Flow structure and phosphorus adsorption in bed sediment at a 90° channel confluence

IF 3.4 3区工程技术 Q1 MECHANICS 水动力学研究与进展:英文版 Pub Date : 2017-10-01 DOI:10.1016/S1001-6058(16)60804-1

Yang Xiao (肖洋) , Yang Xia (夏阳) , Sai-yu Yuan (袁赛瑜) , Hong-wu Tang (唐洪武)

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引用次数: 9

Abstract

The distribution of the phosphorus (P) adsorption in a bed sediment at channel confluences is an important issue for understanding the transport of contaminants in channel networks. In this study, the flow structure and its effect on the P distribution in the bed sediment were investigated in a 90° confluence flume. It is shown that the P adsorption amount in the sediment varies significantly in different hydrodynamic zones. The P adsorption amount is high in the flow separation zone where the horizontal velocity of the flow is very small, and it is low in the maximum velocity zone where the flow velocity reaches a maximum. The low P adsorption amount is observed in the downstream portion of the distorted shear layer, while the P enrichment is found in the upstream portion, as is related to the significant downwelling flow in this zone. Thus, the flow structure, especially, the flow velocity, has a significant effect on the distribution of the P adsorption in the bed sediment at the channel confluences.

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90°河道合流河床沉积物的流动结构与磷吸附

河道汇合处河床沉积物对磷的吸附分布是了解河道网络中污染物运移的一个重要问题。在90°合流水槽中，研究了河床沉积物的流动结构及其对P分布的影响。结果表明，不同水动力带沉积物对磷的吸附量差异显著。P的吸附量在流动水平速度很小的流动分离区高，在流速达到最大值的最大速度区低。变形剪切层下游P吸附量低，上游P富集，这与该区域存在明显的下行流有关。因此，水流结构，尤其是流速，对河道汇合处河床沉积物中磷吸附的分布有显著影响。

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