Microbiological Characteristics of Anaerobic Granular Sludge in Hybrid Anaerobic Baffled Reactor

Anaerobic granular sludge is of key importance for highly effective operation of hybrid anaerobic baffled reactor(HABR).An observation and analysis on the composition of anaerobic granular sludge in each separation compartment of HABR was conducted by using scanning electron microscope(SEM)and molecular biotechnology,and specific methanogenic activity(SMA)and coenzyme F420 content were determined.It was indicated that the disparity of microbial composition was significant among these separation compartments of HABR,and the HABR encouraged phase separation.The results show the understanding of microbiological characteristics of anaerobic granular sludge in HABR is helpful for cultivating granular sludge,which ensures the effective operation of the reactor.

Performance and Modeling of an Up-flow Anaerobic Sludge Blanket(UASB) Reactor for Treating High Salinity Wastewater from Heavy Oil Production

In this study,an up-flow anaerobic sludge blanket(UASB) reactor was applied to treat the high salinity wastewater from heavy oil production process.At a HRT of ≥24 h,the COD removal reached as high as 65.08% at an influent COD ranging from 350mg/L to 640mg/L.An average of 74.33% oil reduction was also achieved in the UASB reactor at an initial oil concentration between 112mg/L and 205mg/L.These results indicated that this heavy oil production related wastewater could be degraded efficiently in the UASB reactor.Granular sludge was formed in this reactor.In addition,two models,built on the back propagation neural network(BPNN) theory and linear regression techniques were developed for the simulation of the UASB system performance in the oily wastewater biodegradation.The average error of COD and oil removal was-0.65% and 0.84%,respectively.The results indicated that the models built on the BPNN theory were wellfitted to the detected data,and were able to simulate and predict the removal of COD and oil by the UASB reactor.

Effect of inorganic carbon on anaerobic ammonium oxidation enriched in sequencing batch reactor

The present lab-scale research reveals the enrichment of anaerobic ammonium oxidation microorganism from methanogenic anaerobic granular sludge and the effect of inorganic carbon(sodium bicarbonate)on anaerobic ammonium oxidation.The enrichment of anammox bacteria was carried out in a 7.0-L sequencing batch reactor(SBR)and the effect of bicarbonate on anammox was conducted in a 3.0-L SBR.Research results,especially the biomass,showed first signs of anammox activity after 54 d cultivation with synthetic wast...

Acid resistance of methanogenic bacteria in a two-stage anaerobic process treating high concentration methanol wastewater

In this study,the two-stage upflow anaerobic sludge blanket(UASB)system and batch experiments were employed to evaluate the performance of anaerobic digestion for the treatment of high concentration methanol wastewater.The acid resistance of granular sludge and methanogenic bacteria and their metabolizing activity were investigated.The results show that the pH of the first UASB changed from 4.9 to 5.8 and 5.5 to 6.2 for the second reactor.Apparently,these were not the advisable pH levels that common metha-nogenic bacteria could accept.The methanogenic bacteria of the system,viz.Methanosarcina barkeri,had some acid resis-tance and could still degrade methanol at pH 5.0.If the meth-anogenic bacteria were trained further,their acid resistance would be improved somewhat.Granular sludge of the system could protect the methanogenic bacteria within its body against the impact of the acidic environment and make them degrade methanol at pH 4.5.The performance of granular sludge was attributed to its structure,bacteria species,and the distribution of bacterium inside the granule.

新型连续流系统中Anammox颗粒粒径控制策略研究

以具有自主专利的新型大/小双室自回流连续流反应器为平台,探究基于粒径回流的Anammox颗粒污泥粒径调控策略及调控机制.粒径回流策略通过改变内循环的位置,将不同粒径的污泥引入高基质浓度和高机械剪切区域进行粒径调控.结果表明,粒径回流策略能够提高Anammox颗粒粒径,并将其控制在合适的范围内.这一策略还增强了系统的污泥浓度、颗粒沉降性能和脱氮性能.其中大颗粒回流策略综合提升效果最佳,维持颗粒粒径在0.5~1.6mm范围内,中值粒径为948μm,污泥体积指数(SVI)为35.6mL/g,总无机氮(TIN)去除率为88.59%.胞外聚合物(EPS)分析和分层实验表明,紧密结合EPS(TB-EPS)中的蛋白质(PN)在粒径调控中起着关键作用,高浓度的外层污泥PN主导了颗粒的沉降性能,而内层紧实污泥的TB-EPS中的PN则增强了颗粒的结构强度.高通量测序结果表明,粒径循环策略能够大幅提高系统内厌氧氨氧化菌(AnAOB)Candidatus Kuenenia的丰度,在大颗粒回流时达到60.24%的峰值,并且AnAOB主要分布在颗粒污泥内层.

