工业污水灌溉处理对地下水的影响和防治对策

运用科学方法利用工业污水灌溉农田能够缓解我国一些干旱地区水资源匮乏的问题。但如果缺乏科学的管理和监督,工业污水就有可能成为新的地下水污染源。首先说明了工业污水排放导致地下水污染的研究进展,分析了工业污水中对地下水能起到污染影响的污染物成分,分别讨论了重金属、盐类、硬度矿物等污染物在地下水系统中的搬运和衰减原理,同时分析了影响污染物成分迁移的因素,最后提出了工业污水灌溉对地下水影响的防治措施和研究方向。     

Integrated water resources management for emergency situations: A case study of Macau

Integrated urban water management (IUWM) is a useful tool that can be used to alleviate water resource shortages in developing regions like Macau, where 98% of the raw water comes from mainland China. In Macau, scarce water resources deteriorate rapidly in emergency situations, such as accidental chemical spills upstream of the supply reservoir or salty tides. During these times, only the water from the two freshwater reservoirs in Macau can be used. In this study, we developed urban water management optimization models that integrated the raw water supply from the two reservoirs with various proposed governmental policies (wastewater reuse, rainwater collection, and water saving). We then determined how various water resource strategies would influence the urban water supply in Macau in emergency situations. Our results showed that, without imported raw water, the water supply from only the two Macau reservoirs would last for 7.95 days. However, when all the government policies were included in the model, the supply could be extended to 13.79 days. Out of the three non-conventional water resources, wastewater reuse is the most beneficial for increasing the Macau water supply, and rainwater collection also has great potential.     

One-year Surveillance of Human Enteric Viruses in Raw and Treated Wastewaters,Downstream River Waters,and Drinking Waters

Human enteric viruses are a major cause of waterborne diseases, and can be transmitted by contaminated water of all kinds, including drinking and recreational water. The objectives of the present study were to assess the occurrence of enteric viruses (enterovirus, norovirus, adenovirus, hepatitis A and E virus) in raw and treated wastewaters, in rivers receiving wastewater discharges, and in drinking waters. Wastewater treatment plants’ (WWTP) pathogen removal efficiencies by adenovirus quantitative real-time PCR and the presence of infectious enterovirus, by cell culture assays, in treated wastewaters and in surface waters were also evaluated. A total of 90 water samples were collected: raw and treated wastewaters (treated effluents and ultrafiltered water reused for industrial purposes), water from two rivers receiving treated discharges, and drinking water. Nested PCR assays were used for the identification of viral DNA/RNA, followed by direct amplicon sequencing. All raw sewage samples (21/21), 61.9 % of treated wastewater samples (13/21), and 25 % of ultrafiltered water samples (3/12) were contaminated with at least one viral family. Multiple virus families and genera were frequently detected. Mean positive PCRs per sample decreased significantly from raw to treated sewage and to ultrafiltered waters. Moreover, quantitative adenovirus data showed a reduction in excess of 99 % in viral genome copies following wastewater treatment. In surface waters, 78.6 % (22/28) of samples tested positive for one or more viruses by molecular methods, but enterovirus-specific infectivity assays did not reveal infectious particles in these samples. All drinking water samples tested negative for all viruses, demonstrating the effectiveness of treatment in removing viral pathogens from drinking water. Integrated strategies to manage water from all sources are crucial to ensure water quality.     

水溶液性质与水污染控制工艺相互作用的重要性

从自然演化、人类活动、科学发展角度分析污废水的产生机制及其对天然水体溶液性质的影响,发现人类迁徙的城镇化以及工农业生产的效率约束导致污废水与天然径流之间的矛盾,使生态水体呈现出由地表纯净水向水质污染方向的功能转化,扰动了元素/化合物在地球表面或水体界面的离心与向心迁移的平衡,明确了水体界面或水圈作为物质地球循环中转站/转运站的原理机制。隐藏在各种水处理工艺原理中的物理、化学、物化、生化等丰富功能能够解决中转站中所积累的矛盾,所以,集合溶液性质与污废水处理工艺原理之间的对应关系及其技术应用将构成更加完备和潜在的水工业,所提出的水溶液性质概念同样适用于给水与纯净水的生产与管理。针对有毒/难降解的工业有机废水,如煤化工行业焦化废水,在前端工艺清洁生产的基础上,需要把产品资源回收、性质互补利用、水量循环机制作为共性目标,把低能耗与物耗、关键污染物去除以及明确环境风险归趋作为污染控制工艺选择的依据,同时要求全过程产生低的二次污染如碳排放等。基于水溶液性质的改变及其过程演变的探究将拓宽水污染控制的工艺理论与技术边界。水污染控制与水环境保护相结合的水工业全过程追求技术、经济与社会目标的一致,争取得到绿色、低碳、循环等生态目标的响应,即生活、生产、生态"三位一体"的协调发展。     

