不同好氧颗粒污泥中微生物群落结构特点

为了探讨活性污泥好氧颗粒化过程对微生物种群的影响、不同底物及不同颗粒化方法培养的好氧颗粒污泥中微生物群落结构的差异,以接种污泥、模拟废水好氧颗粒污泥和分别投加粉末活性炭和硅藻土的实际生活污水好氧颗粒污泥为研究对象,利用PCR-DGGE对比分析了接种污泥和好氧颗粒污泥中的微生物群落结构.结果表明:活性污泥好氧颗粒化过程会减少微生物种群多样性,影响颗粒污泥稳定性的细菌被淘汰,而聚磷菌、反硝化菌、难降解有机物降解菌等污水处理功能微生物都在颗粒化过程中得到保留.活性污泥好氧颗粒化过程中能够实现亚硝化细菌(AOB)一定程度的富集.与接种活性污泥相比,好氧颗粒污泥中AOB的多样性指数与均匀性指数均有提高.好氧颗粒污泥中的优势菌群主要分布于变形菌门(Proteobacteria)、拟杆菌门(Bacteroidetes)和未培养菌(uncultured bacterium).其中AOB均属于β-Proteobacteria的亚硝化单胞菌属(Nitrosomonas).     

基于"2阶段"理论的膜-生物反应器膜清洗试验研究

通过浸没式膜-生物反应器小试试验,分析了不同工况下膜污染的发展特点,并据此对不同清洗药剂的清洗效果,及化学药剂的引入对微生物活性的影响进行了考察.通过多阶段试验发现,膜污染总体上呈现"2阶段"趋势,而在线反洗可有效延缓膜污染进入第二阶段,降低由于膜污染带来的能耗损失.通过各阶段膜污染趋势曲线的拟合,确定了最佳的在线清洗周期.活性污泥氧消耗速率的变化可作为微生物耐受化学药剂程度的指标之一,试验发现,当在线加入ω(NaClO)为250×10-6时,微生物活性虽略有变化,但不影响系统的正常运行.     

膜生物反应器降解对氨基苯磺酸的性能及微生物群落特征

为研究MBR(膜生物反应器)降解SA(对氨基苯磺酸)的性能,构建一套连续流MBR,针对ρ(SA)为25 mg/L的模拟废水进行处理,并通过高通量测序对MBR运行过程中微生物群落特征变化进行生物学层面的分析.结果表明:经过31 d的启动驯化后,SA基本可以完全降解,COD_Cr、NH₄+-N、TN和TP的去除率分别为87.63%±5.95%、91.94%±8.80%、32.38%±11.6%和85.69%±13.82%.对驯化及稳定运行阶段的污泥进行微生物菌群分析结果表明,在“门”水平上主要的微生物菌群为拟杆菌门、变形菌门和绿弯菌门,其中拟杆菌门是处理含SA废水的优势菌群.在“科”水平上,噬几丁质菌科、腐螺旋菌科、红环菌科、丛毛单胞菌科和拜叶林克氏菌科为主要的微生物菌群,随着反应器的长期驯化和运行,噬几丁质菌科逐渐成为反应器中优势菌群.研究显示,MBR对SA、COD_Cr、NH₄+-N和TP都有很好的去除效果,拟杆菌门和噬几丁质菌科分别为处理SA的优势“门”和“科”.      

淀粉废水处理系统中活性污泥的微生物群落结构及多样性分析

为探究淀粉废水处理活性污泥中微生物的群落结构及多样性,基于Illumina MiSeq高通量测序方法,分析了不同运行阶段的A/O处理系统中活性污泥的微生物群落与多样性组成.结果表明,A/O系统中处理淀粉生产废水的活性污泥在同一种废水下微生物群落结构总体比较稳定,优势细菌主要为变形菌门(Proteobacteria)、拟杆菌门(Bacteroidetes)、绿弯菌门(Chloroflexi)、厚壁菌门(Firmicutes)和放线菌门(Actinobacteria)等;最重要优势细菌类群为变形菌门(45. 66%～66. 30%),其中γ-亚纲细菌是其主要成员,占比36. 38%～66. 65%.优势拟杆菌门主要成员鞘脂杆菌纲在污泥沉降性能较好时其占比下降,但绿弯菌门主要成员厌氧绳菌纲在污泥沉降性能较好时其占比明显增加,变化趋势正好相反,或许它们二者之间的耦合变化与污泥沉降性能变化密切相关.活性污泥样品中存在大量特殊功能菌群,它们在活性污泥的污染物分解和氮磷去除中发挥重要作用.     

