基质浓度对ABR反应器SAD协同脱氮除碳效能影响

为改善厌氧氨氧化对总氮(TN)去除不完全和有机物对厌氧氨氧化胁迫的问题,采用厌氧折流板反应器(ABR),接种成熟的厌氧氨氧化污泥与城市污水处理厂厌氧污泥,通过不同基质浓度控制,构建厌氧氨氧化耦合反硝化系统(SAD),并考察不同进水基质(COD、NO-2-N、NH+4-N)浓度对耦合系统脱氮除碳效能的影响及污染物去除规律.结果表明,在ABR反应器中可实现厌氧氨氧化与反硝化的耦合反应,并缓解了有机物对厌氧氨氧化菌的抑制效应.当进水COD、NO-2-N和NH+4-N浓度为260、185和100 mg·L-1,比例为2.6∶1.85∶1时,三者出水浓度分别低于10、1.0和0.9 mg·L-1,TN去除率达到99%,实现系统的稳定运行和C、N污染物的超低排放.不同基质浓度和比例条件下,目标污染物去除基本在第1隔室完成,去除率均在75%以上,且厌氧氨氧化反应在SAD耦合系统脱氮中占主导地位.     

UASBB厌氧氨氧化反应器处理污泥脱水液的影响因素研究

研究基质质量浓度、温度、pH值、HRT和C/N比对厌氧氨氧化脱氮性能的影响.试验水样采用污泥脱水液,控制进水ρ(NH+4-N)/ρ(NO-2-N)为1∶1.32,分别考察了在不同基质质量浓度、HRT、温度、pH值和C/N比的情况下,UASBB厌氧氨氧化反应器的脱氮性能.结果表明,在进水NH+4-N和NO-2-N质量浓度分别为200 mg·L-1和264 mg·L-1、HRT=24 h、温度为30～35℃、pH值为7.5～8.5、C/N比在0.5左右的条件下,厌氧氨氧化反应器的脱氮效果最佳,NH+4-N、NO-2-N和TN平均去除率分别达到75.72%、76.36%和70.19%,TN平均容积负荷可达0.464 kg·(m3·d)-1,COD平均去除率在30%左右.通过合理控制进水基质质量浓度和HRT能够有效地提高厌氧氨氧化反应器的脱氮性能.只有在适宜的温度和pH值范围内,厌氧氨氧化菌才能表现出较高的活性.当进水添加有机物时,厌氧氨氧化反应器中存在反硝化现象,且随着有机物质量浓度的升高,异养反硝化菌的竞争优势逐渐增强,对厌氧氨氧化产生明显的抑制作用.     

ABR除碳-亚硝化耦合厌氧氨氧化处理城市污水

为推进厌氧氨氧化技术应用于城市污水处理,耦合亚硝化系统和厌氧氨氧化系统,并在其前端添加ABR除碳系统,构建ABR除碳-亚硝化耦合厌氧氨氧化工艺进行城市污水脱氮除碳,采用MiSeq高通量测序技术分析污泥中微生物菌群结构的变化情况.结果表明,ABR除碳系统出水COD平均浓度120 mg·L~(-1),不会对后续亚硝化系统和厌氧氨氧化系统产生不利影响,控制亚硝化系统出水和ABR除碳出水比例为2∶1作为厌氧氨氧化系统进水,满足ANAMMOX所需NO_2~--N和NH_4~+-N基质比1∶1左右的要求.一体式反应器总氮去除率在86%～92%,出水COD浓度在20～40 mg·L~(-1).同时,实验后亚硝化系统中与反硝化作用密切相关的γ-Protebacteria纲有所增加,厌氧氨氧化系统中具有较高微生物生长速率和增强脱氮速率功能的Sphingobacteria纲显著增加,ABR除碳-亚硝化耦合厌氧氨氧化工艺能够有效用于处理城市污水脱氮除碳.     