人工智能技术对长江流域水污染治理的思考

随着经济的快速发展和城市化进程的不断加速,促使水污染严重的长江流域需从污染物去除过程的建模与优化、污水处理过程的优化控制、水污染监测系统的构建开展水污染治理研究.传统的水污染处理技术存在污染物去除效率预测精度较低、污水优化控制成本较高、水污染监测滞后效应严重的问题.人工智能技术能够有效克服上述问题,因此通过梳理国内外学者利用人工智能技术在污水污染物去除过程的建模与优化、污水处理过程的优化控制及水污染监测系统的构建等方面的研究成果,为全面加强长江流域水污染治理能力提供科学可靠的技术指导.结果表明:①利用人工神经网络技术（径向基神经网络、多层前馈网络-人工神经网络、多层感知器神经网络）对污水污染物去除过程进行建模与优化,为精确预测长江流域重金属（Cr、Cu）、营养盐（TN、TP）、持久性有机污染物〔PBDEs（多溴二苯醚）、HCH（六氯环己烷）〕的去除率提供重要参考价值.②采用污水处理的自动控制技术与人工智能技术（递归神经网络、支持向量机、模糊神经网络等）构建污水智能控制系统,为长江流域实现高效节能的污水优化控制提供重要的技术指导.③利用在线监测仪器和人工智能技术（小波神经网络、多元线性回归-人工神经网络、叠层去噪自动编码器等）建立水污染智能监测系统,为解决长江流域水污染监测响应滞后问题提供有力的技术支持.因此,人工智能技术对长江流域提高污水污染物去除率,降低污水优化控制成本,提升水污染监测时效性具有重要的推广价值.      

生态混凝土净化生活污水的机理探讨

制作两种不同材料的混凝土试块,一种由普通硅酸盐水泥与粗砂制备;另一种由复合硅酸盐水泥与粗砂制备。用这两种混凝土试块分别在厌氧、半好氧与好氧条件下进行污水处理试验。所用的污水采自某污水处理厂的进水口,其成分以生活污水为主。净化试验结果表明,生态混凝土对污水的吸附作用及其固液相间的离子交换作用很小,混凝土对污水的净化效果主要是依靠混凝土表面生长的微生物对污水中有机组分的降解作用实现的。含有混凝土试件的反应器对污水的净化效果都要优于无混凝土试件的反应器,这说明利用生态混凝土对污水的净化效果要好于单纯仅对污水的曝气。试验结果还显示,在充分给氧条件下,由复合水泥所制备的混凝土试件对污水的净化效果要明显优于由普通水泥和粗砂所制备的混凝土试件。     

Assessment of risks, implications, and opportunities of waterborne neurotoxic pesticides

Pesticides are a well-known family of chemicals that have contaminated water systems globally. Four common subfamilies of pesticides include organochlorines, organophosphates, pyrethroids, and carbamate insecticides which have been shown to adversely affect the human nervous system. Studies have shown a link between pesticide exposure and decreased viability, proliferation, migration, and differentiation of murine neural stem cells. Besides human exposure directly through water systems, additional factors such as pesticide bioaccumulation, biomagnification and potential synergism due to co-exposure to other environmental contaminants must be considered. A possible avenue to investigate the molecular mechanisms and biomolecules impacted by the various classes of pesticides includes the field of -omics. Discovery of the precise molecular mechanisms behind pesticide-mediated neurodegenerative disorders may facilitate development of targeted therapeutics. Likewise, discovery of pesticide biodegradation pathways may enable novel approaches for water system bioremediation using genetically engineered microorganisms. In this mini-review, we discuss recently established harmful impacts of various categories of pesticides on the nervous system and the application of -omics field for discovery, validation, and mitigation of pesticide neurotoxicity.     

