinuous gullies formed by pipe collapse and instrumented for pipe discharge measurements and suspended sediment sampling. The typical response to pipeflow was an initial flush of high concentration of suspended sediment followed by a decrease as pipeflow increased (rising limb of hydrograph). Pipeflows were often so dynamic that it was difficult to consistently capture the initial flush of sediment, resulting in weak to non-existent SRCs. The falling limb of the hydrograph tended to have a relatively low SSC. Thus, soil pipe SRCs tended to be better represented by hysteretic SRCs, although relationships between SSC and flow rate were poorly represented by SRCs. A power law equation given by SSC = aQ(b)was adopted to represent the SRC relationships. Fitting this equation to data showed a correlation between the offset,a, and the slope,b, with the slope decreasing as the offset increases. Both SRC parameters (aandb) were correlated to the contributing area of the individual pipe. Bedload appeared to be an important contributor to sediment transport, with bedload - expressed as an average event sediment concentration (mg l(-1)) - decreasing as the volume of the event discharge (m(3)) increased. A significant portion (11-31%) of the bedload material was gravel and aggregates (>2 mm diameter material). While this work was the first to determine SRCs for soil pipes, refined sampling and measurement techniques are needed. (c) 2020 John Wiley & Sons, Ltd.

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《Earth Surface Processes and Landforms: The journal of the British Geomorphological Research Group》 |2020年第15期|共15页
作者
Wilson G. V; Ursic M.; Fox G. A.; Nieber John L.;
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作者单位

USDA ARS Watershed Phys Proc Res Unit Natl Sedimentat Lab 598 McElroy Dr Oxford MS 38655 USA;

USDA ARS Watershed Phys Proc Res Unit Natl Sedimentat Lab 598 McElroy Dr Oxford MS 38655 USA;

North Carolina Slate Univ Biol &

Agr Engn Raleigh NC 27695 USA;

Univ Minnesota Bioprod &

Biosyst Engn St Paul MN 55455 USA;

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原文格式 PDF
正文语种 eng
中图分类地球物理学;
关键词
suspended sediment; pipeflow; bedload; transport; discharge;

机译：悬浮沉积物;pipeflow;床单;运输;放电;

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Internal erosion of soil pipes: Sediment rating curves for soil pipes

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