基质浓度对ABR厌氧氨氧化反硝化脱氮除碳效能影响及动力学特征

采用厌氧折流板反应器(ABR)为研究对象,以一定COD、NH+4-N和NO-2-N比例增加进水基质浓度,以明确基质负荷提高对ABR厌氧氨氧化和反硝化协同体系脱氮除碳的影响,并通过基质去除模型获得反应器对基质的耐受程度.研究表明,ABR反应器能够实现厌氧氨氧化反硝化耦合脱氮除碳,当进水基质COD、NO-2-N和NH+4-N浓度从220、168和60 mg·L~(-1)提高至420、270和110 mg·L~(-1)时,反应器脱氮效能下降,COD、NO-2-N、NH+4-N和TN去除率分别为97%、94%、30%和78%,厌氧氨氧化对TN去除的贡献率从43.08%骤降至16.49%,反硝化脱氮贡献率从53.81%增至82.07%.动力学模型拟合发现,Stover-Kincannon模型(R2=0.937,TN;R2=0.975,COD)较一级基质去除模型(R2=0.314,TN;R2=0.016,COD)更适合评价反应器对基质的承受力;Stover-Kincannon模型表明,反应器对TN和COD的最大基质利用率分别为1.43 g·L-1·d-1和3.33 g·L-1·d-1,饱和常数(KB)分别为1.2和3.79,研究认为ABR协同脱氮除碳体系理论上还有继续提升基质负荷的潜力.     

ABR除碳-亚硝化耦合厌氧氨氧化处理城市污水

为推进厌氧氨氧化技术应用于城市污水处理,耦合亚硝化系统和厌氧氨氧化系统,并在其前端添加ABR除碳系统,构建ABR除碳-亚硝化耦合厌氧氨氧化工艺进行城市污水脱氮除碳,采用MiSeq高通量测序技术分析污泥中微生物菌群结构的变化情况。结果表明,ABR除碳系统出水COD平均浓度120mg·L-1,不会对后续亚硝化系统和厌氧氨氧化系统产生不利影响,控制亚硝化系统出水和ABR除碳出水比例为2:1作为厌氧氨氧化系统进水,满足ANAMMOX所需NO2--N和NH4+-N基质比1:1左右的要求。一体式反应器总氮去除率在86%~92%,出水COD浓度在20~40mg·L-1。同时,实验后亚硝化系统中与反硝化作用密切相关的γ-Protebacteria纲有所增加,厌氧氨氧化系统中具有较高微生物生长速率和增强脱氮速率功能的Sphingobacteria纲显著增加,ABR除碳-亚硝化耦合厌氧氨氧化工艺能够有效用于处理城市污水脱氮除碳。     

厌氧氨氧化耦合反硝化工艺的启动及微生物群落变化特征

为了解厌氧氨氧化耦合反硝化启动过程中脱氮除碳性能与微生物群落的关系,通过逐步提高进水COD浓度研究了SAD启动过程中脱氮除碳性能和微生物群落变化.结果表明,随着进水COD浓度增加,出水NH_4~+-N和NO_2--N的浓度保持稳定,平均去除率均在98%以上; TN去除率逐渐升高,第3阶段TN平均去除率为95. 6%,比厌氧氨氧化理论TN去除率高6. 8%;ΔNO_3~--N/ΔNH_4~+-N明显下降,从0. 15～0. 17逐步降至0. 03～0. 07;厌氧氨氧化脱氮贡献率逐渐下降,反硝化脱氮贡献率逐渐上升,COD去除率逐步增加.污泥活性分析表明SAD启动后污泥反硝化活性明显增加,厌氧氨氧化活性略微降低.高通量测序结果表明,反应器内微生物的优势菌门为绿弯菌门、浮霉菌门、厚壁菌门、装甲菌门和变形菌门,微生物群落特征与SAD脱氮除碳性能密切相关,与脱氮除碳有关的功能微生物主要有厌氧氨氧化菌、厌氧消化菌和反硝化菌,SAD启动后反应器内厌氧氨氧化菌丰度减少,厌氧消化菌和反硝化菌丰度明显增加.     

