氯化对二级处理出水中溶解性有机物结构的影响

以哈尔滨市W污水处理厂污水为研究对象,利用XAD树脂对二级处理出水中的溶解性有机物(DOM)进行分级分离.按照DOM在不同树脂上的吸附特性将其分为5个部分:疏水性有机酸(HPO-A)、疏水性中性有机物(HPO-N)、过渡亲水性有机酸(TPI-A)、过渡亲水性中性有机物(TPI-N)和亲水性有机物(HPI).考察了二级处理出水中有机组分的组成分布、三卤甲烷生成势、紫外光谱和红外光谱.结果表明,二级处理出水中的主要成分是HPO-A和HPI,两者含量之和达70.8%.HPO-A是加氯消毒时产生三卤甲烷的主要有机组分,其三卤甲烷生成活性(STHMFP)为232.9μg/mg.而HPO-N、TPI-A、TPI-N和HPI的STHMFP介于100～125μg/mg之间.氯化反应后,HPO-A、HPO-N、TPI-A和HPI的紫外-可见吸光度均降低,而TPI-N则相反.并且HPO-A、HPO-N、TPI-A和TPI-N中的O-H、C=C和苯环的含量降低,而C-O的含量升高,还生成了C=O和C-Cl.     

Optimization of the recovery of plastics for recycling by density media separation cyclones

Material recovery processes are presented as the optimum option for recycling plastic wastes as a means of recovering hydrocarbon resources. There exist a large variety of automated material recovery processes for recycling of such wastes but each with significant limitations. Of these, the separation based on differences in densities is advocated as the optimum process either for producing recycled products or preparing wastes for subsequent recovery processing.Density separation processes based on cyclone type density media separation (DMS) is presented as an important, potential method for increasing plastics recycling process capacities. It is demonstrated to have the capacity to separate a significantly larger range of particle sizes than those presently processed industrially. The mathematical relationship for the prediction of quality of typical LARCODEMS type density media separations by particle size and density as expressed by the Ecart Probable is presented.A proposed device configuration is presented for density media separation to optimize the recovery and purity of both density fractions produced. It is also suggested that to be economically viable, a large scale of operation is required for industrial plastics recycling operations recovering and producing a number of different plastics with a purity to be used as a substitute for virgin material.     

秦皇岛市城镇水土保持工作主要做法及成效分析

随着城镇建设的迅猛发展,项目开发建设占用大量具有生态功能的地表,人为造成的水土流失日趋严重,因此做好城镇水土保持工作至关重要。秦皇岛市从2004年起通过制定规划、建立工作体系、强化预防监督、加强宣传等措施,水土保持工作取得了显著成效:提高了全民水保法制观念,规范了城镇建设项目管理工作,城郊水土流失治理度达90%以上,城区碧水工程已基本完成,实施了城市雨水资源利用试点工程,城市区人均绿地面积达到12 m2,森林覆盖率达40%以上。     

华南滨海小流域降雨入渗对地下水的补给分析

以华南滨海小流域——中山大学滨海水循环试验基地(试验基地)作为研究区,在对该流域地下水和雨水分别进行采样、实验分析的基础上,利用氯量平衡法(CMB)与地下水动态法计算了该流域的降雨入渗补给系数与给水度。研究发现,试验基地地下水主要受降雨补给,地下水埋深在雨季(4—9月)、旱季(10—3月)的变动范围大致为0～1.5 m与0～0.5 m。根据CMB计算结果,补给区、中间区雨季降雨入渗补给系数分别为旱季的1.3～1.6倍和1.3～2.0倍,且补给区大于中间区(M5井除外)。利用地下水动态法计算次降雨入渗补给系数,所得雨季、旱季的均值(7.6%和4.6%)与CMB计算结果(7.7%和5.3%)较为接近。给水度、雨强与入渗补给系数均存在一定的线性关系。将地下水埋深分别与降雨入渗补给量及潜水蒸发量进行多项式拟合对比,发现降雨入渗对地下水的最大入渗补给埋深约为2.3 m,当埋深为3.1 m时,地下水可获得最大净补给量。     

污泥龄对除磷亚硝化颗粒系统的影响

以低C/N比生活污水为研究对象,接种成熟除磷颗粒污泥,探究泥龄对中低温度下(14～21℃)除磷亚硝化颗粒污泥的影响.结果表明,常温下(20℃±1℃),泥龄为30 d,曝气量为5 L·(h·L)~(-1)可实现除磷颗粒污泥中AOB的富集,NAR达到90%以上.当温度降低到15℃,泥龄为40 d时除磷性能恶化,颗粒结构变松散并伴有丝状菌生成.相对充足的氧气使亚硝化失稳,NAR下降至22. 4%. NOB不具备迅速适应环境变化的能力,采取12 d厌氧饥饿加排泥的策略,削弱了NOB的相对活性,迅速恢复了除磷亚硝化性能.批次实验显示温度从20℃下降到15℃,聚磷菌仍能保持较高的氧利用率,但AOB的SOUR下降了18%,此时是温度而不是溶解氧浓度制约了氨氧化能力.控制泥龄为30 d,同时降低曝气量为4 L·(h·L)~(-1),实现了低温下(15℃±1℃)除磷亚硝化颗粒污泥系统的稳定运行.     