16S rDNA克隆文库方法分析好氧颗粒污泥细菌组成

采用构建16S rDNA克隆文库方法对好氧颗粒污泥的细菌种群多样性进行研究. 随机测定了82个克隆子序列(700 bp),Blast比对结果表明,好氧颗粒污泥中微生物群落具有高度多样性,可分为7个主要类群,其中,β变形菌(β-Proteobacteria)类群和鞘脂杆菌(Sphingobacteria)类群在文库中所占比例最大,分别为34.16%和30.50%;其次是Candidate division TM7类群、黄杆菌(Flavobacteria)类群和γ变形菌(γ-Proteobacteria)类群,分别为9.76%,7.32%和7.32%;放线菌(Actinobacteria)类群和α变形菌(α-Proteobacteria)类群所占比例相对较小,分别为4.88%和1.22%. 序列分析结果表明,好氧颗粒污泥中不仅含有对好氧颗粒污泥形成和稳定运行具有重要作用的食酸菌属(Acidovorax)细菌、假单胞菌(Pseudomonas)等细菌,还含有对CODCr和氨氮具有很好去除能力的Micropruina glycogenica,丛毛单胞菌科(Comamonadaceae)等细菌.      

NaClO在线清洗对CE-HLMBR运行影响研究

在已构建的化学强化高负荷膜生物反应器(CE-HLMBR)中执行NaClO在线清洗策略,考察其对过滤阻力、系统产水水质及污泥性质等几方面的影响.结果表明,NaClO在线清洗可以破坏化学滤饼层,有效恢复过滤阻力,在不同的阻力增长阶段,清洗后的过滤阻力可恢复至相近水平(低于5×10¹²m^-1);在产水水质方面,NaClO清洗后溶解性有机物(DOM)的释放及透过性的增加会造成产水化学需氧量(COD)的升高(由6.3mg/L上升至28.16mg/L),但几乎不影响系统对总磷(TP)和氨氮的去除效果;清洗12h后,污泥粒度分布和硝化活性与清洗前基本一致,但EPS的分泌明显增加,这会引起膜可逆污染结构变化     

蚯蚓对城市污泥蚯蚓堆肥过程中微生物特征变化的影响

为揭示蚯蚓对城市污泥中微生物特征的影响和作用,本研究采用赤子爱胜蚓处理城市污泥,以无蚯蚓处理为对照,探讨蚯蚓对污泥堆肥中微生物数量、活性和种群变化的影响.结果显示:蚯蚓在前期能够显著提升脱氢酶的活性和细菌16S r DNA的丰度;从而加速有机物的降解,促进后期堆肥产物的腐殖质化.高通量测序结果表明:从60 d开始,蚯蚓组和对照组的细菌种群结构出现明显差异,蚯蚓处理能够显著增加最终产物的细菌种群的Chao1和Shannon指数.最终产物中,对照组的优势菌群为变形菌门(56%)、拟杆菌门(16.3%)和厚壁菌门(15.4%);蚯蚓组的优势种群有变形菌门(31.3%)、拟杆菌门(27.1%)、放线菌门(21.1%).与对照组相比,蚯蚓粪中放线菌和根瘤菌的丰度分别提高了13.1%和2.5%,表明蚯蚓的作用提升了堆肥产物作为微生物肥料的潜力.     

金属膜生物反应器处理生活污水膜污染的影响因素

采用浸没式平板金属膜生物反应器处理模拟生活污水,考察好氧与缺氧/好氧(anoxic/oxic, A/O) 2种运行模式下ρ(MLSS)和污泥粒径分布对膜过滤性能的影响及膜过滤阻力的组成. 结果表明,对于好氧膜生物反应器,存在一个能获得良好膜过滤性能的ρ(MLSS)范围; 好氧模式下膜过滤阻力主要为滤饼层阻力,且滤饼层能通过在线药洗或机械清洗较好地去除,系统在膜通量为0.80～1.00 　m3/(m2·d)下未进行离线药洗连续运行115 d. A/O模式下膜过滤阻力主要为内部阻力; A/O循环导致污泥破碎解体,产生大量微小粒子,在膜孔内形成吸附和堵塞,使膜过滤性能急剧下降,为维持系统运行,A/O阶段将膜通量从1.00 　m3/(m2·d)降至0.50 　m3/(m2·d),并进行了15次膜清洗.      