基于SBR-ABR实现PN-SAD耦合工艺的运行与优化调控

采用序批式活性污泥反应器-厌氧折流板反应器(SBR-ABR)组合工艺,构建"部分亚硝化-厌氧氨氧化反硝化"(PNSAD)反应链实现深度脱氮除碳.设定3种不同的运行工况,工况Ⅰ将SBR出水(NO_2~--N/NH_4~+-N为1～1.32)直接接入单隔室ABR厌氧氨氧化系统,发现虽然实现了厌氧氨氧化反应的稳定运行,但联合工艺总氮(TN)去除率低于80%,出水TN约20mg·L~(-1).为在ABR内增加反硝化功能,向ABR反应器第三隔室添加反硝化污泥,于工况Ⅱ将SBR出水接入,发现耦合反应对TN去除率仍偏低若实现深度脱氮需在厌氧氨氧化后段补充碳源.故在工况Ⅲ调控SBR出水(NO_2~--N/NH_4~+-N=5)与部分原水混合(NO_2~--N/NH_4~+-N=1.4;C/N=2.5),接入单隔室ABR厌氧氨氧化反硝化系统不仅实现了厌氧氨氧化段基质的良好配比,也为反硝化提供了良好的有机碳源,整个工艺出水COD为50左右,TN在6以下,TN去除率达到95%.在SBR-ABR反应器内构建PN-SAD联合反应为废水深度脱氮除碳提供了理论基础.     

基于ASBR反应器的厌氧氨氧化启动及特性研究

采用ASBR反应器,接种消化污泥和厌氧颗粒污泥的混合污泥,在温度(35±1)℃、HRT为24h、pH为7.3～8.5的条件下经过160d的培养,获得了砖红色的厌氧氨氧化菌菌胶团.试验结果表明:进水NH+4-N和NO-2-N浓度约为180mg·L-1,平均总氮容积负荷为0.38kg·m-3·d-1时.NH4+4-N和NO-2N的去除率平均为93.2%和95.7%,TN平均去除率为86.9%.厌氧氨氧化反应过程出水pH值高于进水,稳定在7.74左右.     

FeSO_4对厌氧氨氧化微生物活性影响

研究FeSO4对厌氧氨氧化微生物活性的影响,考察不同总氮负荷下加入FeSO4的反应器与对照反应器出水NH+4-N、NO-2-N、NO-3-N出水浓度及反应器ΔTN,结果表明,当FeSO4浓度为0.1 mmol/L时,反应器NO-2-N出水浓度明显低于对照,反应器基质去除能力强于对照,而反应器NO-3-N出水浓度则高于对照,反应器厌氧氨氧化微生物活性及生物量高于对照。FeSO4可促进厌氧氨氧化微生物富集生长及活性提高,增强反应器基质去除能力及抗负荷冲击能力。     

同步硝化反硝化耦合除磷工艺的快速启动及其运行特征

以低COD/N生活污水(C/N为3∶1~4∶1)为进水基质,在序批式活性污泥反应器(SBR)中接种好氧颗粒污泥(AGS),通过逐步降低溶解氧(DO)浓度的方式快速实现同步硝化反硝化耦合除磷.反应器运行20 d后(DO浓度为0.50~1.0mg·L-1),系统出现同步硝化反硝化耦合除磷的现象.在随后运行的40 d里,反应器对废水COD、NH+4-N、TN和TP的平均去除率分别为84.84%、93.51%、77.06%和85.69%;出水NO-3-N和NO-2-N平均浓度分别为4.01 mg·L-1和3.17 mg·L-1.反应器启动运行后期,污泥体积指数(SVI)为55.22 m L·g-1,沉降性能良好,颗粒结构较完整.不同氮源的周期曝气阶段结果表明,对TN的去除率为NH+4-NNO-2-NNO-3-N;对TP的去除率为NO-3-NNO-2-NNH+4-N,反应器主要以同步硝化反硝化脱氮和反硝化方式除磷.     

Distribution and ecological effect of mercury in Laogang landfill, Shanghai, China

Laogang landfill near Shanghai is the largest landfill in China, and receives about 10000 t of daily garbage per day, Samples of topsoil and plants were analyzed to evaluate mercury pollution from the landfill. For topsoil samples, there were significant correlations among total mercury （HgT）, combinative mercury （Hgc） and gaseous mercury （HgG）, and content of total organic carbon （TOC）, but, no significantly relationship was found between Hg content and filling time. Hg content changes in vertical profiles with time showed that the average Hgv of profiles 1992, 1996, and 2000 was similar, but their average HgG was quite different. HgT was significantly correlated with Hgc in profile 1992 and 2000, and Hgv was significantly correlated with Hg6 in profile 1996. HgG/Hgv ratio in profile samples decreased in the order of （HgG,/HgT）1992〉（HgG/HgT）1996〉〉（HgG/HgT）2000. A simple outline of Hg release in landfill could be drawn： with increasing of filling time, degradation undergoes different biodegradation, accordingly, gaseous mercury goes through small, more, and small proportion to total mercury. Distribution of Hg in plants was inhomogeneous, following the order of leaf〉root〉stem. The highest value of leaf may be associated with higher atmospheric Hg from landfill. Ligneous plants （e.g. Phyllostachys glanca, Prunus salicina and Ligustrum lucidum） are capable of enriching more Hg than herbaceous plants.     