基于污染物受纳量的城镇生活污水处理率指标研究

我国通过污水处理率来评价生活污水处理水平,但污水处理率仅考虑了污水处理设施进水处理的水量,忽略了雨污合流、地下水混入、抽取河水处理等原因导致的污染物收集水平不足.以成都市岷江外江流域为研究区域,开展了城镇生活污水收集和评价指标优化研究,提出了基于污染物受纳量的城镇生活污水污染物处理率概念和核算方法体系,在划分控制单元基础上,核算生活污水污染物的产生量和处理量.研究发现,该流域污水处理厂进水浓度普遍偏低,进水水质存在季节性波动,说明可能存在丰水期雨水、河水或地下水混入稀释的情况,枯水期的进水数据更能反映区域生活污水排放情况;传统污水处理率计算显示该流域污水处理率高于100%,但全流域的COD_Cr、氨氮和总磷污染物处理率分别为37.50%、36.25%和30.14%,与该流域的水环境质量特征和污水管网建设水平相符;在污水管网未完善的地区,采用污染物处理率更能有效评价和反映区域污水收集和处理程度.     

城镇化河流DOM组成结构及与水质相关性研究

应用三维荧光技术和多元统计方法,分析城镇化河流水溶性有机物(DOM)组成结构特征,研究其与河水水质的相关性.根据人类活动对沈阳市白塔堡河影响程度的不同,分别在农村、城镇与城市河段设置3个采样点,采集水样.结果发现,河水营养水平由高到低的顺序为城市河段城镇河段农村河段,而水质由好变差的顺序为农村河段城镇河段城市河段.河水DOM由类酪氨酸、类色氨酸、类糖化蛋白、微生物代谢产物、类富里酸和类胡敏酸组成,主要成分为类蛋白,类蛋白含量由高到低的顺序为城市河段城镇河段农村河段.从源头到入浑河口,类蛋白丰度增长最大,类胡敏酸丰度增长最小,类富里酸介于两者之间.DOM的腐殖化程度由强到弱的顺序为城市河段城镇河段农村河段.影响河水营养状态的潜在因子包括COD、NH3-N、BOD5、DO和类蛋白,农村河段主要污染物来源于农村生活污水及养殖废水,城镇河段污染物来源于生活废水与工业园排水,城市河段污染物来源于处理和未处理的生活污水及工业废水.河水受人类活动影响由大到小的顺序为城市河段城镇河段农村河段.     

蜚克图河流域宾县段水污染现状分析及对策研究

通过对蜚克图河流域宾县段2个断面的水污染物的监测数据统计分析,识别出化学需氧量、氨氮是蜚克图河流域宾县段的主要污染因子,根据流域沿线的生活污水、工业废水和农业污染源的化学需氧量及氨氮的排放负荷情况,对蜚克图河流域宾县段水环境污染成因进行了分析和研究,提出防治流域污染的对策,为恢复蜚克图河支流水体生态功能做出努力.     

A~2O-人工湿地组合工艺对污水中油类物质的去除研究

以河源市城南生活污水处理厂为平台,研究了A2O-人工湿地组合工艺对污水中油类物质的去除效果。结果表明:经过A2O-人工湿地组合工艺处理后,污水中油类物质的去除可达96.5%以上,出水水质基本达GB 8978—1996《污水综合排放标准》中的二类污染物一级排放标准;同时探讨了该组合工艺对城市含油污水的净化机制以及系统运行的限制性因素,系统内部油类物质被降解和去除的过程,确立可推广应用的A2O-人工湿地组合工艺对含油废水的深度处理系统。     

Analysis of bacterial community structures in two sewage treatment plants with different sludge properties and treatment performance by nested PCR-DGGE method

The bacterial community structures in two sewage treatment plants with different processes and performance were investigated by denaturing gradient gel electrophoresis （DGGE） of nested polymerase chain reaction （nested PCR） amplified 16S rRNA gene fragments with group-specific primers. Samples of raw sewage and treated effluents were amplified using the whole-cell PCR method, and the activated sludge samples were amplified using the extracted genomic DNA before the PCR products were loaded on the same DGGE gel for bacterial community analysis. Ammonia-oxidizing bacterial and actinomycetic community analysis were also carried out to investigate the relationship between specific population structures and system or sludge performance. The two plants demonstrated a similarity in bacterial community structures of raw sewage and activated sludge, but they had different effluent populations. Many dominant bacterial populations of raw sewage did not appear in the activated sludge samples, suggesting that the dominant bacterial populations in raw sewage might not play an important role during wastewater treatment. Although the two plants had different sludge properties in terms of settleability and foam forming ability, they demonstrated similar actinomycetic community structures. For activated sludge with bad settling performance, the treated water presented a similar DGGE pattern with that of activated sludge, indicating the nonselective washout of bacteria from the system. The plant with better ammonium removal efficiency showed higher ammonia-oxidizing bacteria species richness. Analysis of sequencing results showed that the major populations in raw sewage were uncultured bacterium, while in activated sludge the predominant populations were beta proteobacteria.     