株洲清水塘工业区周边土壤微生物群落特征

基于Illumina高通量测序技术分析了株洲清水塘工业区周边土壤的微生物群落特征,研究重金属污染对土壤微生物群落的影响.结果表明,土壤微生物群落的相对丰度和多样性变化趋势一致,均随着重金属污染程度增加而减小;稻田土壤平均相对丰度最高的门是变形菌门(49. 56%),其次为绿弯菌门(13. 07%)和酸杆菌门(8. 77%);较高重金属污染程度下伴随着更高丰度的变形菌门、绿弯菌门与更低丰度的硝化螺旋菌门、酸杆菌门; 4组样品的微生物群落结构相似性较高,OTU重叠度达52. 64%,丰度较高的OTU其微生物群落更趋向于相似;结合Spearman相关性分析,Cr与变形菌门显著负相关,与绿弯菌门显著正相关,Cd、Cu、Pb和Zn与硝化螺旋菌门显著负相关.以上结果表明,重金属污染是影响清水塘工业区周边土壤微生物群落结构的重要因素.     

养猪微生物发酵床垫料细菌多样性分析

为揭示养猪微生物发酵床垫料细菌群落的多样性,明确发酵程度对垫料细菌群落结构的影响.本研究基于高通量测序技术分析了微生物发酵床3个发酵等级垫料的细菌群落特征.测序共获得1198467条序列,包括33个门、73纲、272科,600属的细菌,发酵床垫料细菌多样性与发酵等级相关.其中中度发酵垫料细菌数量最多,深度发酵垫料细菌种类最多.拟杆菌门、变形菌门、放线菌门和厚壁菌门是优势菌类群.随着发酵等级的增加,垫料中的葡萄球菌科和皮杆菌科细菌含量减少,说明发酵床可以抑制致病菌,保护养殖健康.在3个发酵阶段,微生物发酵床中起主要降解作用的细菌不同.在轻度发酵时期,黄单胞杆菌科和间孢囊菌科细菌是主要的降解菌群;在中度发酵时期,变形菌门的腐螺旋菌科、拟杆菌门的黄杆菌科、放线菌门的棒状杆菌科和异常球菌-栖热菌门的特吕珀菌科起主要降解作用;在深度发酵时期,厚壁菌门梭菌目瘤胃菌科、拟杆菌门的紫单胞杆菌科、变形菌门的产碱菌科和假单胞菌科起降解作用.随着垫料等级的增加,粪便中的指示菌——瘤胃菌含量增加,可作为垫料更换的信号.PICRUSt分析显示随着发酵等级增加,细菌代谢水平下降.本研究可为发酵床猪粪的生物降解提供理论依据,同时为发酵床垫料的管理与维护提供参考.     

膜-生物反应器中活性污泥沉降性能与膜污染相关性研究

结合连续流小试，对膜．生物反应器运行过程中，活性污泥沉降性能的变化及其对膜污染的影响进行了研究．结果表明，随着运行时间的增长，该系统内丝状菌大量繁殖，活性污泥沉降性能变差，SVI值升高．随之，膜过滤压差(过滤阻力)平均上升速率有所增加，膜过滤周期缩短．膜过滤压差的“两阶段性(平缓上升期和加速上升期)”变化规律趋于明显，平缓上升期和加速上升期的膜过滤压差上升速率随污泥SVI值的升高分别呈现下降和上升的趋势．污泥沉降性能的变化对膜污染过程产生明显影响．电镜观察表明，污泥沉降性能对膜过滤压差的影响与膜面污染层的结构和厚度有关．     

Relationship between sludge settleability and membrane fouling in a membrane bioreactor

