典型山地城市联合排水系统中沙砾的时间分布

2012 International Symposium on Geomatics for Integrated Water Resource Management Pub Date : 2012-11-12 DOI:10.1109/GIWRM.2012.6349537

Qiang He, Cheng-fei Hu, Zhiheng Xu

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引用次数: 1

摘要

在干湿两种天气条件下，对某典型山地城市联合污水系统的污水样本进行了采集和分析。结果表明:在干旱条件下，进水砂砾在24 h内具有明显的变化曲线;进水中砂砾的平均浓度约为183.9 mg.L-1。涪陵污水处理厂泥沙负荷高于设计负荷值。砂粒变化曲线与收集系统的污水流量有关。在湿润天气下，初降雨产生的沙粒浓度峰值至少是干燥天气下的8倍。在潮湿天气取样时，砂砾的平均浓度为405.5mg。L-1在联合下水道系统。在商业区的卫生下水道中，沙砾的平均浓度为426.2mg.L-1。由于雨管中雨水的稀释作用，砂粒浓度仅为199.1mg.L-1。进入涪陵污水处理厂的砂砾中，高达50%可能是200微米或更小。现有的除砂系统很难有效地去除200微米或更小的颗粒。对于较小的砂粒，应设计砂粒去除装置，去除粒径在100微米左右的砂粒和沉淀物颗粒。无论干湿天气，山区城市污水处理厂都必须更加重视除砂系统。

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Temporal distribution of grit in the combined sewer system of the typical mountainous city

The sewage samples in the combined sewer system of the typical mountainous city were collected and analyzed during dry and wet weather. Results showed that grit from influent had obvious change curve during 24 hours in dry-weather. The average concentration of grit from influent was about 183.9 mg.L-1. The loads of grit were higher than value designed in the Fuling Wastewater Treatment Plant (WWTP). Grit variation curve was associated with the sewer flow discharge in collection system. In wet-weather, the peak concentration of grit from initial rainfall was at least eight times more than that in dry-weather. The average concentration of grit during the wet weather of sampling was 405.5mg.L-1 in combined sewer system. In the sanitary sewer in the commercial zones, the average concentration of grit was 426.2mg.L-1. Because of the dilution effect of rain in a rain pipe, the grit concentration was only 199.1mg.L-1. Up to 50% of the grit entering the Fuling WWTP may be 200 microns or smaller. It is difficult for the existing grit removal systems to efficiently remove the grit 200 microns or less. For removal of smaller grit, a grit removal device should be designed for removal of grit and sediment particles near 100 microns in particle size. Regardless of dry weather and wet weather, the WWTP of the mountainous city had to pay more attention to the grit removal system.

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2012 International Symposium on Geomatics for Integrated Water Resource Management

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