EDTA-enhanced phytoremediation of lead contaminated soil by Bidens maximowicziana

Phytoremediation is a potential cleanup technology for the removal of heavy metals from contaminated soils.Bidens maximowicziana is a new Pb hyperaccumulator,which not only has remarkable tolerance to Pb but also extraordinary accumulation capacity for Pb.The maximum Pb concentration was 1509.3 mg/kg in roots and 2164.7 mg/kg in overground tissues.The Pb distribution order in the B. maximowicziana was:leaf>stem>root.The effect of amendments on phytoremediation was also studied.The mobility of soil Pb and the Pb concentrations in plants were both increased by EDTA application.Compared with CK(control check),EDTA application promoted translocation of Pb to overground parts of the plant.The Pb concentrations in overground parts of plants was increased from 24.23-680.56 mg/kg to 29.07-1905.57 mg/kg.This research demonstrated that B.maximowicziana appeared to be suitable for phytoremediation of Pb contaminated soil,especially,combination with EDTA.     

Decomposition of alachlor by ozonation and its mechanism

Decomposition and corresponding mechanism of alachlor, an endocrine disruptor in water by ozonation were investigated. Results showed that alachlor could not be completely mineralized by ozone alone. Many intermediates and final products were formed during the process, including aromatic compounds, aliphatic carboxylic acids, and inorganic ions. In evoluting these products, some of them with weak polarity were qualitatively identified by GC-MS. The information of inorganic ions suggested that the dechlorination was the first and the fastest step in the ozonation of alachlor.     

Enzymatic oxidation of aqueous pentachlorophenol

The influence of the nonionic surfactant Tween 80 on pentachlorophenol （PCP） oxidation catalyzed by horseradish peroxidase was studied. The surfactant was tested at concentrations below and above its critical micelle concentration （CMC）. Enhancement of PCP removal was observed at sub-CMCs. The presence of Tween 80 in the reaction mixture reduced enzyme inactivation which occurred through a combination of free radical attack and sorption by precipitated products. A simple first-order model was able to simulate time profiles for enzyme inactivation in the presence or absence of Tween 80. At supra-CMCs, the surfactant caused noticeable reductions in PCP removal, presumably through micelle partitioning of PCP which precluded the hydrophobic PCP molecule from interacting with the enzyme.     

基于综合水质标识指数和对应分析法的校园河道水质评价

以三峡大学的校园河道求索溪为研究对象,利用综合水质标识指数法确定求索溪水质类别,分析其水质时空变化规律,并利用对应分析法得出求索溪中不同监测点的主要污染因子.研究结果表明:求索溪整体的综合水质标识指数为7.423,整体水质为劣V类(地表水环境质量标准GB 3838-2002)且黑臭.从时间变化来看,求索溪4月份的水质最差,5月份次之,4、5月份所有监测点的水质都劣于V类且黑臭;8月份水质最好,水质为Ⅳ类;从空间分布来看,8个监测点综合水质标识指数均超过6.0,水质为劣V类,其中6号监测点的水质相对最好,监测点3号的水质相对最差;对应分析法得出求索溪的整体水体污染程度受总氮因子的影响最大,其次为总磷.该研究拟为求索溪及类似校园河道的水环境治理研究提供基础依据和参考.     

Effects of chitosan on growth of an aquatic plant (Hydrilla verticillata) in polluted waters with different chemical oxygen demands

Effects of chitosan on a submersed plant, Hydrilla verticillata, were investigated. Results indicated that H. venicillata could prevent ultrastructure phytotoxicities and oxidativereaction from polluted water with high chemical oxygen demand (COD). Superoxide dismutase (SOD) activity and malondialdehyde (MDA) contents in H. verticillata treated with 0.1% chitosan in wastewater increased with high COD (980 mg/L) and decreased with low COD (63 mg/L), respectively. Ultrastructural analysis showed that the stroma and grana of chloroplast basically remained normal. However, plant cells from the control experiment (untreated with chitosan) were vacuolated and the cell interval increased. The relict of protoplast moved to the center, with cells tending to disjoint. Our findings indicate that wastewater with high COD concentration can cause a substantial damage to submersed plant, nevertheless, chitosan probably could alleviate the membrane lipid peroxidization and ultrastructure phytotoxicities, and protect plant cells from stress of high COD concentration polluted water.     