The evolution of activated sludge settleability and its relationship to membrane fouling in a submerged membrane bioreactor were studied at a lab-scale equipment fed with synthetic wastewater. It was found that sludge volume index (SVI) gradually increased and the sludge settleability was reduced, which was caused by the propagation of filamentous bacteria. With increasing SVI, the average increasing rate of trans-membrane pressure increased, the stable filtration period was shortened, and the two stages (smooth stage and accelerating stage) of the trans-membrane pressure were more obvious. At the same time, the increasing rate of trans-membrane pressure at the smooth stage decreased and the rate at the accelerating stage increased with SVI, respectively. The observation by using scanning electronic microscopes showed the cake layer with loose structure and large thickness formed on the membrane surface due to the appearance of filamentous bacteria and high SVI in sludge. Influence of the sludge settleability on the trans-membrane pressure was related to the structure and thickness of the cake layer on the membrane. Translated from ACTA Scientiae Circumstantiae, 2005, 25(3): 396–400 [译自: 环境科学学报]     

混凝对膜污染的防止作用

研究了混凝改善膜通量和防止膜污染的效果 .结果表明 :直接过滤原水的情况下 ,反冲洗后的膜通量恢复仅为初始通量的40% ;而投加了混凝剂 4mg/L和10mg/L(以Al计 )后 ,反冲洗后的通量得到了完全的恢复 .混凝防止膜污染取决于过滤过程在膜表面形成的滤饼层的性能 .在过滤混凝液的情况下 ,混凝能在膜表面形成滤饼层 ,从而有效地防止膜污染 ,而过滤上清液的情况下 ,无法为混凝去除的中性亲水性的有机物沉积在膜表面 ,造成膜污染 .     

Comparison of membrane fouling during short-term filtration of aerobic granular sludge and activated sludge

Aerobic granular sludge was cultivated adopting internal-circulate sequencing batch airlift reactor.The contradistinctive experiment about short-term membrane fouling between aerobic granular sludge system and activated sludge system were investigated.The membrane foulants was also characterized by Fourier transform infrared(FTIR)spectroscopy technique.The results showed that the aerobic granular sludge had excellent denitrification ability;the removal efficiency of TN could reach 90%.The aerobic granular sludge could alleviate membrane fouling effectively.The steady membrane flux of aerobic granular sludge was twice as much as that of activated sludge system.In addition,it was found that the aerobic granular sludge could result in severe membrane pore-blocking, however,the activated sludge could cause severe cake fouling.The major components of the foulants were identified as comprising of proteins and polysaccharide materials.     

Mechanism of calcium mitigating membrane fouling in submerged membrane bioreactors

Two parallel membrane bioreactors (MBRs) were operated under different calcium dosages (168.5, 27 mg/L) to gain a better understanding of the mechanism of retarding membrane fouling by adding calcium. The results showed that the particle size of sludge flocs increased and the particle size distribution tended to be narrow at the optimum dosage (168.5 mg/L). Calcium was effective in decreasing loosely bound extracellular polymeric substances (LB-EPS) in microbial flocs and soluble microbial products (SMP) in the supernatant at the dosage of 168.5 mg/L by strengthening the neutralization and bridging of EPS with flocs. Furthermore, the amount of COD_S and COD_C decreased in both the mixed liquor and the fouling cake layer on the membrane surface. In order to compare the filtration characteristics of cake layers from the MBRs with the two calcium dosages, the specific cake resistance and the compressibility coefficient were measured. The specific cake resistance from the MBR with optimum dosage (168.5 mg/L) was distinctly lower than that with low dosage (27 mg/L). The compressibility coefficient of the cake layers under two dosages were respectively attained as 0.65, 0.91. Scanning electron microscopy (SEM) and three-dimensional confocal scanning laser microscope analysis (CLSM) images were utilized to observe the gel layer directly.     

分置式厌氧陶瓷膜生物反应器处理模拟生活污水试验研究

为强化厌氧系统的处理效能,延缓厌氧膜生物反应器膜污染速率,采用分置式厌氧陶瓷膜生物反应器处理模拟生活污水.结果表明:厌氧反应器UASB经过60 d的启动,可实现对模拟生活污水的良好处理,COD去除率超过90%;耦合膜组件运行后,膜出水COD在22.58 mg·L~(-1)左右,COD总去除率平均为95.53%,甲烷日均产量为352 mL·d~(-1),产率最高达到0.11 m~3·kg~(-1);跨膜压差(TMP)达到26.81 kPa时膜污染严重,周期为14 d,反冲洗能够去除膜表面的泥饼层,有效地延长膜污染周期;对混合液及滤饼层中的多糖和蛋白质浓度进行了分析,结果表明,蛋白质是引起膜污染的主要物质.     

