vis/H2O2/草酸铁处理活性艳红染料的实验研究

采用vis/H2O2/草酸铁法,对活性艳红染料废水进行处理.研究了H2O2、K2C2O4和Fe2(SO4)3·7H2O的投加量、pH值和光照时间等因素对染料废水处理效果的影响和最佳处理条件.结果表明,pH值2.5;30%H2O2的投加量0.1 mL;0.1 mol/L Fe2(SO4)3·7H2O的投加量1.0 mL;0.1 mol/L K2C2O4的投加量1.5 mL;光照时间40 min的最佳条件下,70 mg/L的活性艳红模拟染料废水脱色率可达99.82%.通过对vis/H2O2/草酸铁法和Fenton法、H2O2法、草酸铁法等方法进行对比实验,vis/H2O2/草酸铁法明显优于其他方法,是一项有研究价值和开发应用前景的污染治理新技术.     

固载型TiO2光催化反应器对富营养水体杀藻作用研究

以泡沫镍作为载体，利用电沉积技术将纳米TiO₂负载在泡沫镍上，制成固载型TiO₂光催化反应器。研究表明，经过光催化反应器处理的富营养水体，30 h内叶绿素a由96.2 mg/m³降至2.2mg/m³，下降率达97.6％，而未负载纳米TiO₂普通泡沫镍材料，在同样光强的紫外灯照射下，叶绿素a下降率为74.3％，表明紫外光照射虽然也具有一定的杀藻功能，但是光催化反应才是藻类被杀灭的主要原因。利用9.54 m³景观喷水池进行杀藻中试，光催化反应器也同样表现出优异的杀藻性能，12 d内叶绿素a由18.7 mg/m³降至1.9mg/m³，下降率达到89.8％，水体由浓绿变为清澈见底，这表明光催化反应器具有很强的杀藻能力，通过有效杀灭富营养水体中藻类、控制藻类基数，对应急处理城市景观水、湖泊等富营养水体和突发性藻华，提高生物-生态法处理效率，改善城市水环境具有十分重要的意义。     

环境样品中DNA提取方法的研究进展

利用微生物降解污染物是废水处理中的常用方法,研究废水处理工艺中微生物的多样性和动态性对于优化废水处理工艺的性能、提高其处理效率具有重要的指导意义.分子生物学方法是研究微生物多样性和动态性的有效方法.由于大多数分子生物学方法都是以提取研究对象的基因组DNA为前提,因此建立一种高效的环境样品DNA的提取方法具有重要作用.综述了从环境样品中提取DNA的主要方法及其研究进展,并提出了一种有效的从活性污泥中提取DNA的具体方法.     

预制床法生物修复胜利油田含油污泥的研究

针对胜利油田滨一污水站产生的含油污泥,建立了面积2400 m2的预制床处理工程,使用石油降解菌菌剂对含油量为110 160mg(以每千克烘干含油污泥计)的污泥进行了生物修复,经过160 d的处理后,含油污泥中石油降解率可达52.75%.针对北方冬季低温的特点,在处理场中建立了温室保温措施.温室内外修复效果的比较表明,在冬季采取适当的保温措施可以明显提高污泥中石油烃类的降解率.     

粘胶基活性炭纤维用于低浓度SO2常温脱除的实验研究

活性炭纤维(ACF)是一种新型功能性炭材料.应用粘胶基活性炭纤维(cellulose-ACF)对低浓度SO2(571mg/m3)进行吸附氧化实验,通过改变活性炭纤维量、SO2浓度、氧浓度,观察cellulose-ACF脱除低浓度SO2能力的变化规律.实验结果表明,随着活性炭纤维量、氧浓度的增加,cellulose-ACF对低浓度SO2的脱除能力增强.在此基础上展望活性炭纤维在大气环保领域的应用前景.     

Adsorption of arsenate on soils. Part 1: laboratory batch experiments using 16 Chinese soils with different physiochemical properties

Laboratory batch experiments were carried out to study the adsorption of arsenate on 16 Chinese soils with different physicochemical properties. Wide differences in arsenate adsorption were observed, and the Jiangxi and Hubei soils were more effective sorbents for arsenate than other soils. The Langmuir one-surface and two-surface equations were used to model the arsenate adsorption data. Except for the Jiangxi and Hubei soils, the Langmuir one-surface equation gave reasonably good fits to the arsenate adsorption data. However, the Langmuir two-surface equation generally provided a better fit than the Langmuir one-surface equation. For soils with relative high organic matter (OM), dissolved organic carbon (DOC) or extractable phosphate, the Langmuir one-surface and two-surface equations described the adsorption isotherms similarly. In contrast, for soils with relatively low contents of OM, DOC or extractable phosphate, the Langmuir two-surface equation gave the better fit to the arsenate adsorption data.     

Designing monitoring networks to represent outdoor human exposure

Measurements of outdoor human exposure to suspended particulate matter (PM) are always constrained by available resources. An effective network design requires tradeoffs between variables measured, the number of sampling locations, sample duration, and sampling frequency. Sampling sites are needed to represent neighborhood and urban spatial scales with minimal influences from nearby sources. Although most PM measurements for determining compliance with standards are taken over 24-h periods every third to sixth day, outdoor human exposure assessment requires measurements taken continuously throughout the day, preferably over durations of 1 h or less. More detailed particle size and chemistry data are also desirable, as smaller size fractions and specific chemicals may be better indicators of adverse health effects than total mass samples.     

混凝-氧化法处理印染废水

采用混凝 氧化法对印染废水进行处理 ,得出最佳混凝条件及氧化条件。实验结果表明 ,该法可使印染废水的CODCr与色度去除率分别达到 90 .2 %和 99.1%。该方法具有去除率高、操作方便、设备简单、不产生二次污染等优点。     

Performance of three-phase three-dimensional electrode reactor for the reduction of COD in simulated wastewater-containing phenol

The removal of chemical oxygen demand (COD) from wastewater-containing phenol was investigated using three-phase three-dimensional electrode reactor. Special attention was paid to experimentally probe the performance of the reactor in COD removal in the process of repeated batch runs. The experimental results showed that the reactor could remove COD from phenol-containing wastewater much more efficiently than both granulated activated carbon (GAC) adsorption bed and conventional three-dimensional electrode. For 200th batch run, the three-phase three-dimensional electrode reactor with an airflow of 5 l min(-1) and a cell voltage of 30 V could remove 1350 ppm COD from the wastewater in 30 min while conventional three-dimensional electrode reactor with a same cell voltage and GAC adsorption bed with a same airflow only could remove 610 and 1000 ppm, respectively, at the same reaction duration. Although it was found that COD removal decreased with increasing repeated batch runs in our experimental range, due to adsorption saturation of GAC and electrode passivation, the extent of decrease for the three-phase three-dimensional electrode is much less than those for conventional three-dimensional electrodes and GAC adsorption beds. The passivated reactor could be partly re-activated by electrolysis in the presence of MnO2.     

建立环境风险防范体系加强对环境风险的管理

阐明了环境风险管理的必要性，提出了环境风险管理的对策和措施。同时，结合当前环境突发事件应急预案编制存在的主要问题，提出了浙江省规范环境突发事件应急预案编制的建议。