二氧化氯杀灭小球藻

实验研究了二氧化氯投加量、小球藻的初始浓度、pH、有机物和氨氮含量对ClO2杀灭来自于水库水的小球藻的影响,考察了ClO2氧化与混凝工艺结合时去除小球藻的效果并对工艺条件进行优化。结果表明,ClO2在投加量1.1 mg/L下,接触10 min,小球藻的杀灭率为71.93%。小球藻的杀灭率随着ClO2投加量的增大和藻初始浓度的升高而提高,随水中有机物含量的增加而显著降低,氨氮含量对小球藻杀灭的效果影响很小。在酸性条件和碱性条件下,小球藻的杀灭率均随pH升高而急剧下降,而在中性至弱碱性区间内,藻的杀灭率随pH升高而缓慢下降。对于某以小球藻为优势藻的供水水库源水,ClO2氧化与混凝工艺结合,藻的去除率高达98.47%。除藻的最佳工艺条件为：二氧化氯投加量为0.5 mg/L,聚合氯化铝为5 mg/L,二氧化氯与混凝剂同时投加。     

二氧化氯应用于二次供水安全消毒的静态研究

采用二氧化氯（ClO2）作为二次供水的消毒剂进行静态实验研究,考察了ClO2投加量、氨氮与CODMn浓度及pH对ClO2衰减及消毒副产物氯酸盐（ClO3^-）和亚氯酸盐（ClO2）的生成影响,并建立了ClO3-和ClO2生成浓度的经验预测模型。结果表明：前4h内,随着消毒剂初始投加浓度提高,ClO2的衰减速率增加,4h后降解则较缓慢。ClO2加入水中,立即有ClO3^-与ClO2^-生成,4h后基本达到稳定,且随着药剂投加量的增加,ClO3^-和ClO2-的生成量逐渐增大。氨氮、CODMn及pH的升高,可加速ClO2的衰减,同时可促进ClO3^-和ClO2-的生成。其中,氨氮浓度从0．085mg／L升高到0．585mg／LClO3^-与ClO2-的生成浓度分别增加了6．49μg／L和8．32μg／L;CODMn从1．13mg／L升高到3．13mg／L,ClO3^-与ClO2-的生成浓度分别增加了13．75μg／L和9．23μg／L;pH从6．49升高到8．45,ClO3^-与ClO2-的生成浓度分别增加了13．28μg／L和10．01μg／L。     

二氧化氯泡沫分离法处理水合肼类废液

采用二氧化氯泡沫分离装置,研究了二氧化氯泡沫分离法对水合肼类废液的处理效果.通过实验重点考察了废水pH值、二氧化氯投加量和反应时间等参数对废水处理效果的影响.在最佳反应条件(即pH值为10,每升废水中二氧化氯的投加量为5 mg/1 000 COD、反应时间为3 h)下进行反应,原废液(COD值为30 000～35 000 mg/L,氨氮总量为2 500～2 700 mg/L)经处理后COD去除率达到99%,氨氮去除率达到96%以上.     

二氧化氯催化氧化处理酸性大红染料废水研究

对经微电解预处理后的酸性大红染料配制废水进行二氧化氯催化氧化实验，结果表明：当废水COD在3400mg/L左右，pH=4，氧化反应时间为45min，二氧化氯（ClO2）投加量为750mg/L，在催化剂作用下，COD平均去除率约达到88%，而单一的ClO2氧化，其COD平均去除率仅为28%。     