N-亚硝胺在不同处理工艺污水处理厂中的分布及其

以6种典型N-亚硝胺(NAs)为研究对象,基于质量浓度监测数据系统研究了它们在3种不同处理工艺的污水处理厂中的分布及其去除规律,并分析了它们在受纳河水中的污染概况及来源.结果表明,6种NAs在3种不同处理工艺污水处理厂各工艺段废水中普遍存在,其中主要污染物为NPIP、NDMA和NPYR,质量浓度水平为几十到几百ng·L-1. 3种不同处理工艺的污水处理厂都能对NAs起到一定的去除效果,其中改良A~2/O和A~2/O+MBR对NAs的去除效果较好,总体去除率分别为95%和63%,主要依靠生化阶段的微生物降解和转化.在过滤、MBR和消毒阶段,废水处理体系中NAs前驱物经一系列反应后会形成一定的NAs增量. 6种NAs在受纳河流的表层水中也频繁检出,主要污染物和污水处理厂进水中的主要污染物一致,仍然是MDMA、NPIP和NPYR.受纳河流中的NAs来源广泛而复杂,包括污水处理厂尾水排入、未经处理的生活污水和工业废水以及工业区地表径流等的汇入.因此,应该通过增强污水收集和处理能力、优化污水处理工艺等措施减少NAs向受纳河流的输入.     

多点汇流下污水管网污染物迁变规律及其机制

为研究城市污水管网多点汇流条件下污染物的迁变规律及其对微生物繁衍的影响机制,建立一套多汇流点位的污水管道中试系统,探究污水输送过程中碳,氮,硫3类主要污染物质的迁移转化特性.结果表明,汇流点前溶解态化学需氧量（SCOD）和硫酸盐（SO₄^2-）浓度下降,氨氮（NH₄⁺-N）浓度上升,支管汇流使得汇流点3类污染物浓度显著增加.后期水质达到稳定,在保证支管污水的汇入导致各类污染物增加量基本不变的情况下,SCOD浓度由进口的320mg/L左右下降至出口的280mg/L左右,在氨化作用下导致的NH₄⁺-N总增加量在15mg/L左右,高于因汇流产生的增加总量12.5mg/L左右,结果表明汇流管网系统中微生物的消耗代谢作用是碳氮类污染物变化的主导因素,而SO₄^2-后期进出口浓度均在20mg/L左右,说明支管汇流和生化代谢使SO₄^2-的含量维持在动态平衡的状态.此外,对管网中试系统生物相中微生物繁衍过程进行分析可知,发酵菌（FB）,产氢产乙酸菌（HPA）,硫酸盐还原菌（SRB）的含量随繁衍时间显著增加,并在沿程的不同汇流点处出现丰度升高现象.综上所述,在多点汇流导致污水水质波动的作用下,促进了管网生物相中微生物的繁衍增殖,并增强了其代谢作用在污水管网污染物转化的主导地位,使得污染物在管网输送过程中呈现更为显著的转化现象.     

污水厂中微塑料的污染及迁移特征研究进展

合成聚合物的广泛使用和持久性污染使得微塑料（<5mm）成为近年来受到广泛关注的一种新型污染物,污水的大量排放是淡水和海洋环境微塑料的主要来源之一,而污水处理厂也成为微塑料进入淡水与海洋环境的一个重要途径.通过系统调研,追溯污水处理厂中微塑料的来源,综述污水处理厂中微塑料的迁移和污染特征的研究进展,分析国内外污水处理厂中微塑料的特征和去除效果的差异性,为开展国内污水处理厂中微塑料污染研究与监督工作提供参考,并展望未来污水处理厂工艺的发展及改进方向.     