预处理对短流程超滤工艺不可逆膜污染影响的中试试验

以东江水为处理对象,进行直接超滤、微絮凝-超滤和絮凝/活性炭-超滤中试研究,探讨预处理对短流程超滤工艺不可逆膜污染的影响.利用扫描电镜形貌观察、三维荧光光谱(EEM)和高效排阻色谱法等手段对不可逆膜污染物进行表征分析,比较预处理对不可逆膜污染物含量和组分的影响,阐述预处理对不可逆膜污染影响的机制.结果表明,在10 L·(m~2·h)~(-1)低通量运行下,微絮凝预处理使不可逆膜污染增长速率从直接超滤的0.32 k Pa·d~(-1)下降到0.16 k Pa·d~(-1),絮凝/活性炭预处理后超滤工艺几乎零污染运行,且当絮凝/活性炭-超滤运行通量增加至17 L·(m~2·h)~(-1)时,仍没有观察到明显的不可逆膜污染增长.东江水中不可逆膜污染的主要组分是蛋白质类和富里酸等腐殖质类物质.微絮凝通过改变膜表面滤饼层的结构(厚度和密实性),提高物理清洗效率,减轻不可逆膜污染的积累;絮凝/活性炭预处理提高对不可逆膜污染物的去除效果,减轻膜污染负荷,控制不可逆膜污染.因此,采用絮凝和絮凝/活性炭预处理工艺,均可有效降低短流程超滤工艺不可逆膜污染积累.     

Effect of components in activated sludge liquor on membrane fouling in a submerged membrane bioreactor

Introduction The membrane bioreactors (MBRs) have shown many advantages over conventional activated sludge processes, which apply membrane modules instead of the secondary settle tank to make a better separation of the solids and liquid and have been grea…     

膜生物反应器中膜过滤特征及膜污染机理的研究

以膜生物反应器处理市政污水,通过对活性污泥进行终端过滤来反映膜污染机理,实验表明,最初很短时间内膜污染受膜孔堵塞模型控制,之后受沉积层阻力模型控制,后一阶段是膜污染的主要控制阶段;膜的相对通量随过滤时间呈指数衰减趋势,压力越大,通量衰减越快;污泥沉积层存在压密过程,这一过程中的污泥比阻随压力增大而增大,并得到处理市政污水的污泥压密指数为0.807 8;阻力分布实验表明沉积层阻力占总阻力的90%以上,是膜过滤污染阻力的主要组成部分;活性污泥各组分对膜污染均有贡献,其中悬浮固体、胶体颗粒和溶质产生的阻力分别占87.98%、6.20%和5.82%;根据实验和计算结果,探讨了MBR处理市政污水过程中可能的膜污染机理.     

Effect of sludge retention time on sludge characteristics and membrane fouling of membrane bioreactor

Three identical membrane bioreactors (MBRs) were operated over 2 years at different sludge retention time (SRT) of 10 d, 40 d and no sludge withdrawal (NS), to elucidate and quantify the effect of SRT on the sludge characteristics and membrane fouling. The hydraulic retention times of these MBRs were controlled at 12 h. With increasing SRT, the sludge concentrations in the MBRs increased, whereas the ratio of volatile suspended solid to the total solid decreased, and the size of sludge granule diminished in the meantime. A higher sludge concentration at long SRT could maintain a better organic removal efficiency, and a longer SRT was propitious to the growth of nitrifiers. The performance of these MBRs for the removal of COD and NH₄⁺-N did not change much with different SRTs. However, the bioactivity decreased as SRT increase. The measurement of specific oxygen uptake rates (SOUR) and fluorescence in situ hybridization (FISH) with rRNA-targeted oligonucleotide probes testified that SOUR and the proportion of the bacteria-specific probe EUB338 in all DAPI-stainable bacteria decreased with increasing SRT. The concentrations of total organic carbon, protein, polysaccharides and soluble extracellular polymeric substance (EPS) in the mixed liquor supernatant also decreased with increasing SRT. The membrane fouling rate was higher at shorter SRT, and the highest fouling rate appeared at a SRT of 10 d. Both the sludge cake layer and gel layer had contribution to the fouling resistance, but the relative contribution of the gel layer decreased as SRT increase.