Kinetics of municipal sewage degradation in EGSB and UASB reactors at 10 ℃

Kinetics of municipal sewage degradation in Expanded Granular Sludge Bed(EGSB)and Up-flow Anaerobic Sludge Blanket(UASB)reactors at 10℃ were investigated via continuous experimental equipments.The results indicated that the whole reaction process can be simulated by the first-order dynamic equation model.Dynamic parameters such as k,Vmax and Ks of UASB in hydrolysis acidification stage were 1.08 d-1,2.8 d-1 and 372 mg/L comparing to those of 1.18 d-1,3.5 d-1 and 112 mg/L in the methanogenesis stage respectively.The EGSB’s k,Vmax and Ks were 2.91 d-1,14.3 d-1 and 470 mg/L in the hydrolysis acidification stage comparing to those of 1.68 d-1,6.6 d-1 and 103 mg/L in the methanogenesis stage respectively.Comparison of k values of the two stages in UASB and EGSB indicates that hydrolysis acidification stage is the controlling step for the whole reaction process of UASB,while methanogenesis stage is the controlling step in EGSB.Compared with UASB,municipal sewage treatment by EGSB at 10 ℃ can reach the same effluent requirement with lower retention time due to its effluent recirculation.

ABR反应器的启动及颗粒污泥特征的研究

在20—30℃条件下,对ABR反应器进行了169d5个阶段的启动实验,进水COD容积负荷达到4·38kgCOD·m-3·d-1,出水COD,挥发性脂肪酸(VFA)和pH值达到要求;形成了大量的性能良好的颗粒污泥,其尺度介于2—3·8mm之间,沉降速度大于20m·h-1,MLVSS/MLSS值均大于65%;但各格室厌氧污泥的污泥指数(SVI)差异较大.显微分析表明,不同格室内呈现出种群配合良好的厌氧微生物分布,第一格室存在大量的优势发酵细菌,并有代谢乙酸的丝状甲烷细菌,然后颗粒污泥中的微生物逐渐向以产甲烷细菌优势菌群过渡,并存在许多浮游的原生和后生动物.另外,各格室中的颗粒污泥形状各异,表面凸凹不平,存在气孔,且颗粒污泥愈靠近核心,微生物数量愈少,细菌分泌物和无机质愈多.

EGSB-CAAS工艺处理茶多酚废水的工业化研究

应用“EGSB CAAS”工艺处理茶多酚废水的工业化研究表明 ,当进水COD为 36 96 0— 4 3182mg L、SS为 6 5 6 2— 10 90 4mg L时 ,经混凝气浮预处理后 ,采用“EGSB CAAS”工艺进行处理 ,系统COD和SS去除率达 99%以上 ,出水可达标排放 .

升流式厌氧污泥层反应器水力混合特性研究

对升流式厌氧污泥层反应器在常温下处理生活污水启动，培养颗粒污泥及运行的水力混合问题进行了系统研究，试验结果表明，当ＨＲＴ在４．２８－１１．７ｈ时，死区容积只占反应器总容积的２．１％－６．７％。反应器在实际运行中可忽略不良水力混合的影响，水力负荷（Ｌ）和沼气容积产量（Ｇ）共同影响水流流速在升流方向上的均匀性，它们与离散数Ｄ（无因次）之间存在着如下关系：Ｄ＝０．００３３Ｌ＋０．０４５Ｇ＋０．０７３．提出了用Ｄ定量地表示升流筛分强度，在本试验条件下，当Ｄ在０．０８８－０．０９５时，形成了颗粒污泥。