异相Fenton试剂催化氧化-混凝沉淀深度处理焦化废水

针对焦化废水二级生化处理出水COD、色度和浊度无法达标的问题,实验研究了异相Fenton试剂催化氧化法和混凝沉淀法以及二者联合深度处理焦化废水的效果,分别探讨了H2O2、FeOOH投加量、初始pH,混凝剂投加量及种类对COD去除的影响,确定了最佳运行条件,采用GC-MS分析了联合工艺对废水中有机物的去除规律。异相Fenton试剂催化氧化静态实验研究表明,当H2O2(10%)投加量为2 mL/300 mL,FeOOH投加量为3 g/L,初始pH为4~6之间,处理效果最佳;混凝沉淀实验中最佳的混凝剂为聚丙烯酰胺阳离子,最佳投加量为8 mg/L。异相Fenton试剂催化氧化-混凝沉淀联合工艺深度处理焦化废水,出水COD基本在90 mg/L左右,浊度为0.8NTU左右,色度为40度以下,满足国家污水综合排放二级标准(GB8978-1996)。GC-MS分析显示,联合工艺能有效减少废水中有机物的种类和浓度,并将废水中长链大分子化合物和杂环化合物分解为短链的小分子化合物,构成联合工艺出水COD的主要是小分子有机物,尤其是卤代烷烃含量较高。     

混凝沉淀-Fenton-NaClO氧化深度处理垃圾渗滤液

用混凝沉淀-Fenton-NaClO氧化联合深度处理垃圾渗滤液,利用单因素变量法得出:混凝实验在PFS投加量为1.2g/L、pH=6、搅拌时间为30min的条件下进行,COD、氨氮和色度的去除率分别达到56.60%、15.62%和56.52%;混凝出水在初始pH为4、H2O2投加量为80mmol/L、n(H2O2)∶n(F2+)比为1∶1、反应时间为60min的条件下进行Fenton氧化,COD、氨氮和色度的去除率分别达到71.38%、21.43%和95.24%;Fenton氧化出水在pH为6、NaClO投加量为60mmol/L、反应时间为60min的条件下进行NaClO氧化,COD和氨氮去除率分别为83.42%和99.57%;联合工艺COD、氨氮和色度去除率分别为96.68%、99.69%和98.04%,出水浓度分别为63mg/L、0.47mg/L和18倍,均可满足《生活垃圾填埋污染控制标准(GB16889-2008)》中规定的排放标准。     

固定化小球藻与活性污泥的共生系统处理含锌废水

研究固定化小球藻与活性污泥的共生系统对含锌废水中Zn2+的去除效果,分析菌藻状态、初始Zn2+浓度、pH、固定化菌藻小球投加量和菌藻体积比等5个因素对固定化菌藻共生系统去除Zn2+的影响。结果表明,固定化活性污泥、固定化小球藻和固定化菌藻对Zn2+的去除效果均优于悬浮小球藻,其中固定化菌藻对Zn2+的去除效果最好;废水中初始Zn2+浓度小于100 mg/L时,固定化菌藻系统对废水中Zn2+的去除率达到90.5%;固定化菌藻系统去除废水中Zn2+的最佳条件是:初始Zn2+浓度为80 mg/L,pH=7,固定化小球投加量为80 mL,菌藻体积比为1∶2。     

强化混凝-光电氧化组合工艺深度处理垃圾渗滤液膜滤浓缩液

采用强化混凝-光电氧化组合工艺对北京某垃圾填埋场垃圾渗滤液膜滤浓缩液进行处理。探讨了不同混凝剂投加量、电流密度和反应时间对COD去除率的影响,并考察了溶解性有机物的分子量和结构在本工艺中的变化。结果表明:同时投加Ca(OH)2、Fe2(SO4)3和PAM混凝后,COD去除率为28.00%,含量由4 700 mg/L降低到3 384 mg/L;同时投加KMnO4、Fe2(SO4)3和PAM进行二次混凝,COD去除率为60.20%,含量为1 870 mg/L;混凝后水样在电流密度为400A/m2,经3 h光电氧化后,COD去除率为86.20%,含量为650 mg/L。本工艺将垃圾渗滤液膜滤浓缩液中部分大分子量有机物降解为小分子量有机物;光电氧化后,有机物结构被迅速破坏。     

