城市内河综合水质对再生水补水的响应

为解析再生水补水对城市内河水质的影响,以合肥市塘西河为例,采用一维水动力水质模型,结合模糊模式识别方法,研究再生水补水位置、水质和补水量对塘西河水质的影响。模拟结果表明:再生水补水改变了河流水动力特征、污染物负荷及其扩散降解过程,影响河流水质空间分布,且对补给点附近的河流水质影响最为显著;通过模糊模式识别分析发现,补给点越靠近上游对河流水质的改善作用越大,提高补水水质或增大补水水量均可进一步改善河流水质。     

生态修复综合技术在杭州虾龙圩河的应用

杭州虾龙圩河由于多年污染，河道水质严重黑臭，自净能力遭到破坏。本研究通过综合利用底泥污染物削减、生物接触氧化水质净化、造流曝气及水生生态系统修复等技术对虾龙圩河进行治理。结果显示，此项综合技术对城市河流污水具有良好的污染物去除性能，COD、NH3-N和TP的去除率分别可达到73．3％、80．1％和81．7％。通过1年的运行与养护，虾龙圩河治理段的水质、生态环境等有了明显改善，没有发生过水华及黑臭现象，河道水体具备了较强的自净能力。     

面向城市水系环境需水的再生水空间配置——以深圳市宝安区为例

以深圳市宝安区为例,探讨以再生水满足城市水系环境需水的方法.应用一维恒定与非恒定水质模型计算了4种补水水质方案下该区10条主要河流的环境需水量,从水量平衡角度提出全区再生水BOD5的平均值,并进一步分析了补水水质与河流环境需水量的关系.结合该区水系与污水处理系统空间位置,提出3种再生水的空间配置方法.结果表明:茅洲河和...     

重庆市重污染次级河流伏牛溪水污染控制与水质改善

针对重庆市部分次级河流耗氧污染物负荷高、水动力学弱化、河流生态系统退化等问题,选取重庆市典型次级河流伏牛溪为研究对象,以水质目标管理为指导思想,开展重污染河流水污染控制与水质改善研究。以V类水为水质目标,通过划分治理单元,开展河流水环境容量核算,分别提出基于现状条件、规划用地及上游补水2种情景下的污染负荷削减计算;根据削减负荷分配的结果,提出各个治理单元的污染负荷削减目标与治理措施,并开展目标可达性分析。治理工程实施后,重庆市伏牛溪水体中主要污染物的平均浓度及年达标率满足考核要求,该方案为我国山地城市重污染河流的水环境治理提供很好的参考。     

太原市汾河公园再生水补水方案优化模拟

为了解决汾河公园景观水体因缺乏稳定充足的补水水源而导致的水景效果下降、水质逐渐变差的困境，考虑将再生水作为其主要的补水水源。使用EFDC—WASP水动力水质耦合模型对不同的再生水补水方案下汾河公园水质时空变化进行了模拟。结果显示，当公园采用人工湿地深度处理后的再生水联合水库水共同补水时，除TN指标浓度部分时段内出现超过V类标准限值50％的情况，其他TP、COD、NHf—N主要水质指标浓度均能有效地维持在地表水Ⅱ～Ⅲ类标准，并且叶绿色a浓度始终保持在较低水平。该结果表明，再生水经人工湿地深度处理后联合水库共同补水方案可以作为汾河公园景观水系的推荐补水方案。     

海门市重点污染源周围水环境现状调查

海门市环境监测站于2003年12月和2004年8月，对重点污染源周围水环境作了统一监测。结果表明，一级河流自净能力强，全年水质较好。几条框河部分断面受到综合污染的威胁，有机物含量偏高。泯沟和横河水质一般，但存在着企业对其影响，不容忽视。提出推行清洁生产，加快城镇生活污水处理厂建设，对水体自净能力差的河流定期疏浚。     

电解-水生植物-软隔离带复合技术治理重污染河流的中试研究

为了探索重污染河流的治理技术，2011年3月在无锡市新区鸿山镇徐塘桥河开展生态治理示范工程，通过电解技术、种植高等水生植物和构建软隔离带复合工程技术改善河流水质。实验结果表明，通过电解技术，可以迅速降低TP、氨氮（NH4＋-N）和COD；但较难减少TN。通过软隔离带可以有效隔离外源污染，在较短时间内改善河流TN、TP、COD的平均水平，但是难以提高河流的生态系统稳定性。电解能够有效的降解大分子有机物，为水生植物提供良好的生长环境，之后再种植水生植物，能够进一步降低的TN、TP。通过电解一水生植物一软隔离带复合技术不仅能够全面改善河流水质的平均水平，而且能够修复水生生态系统，提高生态系统稳定性。     

仪扬河仪征段水质污染调查与原因分析

分析了仪扬河仪征段水质污染现状，研究表明，仪扬河仪征段水质呈Ⅳ-劣Ⅴ类。根据污染源的调查分析，仪扬河仪征段除主要接纳扬州市古运河的污水外，还接纳沿途的地表径流、工农业污水以及仪征市区排放的污水。提出了影响水质的主要污染因子以及改善水质的对策与建议。     