焦化废水专用混凝剂对污染物的去除效果与规律

通过烧杯搅拌实验得出了焦化废水专用混凝剂对废水中的 COD_Cr、色度、F^-和总 CN^- 等主要污染物的去除情况随投加量和混凝 pH值变化的规律 ,给出了最佳投加量、最佳混凝 pH范围等操作参数 ,并通过现场混凝模拟实验考察了混凝处理效果对废水水质波动的承受能力 .结果表明 ,在最佳有效投加量 300 mg/L和混凝 pH值为 6.0～ 6.5的操作条件下 ,专用混凝剂对各污染物都有良好的去除效果 ,且受进水水质波动的影响很小 .     

城市生活垃圾填埋场渗滤液粘度研究

采用旋转粘度计测试了CODCr浓度为 10 0 0～ 75 0 0 0mg L、温度在 5～ 70℃范围内的渗滤液粘度。实验结果表明 ,相同温度下渗滤液的粘度值与CODCr浓度呈线性关系 ;不同浓度渗滤液中溶质性质的差异是造成渗滤液比浓粘度差异的原因 ;研究填埋场水分运移时 ,可以不考虑粘度对渗滤液流动的影响。     

Near Real-Time Monitoring and Mapping of Specific Conductivity Levels Across Lake Texoma, USA

A submersible sonde equipped with a specific conductivity probe, linked with a global positioning satellite receiver was developed, deployed on a small boat, and used to map spatial and temporal variations in specific conductivity in a large reservoir. 7,695 sample points were recorded during 8 sampling trips. Specific conductivity ranged from 442,uS/cm to 3,378,uS/cm over the nine-month study. The data showed five statistically different zones in the reservoir: 2 different riverine zones, 2 different riverine transition zones, and a lacustrine zone (the main lake zone). These data were imported to a geographic information system where they were spatially interpolated to generate 8 maps showing specific conductivity levels across the entire surface of the lake. The highly dynamic nature of water quality, due to the widely differing nature of the rivers that flow into the reservoir and the effect of large inflows of fresh water during winter storms is easily captured and visualized using this approach.     

典型工业园污染源羰基化合物排放特征研究

选取中国华东地区某工业园新区典型行业企业进行现场采样,利用PFPH衍生化-GC/MS联用技术进行羰基化合物(CBCs)的组成特征和含量水平检测,研究其排放特征。结果表明,在该工业园新区内共检出22种CBCs,各化合物的质量浓度为0.008~239.4μg/m~3,各企业CBCs总质量浓度均值为(437.62±64.45)μg/m~3,工业污染源排放贡献率由高至低顺序依次为涂料制造橡胶制造医药制造化学品制造金属制造电子元件制造。根据各物质化学反应活性及大气化学寿命,获得该工业园新区典型的CBCs分子标志物为甲醛、乙醛、丙酮、丙醛、2-丁酮、丁醛、己醛、环己酮和苯甲醛,它们占总CBCs含量的80.01%,其中乙醛含量最高,质量浓度均值高达(95.42±71.48)μg/m3。最后,建立了6种典型工业污染源CBCs成分谱。     

Assessment of toxicity of a glyphosate-based formulation using bacterial systems in lake water

A new Aeromonas bioassay is described to assess the potential harmful effects of the glyphosate-based herbicide, Roundup^®, in the Albufera lake, a protected area near Valencia. Viability markers as membrane integrity, culturability and β-galactosidase production of Aeromonas caviae were studied to determine the influence of the herbicide in the bacterial cells. Data from the multifactor analysis of variance test showed no significant differences (P > 0.05) between A. caviae counts of viability markers at the studied concentrations (0, 50 and 100 mg l⁻¹ of glyphosate).

The effects of Roundup^® on microbial biota present in the lake were assessed by measuring the number of indigenous mesophilic Aeromonas in presence of different amounts of the herbicide at 0, 50 and 100 mg l⁻¹ of glyphosate. In samples containing 50 and 100 mg l⁻¹ of glyphosate a significant (P < 0.05) increase in Aeromonas spp. counts and accompanying flora was observed.

The acute toxicity of Roundup^® and of Roundup^® diluted with Albufera lake water to Microtox^® luminescent bacterium (Vibrio fischeri) also was determined. The EC₅₀ values obtained were 36.4 mg l⁻¹ and 64.0 mg l⁻¹ of glyphosate respectively. The acidity (pH 4.5) of the herbicide formulation was the responsible of the observed toxicity.