高锰酸钾对藻细胞及胞外有机物的控制效果

以假鱼腥藻(Pseudoanabaena sp.)和颤藻(Oscillatoria sp.)等蓝藻(Cyanobacteria sp.)为优势藻群的深圳石岩水库水样为对象,研究高锰酸钾在氧化过程中藻细胞活性、胞外有机物DOC浓度、胞外溶解性有机物(DOM)的荧光特性变化,以及高锰酸钾预氧化强化混凝除藻和去除有机物的效果。在荧光显微镜下观察到,低浓度(0~1.5 mg·L~(-1))高锰酸钾对藻细胞的灭杀效果并不明显。较高浓度(5 mg·L~(-1))高锰酸钾则对藻细胞结构有一定程度的破坏,藻细胞的总数减少了28%。研究发现,高锰酸钾能够氧化藻细胞使其释放胞内物质,投加1.5mg·L~(-1)后胞外2-甲基异莰醇(2-MIB)与土臭素(GSM)浓度均有所升高。在高锰酸钾氧化过程中,胞外DOC和DOM荧光总量随氧化时间的延长均呈降低-升高-降低的趋势;5 mg·L~(-1)的高锰酸钾氧化10 min时就会引起芳香性蛋白质类物质和溶解性微生物代谢产物类物质的升高。高锰酸钾能够有效强化混凝去除藻类和有机物,聚合氯化铝(PAC)最优投加量为3 mg·L~(-1),高锰酸钾最优投加量为0.6 mg·L~(-1)。     

镀镍漂洗废水中有机物的臭氧氧化处理研究

用臭氧氧化处理镀镍漂洗废水中的有机物,主要考察pH、臭氧投加量、废水初始COD浓度、温度等因素对处理效果的影响,并对反应机理进行初步的探讨.实验结果表明,废水的COD去除率随pH的增大而升高,比较适宜的pH为6～7;适当地增加臭氧投加量有利于提高COD去除率;在一定温度范围(15～35℃)内,提高反应温度有利于废水中有机物的降解;当臭氧投加量为20 mg/(min·L),对于初始COD为56 mg/L、pH 6.5的实际镀镍漂洗废水,在25 ℃的条件下氧化100min,出水COD降至10mg/L,COD去除率达到82%;在臭氧氧化镀镍漂洗废水的反应中,部分有机物的降解是在Ni2 的催化下由臭氧分解生成氧化能力更强的自由基来完成.臭氧氧化可作为镀镍漂洗废水处理回用的预处理工艺.     

Disinfection performance of chlorine dioxide gas at ultra-low concentrations and the decay rules under different environmental factors

ABSTRACT

Gaseous chlorine dioxide (ClO₂) is one of the most promising air disinfectants. In this study, an ultra-low concentration of ClO₂ gas (< 1.2 mg/m³) was generated in an office at various levels of humidity and illuminance to investigate the decay law. The disinfection efficiency and metal corrosiveness of ultra-low concentrations of ClO₂ gas were also studied using an experimental chamber. At 48% and 75% humidity, the decay rate constants of ClO₂ gas were 0.0034 min^?1 and 0.0036 min^?1, respectively. The rate of decline of the ClO₂ concentration increased as the humidity of the environment increased. The decay rate constant of ClO₂ gas at an illuminance of 76 lux and 3429 lux was 0.0034 min^?1 and 0.00427 min^?1, respectively; hence, the decay rate increased with increased illumination. At a humidity of 72% and illuminance of 2112 lux, the decay rate constant reached 0.00880 min^?1. The effects of humidity and illuminance on the attenuation of the ClO₂ concentration were strongly synergistic. When the gas concentration was maintained below 0.9 mg/m³, the disinfection rate of ClO₂ on bacteria (P. aeruginosa, V. mimicus and S. aureus) exceeded 99.9%; thus, ClO₂ gas exhibited a high disinfection efficiency. In addition, there was no corrosion to various metals by ClO₂ under the same conditions. Consequently, gaseous ClO₂ at ultra-low concentrations has a high sterilization efficiency and is non-corrosive to metals.     

