曝气技术对黑臭水体治理效果影响的研究进展

城市水体黑臭已成为全球重要的水污染问题,对黑臭水体的治理已经刻不容缓.曝气技术在提高黑臭水体自净能力方面发挥着重要作用,为了深刻理解曝气技术对黑臭水体水质的提升效果及其对污染物去除效果的影响,综述了曝气对黑臭水体复氧效率以及对黑臭水体中污染物去除率的影响.结果表明:①不同曝气技术的复氧效率不同,纯氧曝气复氧效率最高,达70%.②单独曝气能有效地去除黑臭水体中的污染物,NH₄+-N、COD_Cr和BOD₅的去除率范围分别为3.2%~45.6%、19.5%~84.8%和56.4%~88.2%,同等条件下,曝气与其他技术结合使得污染物去除率显著增加,综合治理后水中污染物去除率在46.8%~98.7%之间,底泥曝气下污染物的去除率比水曝气下污染物的去除率高20%以上.③曝气深度、曝气时间和曝气强度都影响水中污染物的去除率,但对其影响程度不同,且都存在各自的边界条件;另外,曝气强度影响细菌的优势类群,曝气增加了氨氧化菌和反硝化菌的数量及组成.目前仍存在不同曝气技术的复氧效率、曝气边界条件优化、曝气对污染物迁移转化规律、曝气对微生物群落影响等方面研究不足的问题,建议未来我国曝气技术在以下几方面加强研究:①加强不同曝气技术复氧效率的研究;②加强曝气对污染物去除机理研究;③加强曝气边界条件的优化研究;④加强曝气对功能微生物的影响机理研究.      

Nitrate removal from aqueous solutions by magnetic cationic hydrogel: Effect of electrostatic adsorption and mechanism

Excessive nitrate(NO_3~-) is among the most problematic surface water and groundwater pollutants.In this study,a type of magnetic cationic hydrogel(MCH) is employed for NO_3~-adsorption and well characterized herein.Its adsorption capacity is considerably pHdependent and achieves the optimal adsorption(maximum NO_3~--adsorption capacity is95.88±1.24 mg/g) when the pH level is 5.2-8.8.The fitting result using the homogeneous surface diffusion model indicates that the surface/film diffusion controls the adsorption rate,and NO_3~-approaches the center of MCH particles within 30 min.The diffusion coefficient(D_s) and external mass transfer coefficient(k_F) in the liquid phase are1.15 × 10~(-6) cm~2/min and 4.5 × 10~(-6) cm/min,respectively.The MCH is employed to treat surface water that contains 10 mg/L of NO_3~-,and it is found that the optimal magnetic separation time is 1.6 min.The high-efficiency mass transfer and magnetic separation of MCH during the adsorption-regeneration process favors its application in surface water treatment.Furthermore,the study of the mechanism involved reveals that both-N~+(CH_3)_3 groups and NO_3~-are convoluted in adsorption via electrostatic interactions.It is further found that ion exchange between NO_3~-and chlorine occurs.     

The effect of dissolved oxygen concentration on long-term stability of partial nitrification process

Dissolved oxygen (DO) concentration is regarded as one of the crucial factors to influence partial nitrification process. However, achieving and keeping stable partial nitrification under different DO concentrations were widely reported. The mechanism of DO concentration influencing partial nitrification is still unclear. Therefore, in this study two same sequencing batch reactors (SBRs) cultivated same seeding sludge were built up with real-time control strategy. Different DO concentrations were controlled in SBRs to explore the effect of DO concentration on the long-term stability of partial nitrification process at room temperature. It was discovered that ammonium oxidation rate (AOR) was inhibited when DO concentration decreased from 2.5 to 0.5 mg/L. The abundance of Nitrospira increased from 10^11.5 to 10^13.7 copies/g DNA, and its relative percentage increased from 0.056% to 3.2% during 190 operational cycles, causing partial nitrification gradually turning into complete nitrification process. However, when DO was 2.5 mg/L the abundance of Nitrospira was stable and AOB was always kept at 10^10.7 copies/g DNA. High AOR was maintained, and stable partial nitrification process was kept. Ammonia oxidizing bacteria (AOB) activity was significantly higher than nitrite oxidizing bacteria (NOB) activity at DO of 2.5 mg/L, which was crucial to maintain excellent nitrite accumulation performance.     

