人工快渗的强化预处理研究

通过室内实验并结合实际工程研究了一种新型组合式人工快渗系统处理氨氮负荷较高的污水。结果表明,简易曝气装置有效降低了人工快渗池的污染物负荷,保障了整个系统的出水水质。实际工程中,经过简易曝气池的预处理,人工快渗池的水力负荷可达2.5 m/d,降低了人工快渗系统的占地面积,出水COD、氨氮、总氮等指标达到了《城镇污水处理厂污染物排放标准》(GB/T18918-2002)一级A排放标准。     

生物填料地下渗滤系统处理生活污水的中试研究

以活性污泥等生物基质为填料.在不同的水力负荷和有机负荷条件下,研究了地下渗滤系统对生活污水的处理效果.中试结果表明:地下渗滤系统对COD、NH_4~+-N和TP有着良好的去除效果,在水力负荷为4 cm·d~(-1),污染负荷为280 mg·L~(-1)和320 mg·L~(-1)时.COD、NH_4~+-N和TP的去除去分别达到91.2%、97.2%、88.0%和90.6%、95.6%、90.4%;水力负荷达到450 mg·L~(-1)时,有机物及氨氮的去除率下降迅速,仅为83.2%和85.5%,TP的去除率略有提高,为91.7%;平均污染负荷为300 mg·L~(-1),水力负荷为4.0 cm·d~(-1)、6.5 cm·d~(-1)和8.1 cm·d~(-1)时,COD、NH+4_4~+-N和TP的去除率分别达到90.6%、97.4%、90.0%.87.3%、96.8%、84.0%和85.6%,96.3%,83.3%;适宜的生活污水处理条件是水力负荷为8.1 cm·d~(-1),污染负荷低于450 mg·L~(-1).在以上工况下的出水水质均优于生活杂用水水质标准(CJ251-89)和沈阳市污水处理中水回用标准,处理效果稳定;系统垂直方向的氨化细菌分布较均匀,硝化细菌在70 cm以上区域数量较多,反硝化细菌在70 cm以下区域数量较多;氨化细菌与COD、NH_4~+-N和TN的去除率的相关性显著,硝化及反硝化细菌与COD、NH_4~+-N和TN的去除率的相关性极显著;氨化、硝化和反硝化细菌与TP的去除率的相关性均不显著,说明生物作用不是TP脱除的主要途径.     

Performance Assessment of Rain Gardens1

Abstract: The most widely used approach for evaluating the performance of stormwater best management practices (BMPs) such as rain gardens is monitoring, but this approach can involve a long time period to observe a sufficient number and variety of storm events, a high level of effort, and unavoidable uncertainty. In this paper, we describe the development and evaluation of three approaches for performance assessment of rain gardens: visual inspection, infiltration rate testing, and synthetic drawdown testing. Twelve rain gardens in Minnesota underwent visual inspection, with four determined to be nonfunctional based on one or more of the following criteria: (1) presence of ponded water, (2) presence of hydric soils, (3) presence of emergent (wetland) vegetation, and (4) failing vegetation. It is believed that these rain gardens failed due to a lack of maintenance. For the remaining eight rain gardens, an infiltrometer was used to determine the saturated hydraulic conductivity (K_sat) of the soil surface at several locations throughout each basin in what is termed infiltration rate testing. The median K_sat values for the rain gardens ranged from 3 to 72 cm/h. Synthetic drawdown testing was performed on three rain gardens by filling the basins with water to capacity where possible and recording water level over time. The observed drain times for two of those rain gardens were in good agreement with predictions based on the median of the infiltrometer measurements. The observed drain time for the third rain garden was much greater than predicted due to the presence of a restrictive soil layer beneath the topsoil. The assessment approaches developed in this research should prove useful for determining whether the construction of the rain garden was performed properly, a rain garden is functioning properly, and for developing maintenance tasks and schedules.     

尾矿坝浸润线数据挖掘预测模型的样本选取研究

本文分别应用时间序列功能模型和回归模型，在原始数据的基础上建立样本，并运用支持向量回归机算法对样本进行训练，得出了尾矿坝浸润线埋深预测模型并进行了实例应用。研究证明，运用时间序列模型选取训练样本能够得出更为精确的预测结果。     

填料在净化污水过程中渗透性能变化趋势的研究

选取腐殖垃圾和砂以及两者质量比分别为4:1、3:2、2:3的混合物共5种填料,在1.0 m/d的水力负荷下,进行人工快速渗滤系统净化生活污水的试验,研究填料在进水过程中渗透性能的变化趋势.结果表明,腐殖垃圾的初始饱和水力渗透系数(K)最大,为3.32×10-2cm/s,而砂的初始K只有5.14×10-3cm/s,腐殖垃圾含量越大的混合物其仞始K也越大.在净化污水的过程中,5种填料的K逐渐减小,腐殖垃圾含量越大的混合物其K降幅也越大.随着进水时间的延长,各个填料柱填料层50～250 mm处的水头损失占总水头损失(填料层50～450mm处)的比例均逐渐增加,最终各个填料柱均发生堵塞,堵塞均发生在填料层50mm以上范围内.     