高浓度钻井废水的混凝-催化氧化处理

以华北油田某深井的高浓度钻井废水(COD高达14 460.0 mg/L)为研究对象,提出了酸化-混凝-催化氧化-吸附的组合处理工艺。重点研制了钻井废水催化氧化处理催化剂(镍基催化剂),通过实验确定了最佳工艺参数条件。着重考察了催化氧化处理的工艺条件,在pH值为4,次氯酸钙投加量为4.4 g/L,催化剂投加量为1.6 g/L的条件下COD降至403.5 mg/L,进一步吸附处理后COD降至139.9 mg/L、色度为30倍、石油类含量为3.8 mg/L、pH为8.0和SS浓度为52mg/L,最终出水水质达到《污水综合排放标准》(GB 8978-1996)二级标准,处理成本为84.8元/m3。     

Harvesting of Chlorella sp. using hollow fiber ultrafiltration

Introduction

The suitability of the application of ultrafiltration (UF) to harvest Chlorella sp. from the culture medium was examined. We investigated the effects of two improved UF system, forward air?Cwater flushing and backwash with permeate, on the concentration process.

Materials and methods

Backwash with permeate was selected as an optimization of the improved UF system, which was more effective for permeate flux recovery. Moreover, the hollow fiber UF system by adding periodical backwash with permeate was examined for Chlorella sp. harvesting.

Results and discussion

It was found that Chlorella sp. could be concentrated with high recovery in a lab-scale experiment. An overall algal biomass recovery of above 90% was achieved when the volume concentration factor was 10. For an original biomass of 1.3?±?0.05?g/L, 1?min backwash followed by 20?min forward concentrating was more effective, which resulted in a recovery of 94% and a high average flux of 30.3?L/m²/h. In addition, the algal recovery was highly correlated to the volume concentration factor and the initial biomass. A high concentration factor or a high initial biomass resulted in a low biomass recovery.     

Assessing the toxicity of organophosphorous pesticides to indigenous algae with implication for their ecotoxicological impact to aquatic ecosystems

This study aimed to determine the toxicity of three organophosphorous pesticides, chlorpyrifos, terbufos and methamidophos, to three indigenous algal species isolated from local rivers and algal mixtures. The diatom Nitzschia sp. (0.30–1.68 mg L^?1 of EC₅₀ -the estimated concentration related to a 50% growth reduction) and the cyanobacteria Oscillatoria sp. (EC₅₀ of 0.33–7.99 mg L^?1) were sensitive to single pesticide treatment and the chlorophyta Chlorella sp. was the most tolerant (EC₅₀ of 1.29–41.16 mg L^?1). In treatment with the mixture of three pesticides, Chlorella sp. became the most sensitive alga. The antagonistic joint toxic effects on three indigenous algae and algal mixtures were found for most of the two pesticide mixtures. The results suggested that mixture of pesticides might induce the detoxification mechanisms more easily than the single pesticide. The synergistic interactions between terbufos and methamidophos to algal mixtures and between methamidophos and chlorpyrifos to Nitzschia sp. indicated methamidophos might act as a potential synergist. Differential sensitivity of three families of algae to these pesticides might result in changes in the algal community structures after river water has been contaminated with different pesticides, posing great ecological risk on the structure and functioning of the aquatic ecosystem.     

A protocol for the evaluation of genotoxicity in bile of carp (Cyprinus carpio) exposed to lake water treated with different disinfectants

A sensitive and rapid method to evaluate toxic and genotoxic properties of drinking water supplied from Lake Trasimeno (Umbria, Central Italy) was worked out analysing bile in Cyprinus carpio exposed for 20 d to lake water treated with 3 different disinfectants, sodium hypochlorite (NaClO), chlorine dioxide (ClO₂) and peracetic acid (PAA). Fish were sacrificed at 0, 10 and 20 d in order to investigate the time course of these endpoints. An aliquot of bile samples was fractionated by adsorption on C₁₈ silica cartridges and the genotoxic potential of whole bile and of bile fractions was evaluated by the single-cell microgel-electrophoresis (comet) assay on human colonic adenocarcinoma cells (Caco-2). Bile (both whole and fractionated) from specimens exposed to the three disinfectants always showed a genotoxic activity as compared to the control group. The results of this study provide evidence that all three disinfectants cause an increase in bile genotoxicity of chronically exposed fish.     