响应面法优化CANON工艺处理猪场沼液脱氮性能研究

为了得到全程自养脱氮（completely autotrophic nitrogen removal over nitrite,CANON）工艺处理猪场沼液脱氮性能的最佳工艺条件,以处理实际猪场沼液的连续流CANON工艺为研究对象,采用BBD响应面法优化其关键运行参数,探究了HRT（水力停留时间）、温度和进水ρ（NH₄+-N）各因素的交互作用.结果表明:①HRT、温度和进水ρ（NH₄+-N）对反应器脱氮效率均有显著影响,且数学模型拟合度良好,各因素对TN、NH₄+-N去除率的影响程度由强到弱依次为进水ρ（NH₄+-N）> HRT >温度.②通过BBD响应面法获得最佳脱氮条件为HRT 1.35 d、温度34.4℃、进水ρ（NH₄+-N）415 mg/L.在接近响应面优化后的条件下进行验证试验,得到出水ρ（NH₄+-N）平均值为74.68 mg/L,NH₄+-N去除率为83.05%;出水ρ（TN）平均值为108.28 mg/L,TN去除率为73.91%,与模型预测值较接近.研究显示,BBD响应面法能在较少的试验次数下检验影响因素之间的交互作用,可科学地优化CANON工艺处理猪场沼液的脱氮性能.      

部分亚硝化-厌氧氨氧化处理磁混凝生活污水

以磁混凝预处理后的生活污水为处理对象,构建了部分亚硝化-厌氧氨氧化分体式反应器,通过曝气调控与生物强化促进部分亚硝化反应的稳定进行,并耦合厌氧氨氧化反应进行深度脱氮.近100d的运行结果表明,在生物强化和间歇曝气的控制条件下,亚硝酸盐积累率达到了89.93%;提高亚硝化反应器中曝气阶段溶解氧浓度（从0.6~0.8mg/L升高至1.0~1.2mg/L）有利于氨氮与总氮去除.该系统最高能够去除95.45%的氨氮和86.28%的总氮,实现了稳定、高效脱氮;磁混凝预处理后的生活污水在亚硝化反应器中,间歇曝气条件促进了残留的溶解性有机物为反硝化提供碳源,COD总去除率达到64.65%~74.42%,并且亚硝化反应器出水与系统最终出水的有机物组分相似,主要为难降解有机物.     

基于氨氮,硝氮及乙酸条件下Anammox菌的培养

为探讨Anammox菌在氨氮、硝氮及乙酸条件下的富集特性,采用某城市污水处理厂A²/O系统中的生物填料作为MBBR的载体直接启动并运行.结果表明,在NH₄⁺-N、NO₃^--N及乙酸为基质的培养条件下,Anammox菌可在部分反硝化和厌氧氨氧化协同作用下快速富集.经过130d的富集培养,MBBR处理负荷（以N计）达到920.79mg/（m²·d）,Anammox活性（以NH₄⁺-N计）达到3 018.19mg/（m²·d）.高通量结果显示,经富集培养后,Ca.Brocadia占比从0.89%增至27.80%,为Anammox菌的主导菌属;Thauera占比从0.01%增至6.75%,Flavobacterium占比从0.29%增至11.72%,为部分反硝化菌的主导菌属.     

Assessment of sunflower germplasm for phytoremediation of lead-polluted soil and production of seed oil and seed meal for human and animal consumption

Phytoremediation is a valuable technology for mitigating soil contamination in agricultural lands, but phytoremediation without economic revenue is unfeasible for land owners and farmers. The use of crops with high biomass and bioenergy for phytoremediation is a unique strategy to derive supplementary benefits along with remediation activities. Sunflower (Helianthus annuus L.) is a high-biomass crop that can be used for the phytoremediation of polluted lands with additional advantages (biomass and oil). In this study, 40 germplasms of sunflower were screened in field conditions for phytoremediation with the possibility for oil and meal production. The study was carried out to the physiological maturity stage. All studied germplasms mopped up substantial concentrations of Pb, with maximum amounts in shoot?>?root?>?seed respectively. The phytoextraction efficiency of the germplasm was assessed in terms of the Transfer factor (TF), Metal removal efficiency (MRE) and Metal extraction ratio (MER). Among all assessed criteria, GP.8585 was found to be most appropriate for restoring moderately Pb-contaminated soil accompanied with providing high biomass and high yield production. The Pb content in the oil of GP.8585 was below the Food safety standard of China, with 59.5% oleic acid and 32.1% linoleic acid. Moreover, amino acid analysis in meal illustrated significant differences among essential and non-essential amino acids. Glutamic acid was found in the highest percentage (22.4%), whereas cysteine in the lowest percentage (1.3%). Therefore, its efficient phytoextraction ability and good quality edible oil and meal production makes GP.8585 the most convenient sunflower germplasm for phytoremediation of moderately Pb-contaminated soil, with fringe benefits to farmers and landowners.     