庆澜河水质污染状况及防治对策

阐述了近年来庆澜河水质污染状况及防治对策 ,分析了河流受污染的原因 ,并提出了防治污染的对策和措施 :加强有证电镀的管理 ;严打无证电镀和酸洗“作坊”;加强蓄电池厂、电解铝厂的管理及生活污水的处理和管理     

暗渠段对城市河流水环境的影响

河道暗渠化是影响城市建成区河流黑臭水体治理的重要因素,为探究河道暗渠化对城市河流水环境的影响,以深圳市龙华区观澜河流域主要支流暗渠为研究对象,通过现场勘查并结合暗渠段水质分析,探讨了暗渠段主要环境问题,并分析了暗渠对河流水质的影响。结果表明:暗渠段对城市河流水质的影响是显著的,主要污染物为氨氮和总磷;污染最为严重的塘水围氨氮的平均值为22.29 mg·L~(-1),为重度黑臭水体氨氮标准(15 mg·L~(-1))的1.49倍,而其氧化还原电位的平均值为-154 mV,远低于轻度黑臭水体标准(50 mV),其中最低值为-190 mV,接近于重度黑臭水体的标准值(-200 mV)。在明渠-暗渠-明渠分布的空间格局中,暗渠内淤泥的大量累积、垃圾的清理不及时、污水排口的封堵不彻底等是造成暗渠段水质恶化的主要原因。在工程解决措施上,应结合区域城市发展规划,遵循"定位、揭盖、加窗、联涵、疏泥"十字方针,通过顶层覆盖物拆除或开窗、挡墙拆除或加固、污水收集与处理、淤泥与垃圾的清除等工程措施实现暗渠段污染的消除。以上研究结果可为城市河流黑臭水体治理和河流暗渠环境综合整治提供参考。     

综合调水对苏州河周边水系水质影响的数值模拟

进行长期有效的水资源综合调度是实现2010年苏州河河水变清的综合整治目标的一项重要措施。为进一步论证该项措施对周边水系的水质影响,为综合调水提供科学的决策依据,利用MIKE11模型系统建立了上海市苏州河水系的水动力、水质模型,进行苏州河综合调水对黄浦江以及蕴藻浜水质的影响作用的数值模拟。分析表明,苏州河综合调水对松浦大桥取水口水质基本没有影响,并可以在一定程度上改善黄浦江干流中下游河段的水质;东引北排初期会增加蕴藻浜干流的污染负荷,持续调水6d后蕴藻浜干流河段的水质将得到改善。     

数值仿真在钱塘江引水入城工程水质预测中的应用

使用二维浅水波方程及传质模型,对工程前期排人钱塘江的废水中污染物的传播及分布进行预测,其预测结果可为工程排污口附近钱塘江水质保护对策制定提供依据。     

Case study on rehabilitation of a polluted urban water body in Yangtze River Basin

In the past three decades, the fast development of economy and urbanization has caused increasingly severe pollutions of urban water bodies in China. Consequently, eutrophication and deterioration of aquatic ecosystem, which is especially significant for aquatic vegetation, inevitably became a pervasive problem across the Yangtze River Basin. To rehabilitate the degraded urban water bodies, vegetation replanting is an important issue to improve water quality and to rehabilitate ecosystem. As a case study, a representative polluted urban river, Nanfeihe River, in Hefei City, Anhui Province, was chosen to be a rehabilitation target. In October 2009 and May 2010, 13 species of indigenous and prevalent macrophytes, including seven species emergent, one species floating leaved, and five species submersed macrophytes, were planted along the bank slopes and in the river. Through 1.5 years’ replanting practice, the water quality and biodiversity of the river had been improved. The concentrations of total nitrogen (TN), total phosphorus (TP), and ammonia nitrogen (NH₄ ⁺–N) declined by 46.0, 39.5, and 60.4 %, respectively. The species of macrophytes increased from 14 to 60, and the biodiversity of phytoplankton rose significantly in the river (p?<?0.05). The biomasses of zooplankton and benthos were also improved after the vegetation replanting. The study confirmed that vegetation replanting could alleviate the increasing water pollution and rehabilitate the degraded aquatic ecosystem. The case study would be an example for polluted urban waters restoration in the middle–downstream area of Yangtze River Base.     