Removal of cadmium using MnO2 loaded D301 resin

MnO2 loaded weak basic anion exchange resin D301 （Anion exchange resin, macroreticular weak basic styrene） as adsorbent has been prepared and applied to the removal of cadmium. The adsorption characteristics have been investigated with respect to effect of pH, equilibrium isotherms, removal kinetic data, and interference of the coexisting ions. The results indicated that the Cd^2＋ could be efficiently removed using MnO2 loaded D301 resin in the pH range of 3-8 from aqueous solutions with the co-existence of high concentration of alkali and alkaline-earth metals ions. The saturate adsorption capacity of the Cd^2＋ was 77.88 mg/g. The adsorption process followed the pseudo first-order kinetics. The equilibrium data obtained in this study accorded excellently with the Langmuir adsorption isotherm.     

Evaluation of phytoextracting cadmium and lead by sunflower, ricinus, alfalfa and mustard in hydroponic culture

Soil contaminated with heavy metals cadmium(Cd)and lead(Pb)is hard to be remediated.Phytoremediation may be a feasible method to remove toxic metals from soil,but there are few suitable plants which can hyperaccumulate metals.In this study,Cd and Pb accumulation by four plants including sunflower(Helianthus annuus L.),mustard(Brassica juncea L.),alfalfa(Medicago sativa L.), ricinus(Ricinus communis L.)in hydroponic cultures was compared.Results showed that these plants could phytocxtract heavy metals, the ability of accumulation differed with species,concentrations and categories of heavy metals.Values of BCF(bioconcentration factor)and TF(translocation factor)indicated that four species had dissimilar abilities of phytoextraction and transportation of heavy metals.Changes on the biomass of plants,pH and Eh at different treatments revealed that these four plants had distinct responses to Cd and Pb in cultures.Measurements should be taken to improve the phytoremediation of sites contaminated with heavy metals,such as pH and Eh regulations,and so forth.     

Effect of coagulation pretreatment on the fouling of ultrafiltration membrane

The purpose of this study is to understand the effect and mechanism of preventing membrane fouling, by coagulation pretreatment, in terms of fractional component and molecular weight of natural organic matter （NOM）. A relatively higher molecular weight （MW） of hydrophobic compounds was responsible for a rapid decline in the ultrafiltration flux. Coagulation could effectively remove the hydrophobic organics, resulting in the increase of flux. It was found that a lower MW of neutral hydrophilic compounds, which could remove inadequately by coagulation, was responsible for the slow declining flux. The fluxes in the filtration of coagulated water and supernatant water were compared and the results showed that a lower MW of neutral hydrophilic compounds remained in the supernatant water after coagulation could be rejected by a membrane, resulting in fouling. It was also found that the coagulated flocs could absorb neutral hydrophilic compounds effectively. Therefore, with the coagulated flocs formed on the membrane surface, the flux decline could be improved.     

Penetration analysis of elements and bioleaching treatment of spent refractory for recycling

Acidithiobacillus ferrooxidans ATCC23270 and Acidithiobacillus thiooxidans TM-32 were used for bioleaching of spent refractories of aluminium and copper melting furnaces for their recycling.Firstly,penetration of elements into aluminium melting furnace refractory was investigated and it was found that up to 7 cm from surface was contaminated.Comparison on leaching efficiency by the strains ATCC23270 and TM-32 found that the strain ATCC23270 could treat larger amount of the refractories than the strain TM-32 could do.In the experiment of bioleaching of spent refractory aluminium melting furnace by the strain ATCC23270,high leaching efficiency were obtained on Al,Si,and Ca,and extremely low leaching performance was,however,shown on the rest of elements i.e.,Na,Mn,and Zn.Under the strain TM-32 use,relatively high leaching performance was recognized on Al,Si,Ca,Na,Mn,and Zn.In the experiment of bioleaching for spent refractory copper melting furnace,almost the same leaching trends were shown on Cu,Zn,Al,and Si under the strains ACTT23270 and TM-32 uses.