影响无砾石微孔管地下渗滤系统的几个主要因素

为了进一步明确植物、土壤、管道对无砾石微孔管地下渗滤系统中污染物去除的贡献能力大小，采用2种植物、2种管道、2种土壤组合形成8个平行系统，采用对比实验方法研究了植物、管道、土壤对地下渗滤系统中污染物去除效果的改变。结果表明，植物、土壤、管道任一因素的单独影响效应显著，但是组合后的交互效应不存在显著差异。而且，在土壤、植物、管道3因素中限定其中2个因素，对比研究另外一种因素的条件下，得到在COD、TP、NH4＋-N、TN的去除效果上，变化趋势相同，均是渗滤管外径200mm〉渗滤管外径160mm，吉祥草〉灯芯草，砂壤土〉粘土，且部分存在显著性差异（P〈0．05）。     

分散式高负荷地下渗滤污水处理系统的设计和运行

以广东佛山利华员工村生活污水处理工程为例,介绍了高负荷地下渗滤污水处理系统的设计方案和运行情况。该工程污水负荷高达56 cm/d,对进出水采样监测结果表明：系统对COD、BOD5、SS、NH4＋-N、色度、TN和TP的平均去除率分别为87.7%、78.9%、92.5%、87.6%、90%、52.2%和76.3%,出水的...     

Projections of 21st Century Sierra Nevada Local Hydrologic Flow Components Using an Ensemble of General Circulation Models1

Abstract: Sierra Nevada snowmelt and runoff is a key source of water for many of California’s 38 million residents and nearly the entire population of western Nevada. The purpose of this study was to assess the impacts of expected 21st Century climatic changes in the Sierra Nevada at the subwatershed scale, for all hydrologic flow components, and for a suite of 16 General Circulation Models (GCMs) with two emission scenarios. The Soil and Water Assessment Tool (SWAT) was calibrated and validated at 35 unimpaired streamflow sites. Results show that temperatures are projected to increase throughout the Sierra Nevada, whereas precipitation projections vary between GCMs. These climatic changes drive a decrease in average annual streamflow and an advance of snowmelt and runoff by several weeks. The largest streamflow reductions were found in the mid‐range elevations due to less snow accumulation, whereas the higher elevation watersheds were more resilient due to colder temperatures. Simulation results showed that decreases in snowmelt affects not only streamflow, but evapotranspiration, surface, and subsurface flows, such that less water is available in spring and summer, thus potentially affecting aquatic and terrestrial ecosystems. Declining spring and summer flows did not equally affect all subwatersheds in the region, and the subwatershed perspective allowed for identification for the most sensitive basins throughout the Sierra Nevada.     

三级人工快渗系统脱氮效果及菌种分布分析

为了更有效地去除污水中的氮类污染物,采用三级串联人工快渗系统对高氨氮生活污水进行脱氮性研究,同时进行系统内菌种分布的特征分析,从微观角度对比传统人工快渗和新式三级串联人工快渗系统中微生物分布的区别。结果表明三级串联人工快渗系统对氨氮和总氮(TN)的去除率较常规人工快渗系统分别提高5%和21%。三级串联人工快渗系统内硝化细菌和反硝化细菌总数均大于传统人工快渗系统。反硝化细菌数量的显著提高是总氮(TN)去除提高的主要原因。同时发现三级串联人工快渗系统可以有效地缓解堵塞现象的发生。     

上海城市河岸带对降雨径流氮垂直去除研究

在上海市城市河岸带人工绿地建设了微区径流场,进行了5次模拟降雨径流实验,研究了人工绿地岸带下渗流中氮浓度和去除率的时空变化。结果表明：人工绿地岸带对垂直下渗流中氮有显著的净化作用,且主要集中于土壤的0~30 cm以内,TN和NH4+去除率在399%和398%以上,NO3-+NO2-去除率除11月为负值外,其余月份均在100%以上;在30~60 cm深度,由于土壤氮的析出导致径流中氮浓度增加,去除率降低;而60~90 cm深度的去除率增加。径流场内下渗流中氮浓度具有明显的水平空间变化,随距入水端距离的增加,30 cm深度下渗流中氮浓度先上升后下降;人工绿地岸带对下渗流中氮的净化作用均随淹水时间的延长呈降低趋势,且季节变化明显,在10月和4月具有较高的去除率,0~30 cm内TN、NH4+和NO3-+NO2-的去除率可分别达635%、891%和416%以上