基于IKONOS影像的城市住宅区中水回用空间分布估算

中水回用是解决城市水资源短缺和水环境污染问题的有效途径。开展分散式中水可行性研究,需要考虑中水原水与回用需求的数量、空间分布及平衡关系。论文以南京市住宅区为例,探索了基于IKONOS高分辨率遥感影像分类,估算中水回用空间分布的方法。通过引入单位面积用水定额,将遥感和GIS 分析得到的用地信息与中水原水产量和回用需求关联起来,计算了研究区域中27 个地块的中水原水产量和回用需求量,并分析了两者在空间上的水量平衡关系。结果表明,研究区域存在较大的中水原水供给潜力3.52 L/（m²·d）和较大的利用需求5.37 L/（m²·d）。住宅小区的单位面积原水产量与其建筑容积率成正比;以中高层住宅区为主的地区,中水原水产量能够基本满足本地区的中水回用需求。因此,在这些地区建立分散式污水处理系统,可减少废污水排放,节约自来水取用量,提高水资源利用率。     

阿什河哈尔滨段沿河面源污染现状与防治对策

通过对阿什河哈尔滨市区沿河村镇面源污染现状的调查研究,在获取大量第一手资料的基础上对其污染情况进行评价,结果显示：阿什河哈尔滨市区段水质总体呈V类与劣V类。阿什河哈尔滨市区段沿河村镇年排放生活污水、垃圾、粪污、化肥、农药产生的化学需氧量（CODcr）、总氮、总磷贡献量分别为1473．4吨、47．45吨、13．23吨。根据各类污染物的污染特征,提出了相应的防治对策。     

Frequent Detection and Genetic Diversity of Human Bocavirus in Urban Sewage Samples

The prevalence and genetic diversity of human bocaviruses (HBoVs) in sewage water samples are largely unknown. In this study, 134 raw sewage samples from 25 wastewater treatment plants (WTPs) in Italy were analyzed by nested PCR and sequencing using species-specific primer pairs and broad-range primer pairs targeting the capsid proteins VP1/VP2. A large number of samples (106, 79.1 %) were positive for HBoV. Out of these, 49 were classified as HBoV species 2, and 27 as species 3. For the remaining 30 samples, sequencing results showed mixed electropherograms. By cloning PCR amplicons and sequencing, we confirmed the copresence of species 2 and 3 in 29 samples and species 2 and 4 in only one sample. A real-time PCR assay was also performed, using a newly designed TaqMan assay, for quantification of HBoVs in sewage water samples. Viral load quantification ranged from 5.51E+03 to 1.84E+05 GC/L (mean value 4.70E+04 GC/L) for bocavirus 2 and from 1.89E+03 to 1.02E+05 GC/L (mean value 2.27E+04 GC/L) for bocavirus 3. The wide distribution of HBoV in sewages suggests that this virus is common in the population, and the most prevalent are the species 2 and 3. HBoV-4 was also found, representing the first detection of this species in Italy. Although there is no indication of waterborne transmission for HBoV, the significant presence in sewage waters suggests that HBoV may spread to other water environments, and therefore, a potential role of water in the HBoV transmission should not be neglected.     

长江下游快速城市化地区水污染特征及源解析:以秦淮河流域为例

明晰区域水污染现状及污染物与污染源之间的关系是实施水环境精细化管理和区域水污染治理对策的前提.水质标识指数法（WQI）和聚类分析（CA）被用于研究2015~2019年秦淮河流域29个监测站点的11个水质参数的时空变化特征,并利用PMF模型和SIAR同位素源解析模型解析秦淮河流域的污染物来源及贡献率.结果表明,秦淮河流域河道水体总体为中度污染,TN浓度超标是流域水体污染的主要原因;2015~2019年WQI值呈现下降的趋势;空间聚类和PMF分析结果显示：①高污染区位于秦淮河下游城市化程度较高的城区、溧水主城和江宁大学城内的河道及牛首山河,污染源主要为生活污水、商服业污水（28.88%）及工业废水排放（27.43%）;②中污染区位于秦淮河下游的江宁开发区和秣陵街道及中上游的禄口街道内河道,主要污染源为城乡生活废水和商服污水（31.62%）、工业废水（27.25%）和内源污染（24.76%）;③低污染区位于秦淮河流域湖熟街道内河道及二、三干河,主要污染源为农村生活污水和生活垃圾（28.79%）及农业非点源污染（24.3%）;云台山河子流域内NO₃^--N是氮污染物在子流域受纳水体中的主要存在形式,SIAR溯源结果显示云台山河子流域的NO₃^--N主要来源于生活污水（61%）和土壤有机氮（34%）.本研究结果可为秦淮河流域水污染治理和水生态保护措施提供科学依据和基础.