二氧化氯深度处理垃圾渗滤液研究

利用二氧化氯对生物处理后的垃圾渗滤液进行深度处理,根据废水中有效氯浓度、COD、氨氮及细菌数等参数的分析,初步探讨了不同浓度的二氧化氯在不同处理时间内对垃圾渗滤液的处理效果。结果表明,对于COD初始浓度为450 mg/L左右的水样,二氧化氯的投加浓度达100 mg/L（有效氯）,反应时间在50 min时,处理水样可达到同类废水的国家二级排放标准;对于同样条件下的水样,当加入约25 mg/L的二氧化氯时可以杀灭水样中的大肠杆菌,加入浓度达到90 mg/L的二氧化氯时,可以杀灭水样中几乎所有的细菌。     

污水深度处理微絮凝-D型滤池工艺运行性能与经济性分析

根据昆明市第一污水处理厂深度处理微絮凝-D型滤池工艺的运行数据,评价了工艺出水水质及总磷(TP)去除效果,同时分析了混凝剂投加量及药剂费用。结果表明,微絮凝-D型滤池工艺出水TP平均浓度为0.15 mg/L,最优水平值为0.05 mg/L,95%保证值为0.37 mg/L,TP平均去除率为63.6%。出水悬浮固体(SS)浓度95%保证值为10 mg/L。混凝剂聚合氯化铝(PAC)的投加量在1.5~4 mg Al2O3/L范围波动,去除单位TP的PAC投加量平均值为16.7 mg Al2O3/mg-P,投加比为2~8 mol-Al/mol-P。当投加比超过5时,出水TP浓度可达到0.3 mg/L以下。吨水PAC成本平均值为0.017元/t。     

高效聚合氯化铝对超滤膜污染影响的中试研究

针对某水厂以超滤为核心的短流程水处理工艺,在通过聚氯乙烯(PVC)超滤膜之前选择不同投加量(5、10、15和20 mg/L)的高效聚合氯化铝(HPAC)对长江下游原水进行混凝处理。通过跨膜压差(TMP)增长趋势、CODMn的去除率以及混凝后的水质,可知HPAC的最优投加量为15 mg/L。在此投加量下,运用体积排阻色谱法分析原水、膜前水、膜后水中各相对分子质量有机物的变化,可以发现混凝去除有机物的效果要优于超滤截留的。继而将HPAC与另外4种常用混凝剂:硫酸铝(分析纯)、氯化铁(化学纯)、聚合氯化铝(PAC)、聚合硫酸铁进行对比,结果表明,在它们各自最优投加量下,HPAC能够更有效地减缓超滤膜TMP的增长率,从而降低膜污染。因此,认为HPAC是与PVC超滤合金膜契合效果最佳的混凝剂。     

光催化氧化-Fenton组合方法降解高浓度正丙醇废水

研究了1%和10%2种浓度正丙醇废水在光催化氧化-Fenton组合工艺条件下的降解情况,分别考察了H2O2加药方式及剂量、Fe2+浓度、TiO2浓度,以及废水的初始浓度对反应的影响,得到了优化工艺参数。结果显示,在23 W的低压汞灯照射下,当Fe2+离子浓度为0.44 g/L,TiO2为0.4 g/L,H2O2分6次等幅递增投加,增幅为均值的10%,投加总量至28.6 g/L时,反应6 h后,组合工艺可将1%浓度正丙醇废水的COD从17 200 mg/L降低至2 000 mg/L。H2O2总用量为136.5 g/L,其他条件及加药方式不变条件下,废水浓度提高至10%,紫外光能量利用率明显提高,反应15 h后,可将COD从172 000 mg/L降至1 000 mg/L以下,降解速率随浓度降低而下降。