A multi-parametric study of the interaction between the Parati river and Babitonga Bay in terms of water quality

Abstract

The Parati River contributes to the Babitonga Bay water complex, but the contents of the bay also influence the river during periods of inverted currents. In this study, the water quality along four stretches of the Parati River and Babitonga Bay was evaluated using chemical (physico-chemical and chromatographic analysis), microbiological (fluorescein diacetate hydrolysis) and ecotoxicological (Lumistox) methods to assess the reciprocal influence of the waters of this river-bay system. In addition, the most appropriate type of analysis for the monitoring of the estuarine region of the Parati River was identified. The results of six sampling campaigns showed that the type of contaminants and their levels varied temporally and spatially and thus the water quality also changed. Anthropogenic activity, such as banana cultivation and the release of sewage into the water system, is the primary cause of the contamination that affects the quality of the water in the Parati River estuary, which is a crucial ecological niche for the reproduction of various marine species. The ecotoxicity tests with Aliivibrio fischeri conducted to evaluate the water quality showed an integrative response, and the ecotoxicity data indicated that the Parati River does not have a significant influence on the water quality of Babitonga Bay.     

Impact of land use changes on water quality in headwaters of the Three Gorges Reservoir

The assessment of spatial and temporal variation of water quality influenced by land use is necessary to manage the environment sustainably in basin scales. Understanding the correlations between land use and different formats of nonpoint source nutrients pollutants is a priority in order to assess pollutants loading and predicting the impact on surface water quality. Forest, upland, paddy field, and pasture are the dominant land use in the study area, and their land use pattern status has direct connection with nonpoint source (NPS) pollutant loading. In this study, two land use scenarios (1995 and 2010) were used to evaluate the impact of land use changes on NPS pollutants loading in basins upstream of Three Gorges Reservoir (TGR), using a calibrated and validated version of the soil and water assessment tool (SWAT) model. The Pengxi River is one of the largest tributaries of the Yangtze River upstream of the TGR, and the study area included the basins of the Dong and Puli Rivers, two major tributaries of the Pengxi River. The results indicated that the calibrated SWAT model could successfully reproduce the loading of NPS pollutants in the basins of the Dong and Puli Rivers. During the 16-year study period, the land use changed markedly with obvious increase of water body and construction. Average distance was used to measure relative distribution patterns of land use types to basin outlets. Forest was mainly distributed in upstream areas whereas other land use types, in particular, water bodies and construction areas were mainly distributed in downstream areas. The precipitation showed a non-significant influence on NPS pollutants loading; to the contrary, interaction between precipitation and land use were significant sources of variation. The different types of land use change were sensitive to NPS pollutants as well as land use pattern. The influence of background value of soil nutrient on NPS pollutants loading was evaluated in upland and paddy field. It was found that total nitrogen (TN) and total phosphorous (TP) in upland were more sensitive to NPS pollutants loading than in paddy fields. The results of this study have implications for management of the TGR to reduce the loading of NPS pollutants into downstream water bodies.     

Anatomy of an urban waterbody: a case study of Boston's Muddy River

The objective of this study was to characterize and understand the water quality of Boston's Muddy River prior to restoration, to help guide those activities and evaluate their success. We use a combination of monitoring, data analysis and mathematical modeling. The seasonal pattern of temperature, pollutant signatures (identified using a principal component analysis), correlations with precipitation and spatial patterns all point to a significant wastewater input at one of the outfalls and suggest significant receiving water impact. However, a quantitative analysis using a mathematical model (QUAL2K) suggests this source is not significant. Rather, internal loading from algae, sediment bed and waterfowl dominate the spatial pattern of water quality. These results suggest significant improvement can be expected from planned sediment dredging. The paper provides a case study of water quality assessment in the context of urban river restoration, and it illustrates the utility of combining monitoring and data analysis with modeling.     

Risk assessment approach for untreated wastewater using the QUAL2E water quality model

This paper presents a novel approach for assessing the risk of consumer product ingredients in surface waters that receive untreated wastewater. The approach utilizes the water quality simulation model QUAL2E for predicting the impact caused by conventional pollutants, as well as the exposure concentration of consumer product ingredients. This approach invokes an impact zone concept whereby the receiving water can be thought of as a natural wastewater treatment system. After the river has recovered via self-purification, the ecosystem is then assessed by traditional risk assessment methods. This approach was validated using data collected from the Balatuin River, which is located in the Philippines. Results from this study support the use of QUAL2E for assessing the risk of consumer product ingredients in riverine systems receiving untreated wastewater.     

污水再生利用的健康风险评价方法

随着经济发展和人口增加，中国水资源短缺问题日益严重，水资源再生利用成为解决中国水危机的重要途径。再生水对人体健康的风险成为人们关注的焦点。应用风险评价技术评估再生水的健康风险目前再生水回用迫切需要解决的问题，作者论述了再生水风险评价的基本理论和评价方法及存在的问题。     

再生水用于都市绿地灌溉的研究进展

污水再利用具有节水和治污双重功能,用于绿地灌溉意义重大。综述了再生水灌溉对绿地土壤、植物、地下水的影响。着重介绍了国外的研究情况,分析了其试验结果及影响因素,表明虽然再生水中的一些有害成分会发生积累,但由于处理工艺、降雨等因素影响,对绿地生态系统影响不大,使用再生水灌溉绿地是切实可行的。