污水生物处理工艺低温下微生物种群结构

构建有针对性的运行控制策略是我国城市污水生物处理工艺冬季低水温条件下高效稳定运行的重要保证.以我国北方低温期（8~15℃）稳定运行的4个典型污水生物处理工艺为对象,利用高通量测序方法系统解析了活性污泥中的微生物群落及碳、氮、磷去除等关键功能种群结构,阐明了重要功能种群在低温影响下的动态变化及与污染物去除性能间关系,为控制策略的有效建立提供了坚实的科学数据基础.尽管存在着不同工艺形式,但结果表明低温期活性污泥均具有较为良好的种群丰富度,其中放线菌门（Actinobacteria）在低温期优势地位提升;关键功能种群中硝化种属Nitrosomonas受温度影响较大,而作为核心种群的反硝化种属则因分布广泛及多样性高,整体丰度受温度变化影响较小,工艺的反硝化性能仅与回流比具有相关性;Tetrasphaera在4个工艺中广泛存在但仅在厌氧/好氧交替条件下承担主要除磷功能;低温下4个工艺中多种丝状菌优势生长并诱发污泥膨胀,但对出水水质影响较小.     

OLR对ABR沿程格室甲烷发酵特征的影响

为高效处理玉米淀粉生产废水,启动并持续运行了一个四格室厌氧折流板反应器（ABR）,通过分阶段提升进水COD的方法,探讨了有机负荷率（OLR）对ABR运行效能的影响,并采用间歇培养方式考察了OLR对沿程格室中不同营养类型产甲烷菌群活性的影响.结果表明,在OLR分阶段从2.7提高到8.0 kg·m^-3·d^-1的过程中,ABR前两个格室（C1和C2）始终呈现出典型的产酸发酵特征,其污泥的有机挥发酸（VFAs）比产率为0.54~0.76 kg·kg^-1·d^-1（以每天每千克MLVSS产出的1千克有机挥发酸计,下同）,而后两个格室（C3和C4）则表现出典型的产甲烷特征,其污泥的比产甲烷速率达98 L·kg^-1·d^-1（以每天每千克MLVSS产出的1升甲烷计,下同）以上.活性污泥产甲烷活性测试结果表明,当OLR为2.7~8.0 kg·m^-3·d^-1时,C3中的氢营养型产甲烷菌群保持了较高的产甲烷活性,其最大甲烷产量（P_max）和最大比产甲烷速率分别达到了20.4 mL和16.5 mL·g^-1·h^-1（以每小时每克MLVSS产出的1毫升甲烷计,下同）以上.乙酸营养型产甲烷菌群的累计甲烷产量由大到小依次为：C3 > C4 > C1 > C2.经过144 h的培养后,C3中乙酸营养型产甲烷菌群的累计甲烷产量为15.1~15.2 mL,最大比产甲烷速率为10.0~10.8 mL·g^-1·h^-1.     

宏组学方法及在污水生物处理系统研究中的应用

近年来随着测序、质谱等技术的高速发展,基于核酸分子信息为基础的包含宏基因组学、宏转录组学、宏蛋白组学与代谢组学等核心内容的生物分子宏组学方法逐渐成熟,成为揭示污水生物处理系统中的关键微生物菌群结构和功能特征的有力工具,也在检测污水系统中多种ARGs以及探究其传播机制上发挥出无法替代的巨大优势,在污水生物处理研究中应用宏组学,对于深化认知污水处理系统本质、提高污水处理效率以及控制ARGs在环境中的传播具有重要指导意义.本文对宏组学方法进行了简单的介绍,着重综述了其在污水生物脱氮、强化生物除磷及探究抗生素抗性基因等方面的进展,并展望了其在污水生物处理系统中的广泛应用前景.