不同时期垃圾渗滤液两级UASB-A/O-SBR工艺深度脱氮

应用两级上流式厌氧污泥床(UASB)-缺氧/好氧(A/O)-序批式反应器(SBR)深度处理早期和晚期垃圾渗滤液.首先在一级UASB(UASB1)中实现反硝化,在二级UASB(UASB2)中通过产甲烷降解有机物,在A/O反应器的好氧区进行NH4+-N的硝化,最后在SBR中去除残余NH4+-N及通过反硝化去除NO2--N和NO3--N深度脱氮.试验结果表明:早期渗滤液ρ(COD),ρ(TN)和ρ(NH4+-N)分别为14.8,1.8和1.3mg/mL,最终出水ρ(TN),ρ(NH4+-N),ρ(NO2--N)和ρ(NO3--N)分别为28,4,3.4和1.9mg/L,获得了大于98%的TN和NH4+-N去除率.晚期渗滤液ρ(COD)为2.5mg/mL;ρ(TN),ρ(NH4+-N)分别为3.0和2.9mg/mL时,获得99%以上的TN和NH4+-N去除率.最终出水ρ(NH4+-N),ρ(NO2--N)和ρ(NO3--N)都小于10mg/L,最终出水ρ(TN)为26～32mg/L.

三种工业废水颗粒污泥的化学及微生物学组成

对ＵＡＳＢ反应器中处理酒精废醪、木材纤维板热压废水及石灰法造纸黑液颗粒污泥的化学及微生物组成进行了比较研究，结果表明：无机元素在颗粒污泥中的沉积与废水组成及运行条件密切相关；接种污泥中加入少量的颗粒污泥可作为新生颗粒污泥的生长核心；胞外多聚物有利于颗粒污泥的形成与稳定，其产量与颗粒污泥的生物量有关，其分布有一定的区域性；颗粒污泥的微生物组成与废水水质、运行温度及颗粒污泥所处的生理阶段等因素密切相关；丝状细菌，特别是索氏甲烷丝菌类似菌在颗粒污泥中起着重要作用；污泥颗粒化过程中各类生理菌群的增殖次序与其在厌氧消化过程中的功能次序一致。当发酵细菌、产氢产乙酸菌、同型产乙酸菌和产甲烷菌在每ｍＬ颗粒污泥中分别达到１０７－１０、１０５－７、１０６－８和１０５－６个时，可构成一个较稳定的厌氧微生态系统。

升流式厌氧污泥床处理含五氯酚废水工艺的研究

研究升流式厌氧污泥床反应器（ＵＡＳＢ）在中温条件下处理含五氯酚（ＰＣＰ）模拟废水时工艺特点及ＰＣＰ降解机理．结果表明：处理啤酒废水的厌氧颗粒污泥为接种物（ＶＳＳ接种量约１５ｇ／Ｌ），运行温度为３５±１℃，水力停留时间２０－２４ｈ，进水ＣＯＤ浓度为２５００－２８００ｍｌ／Ｌ；进水ＰＣＰ浓度由１．０ｍｇ／Ｌ上升至８．０ｍｇ／Ｌ条件下，１２０ｄ左右完成启动，ＰＣＰ和ＣＯＤ去除率分别为９４％及８６％以上．高效液相色谱仪检测结果分析表明：ＰＣＰ厌氧降解的途径是首先经间位脱氯生成四氯酚和２，４，６－三氯酚，再经邻位和对位脱氯生成２，４－二氯酚和邻氯苯酚，最后矿化为ＣＨ４和ＣＯ２．

改良UASB处理酒精废水启动试验研究

为增强抗冲击负荷能力和保证颗粒污泥与废水充分混合,在上流式厌氧污泥床(UASB)反应器内三相分离器前增设强制内回流装置,形成改良UASB反应器,利用污水处理站UASB厌氧污泥,处理酒精废水。结果表明,UASB整个启动期为61 d,启动的第40天出现颗粒污泥,UASB启动期间对COD、SS的平均去除率分别为70%、11%,出水pH在6.4～7.8,挥发性脂肪酸的质量浓度降到200 mg.L-1以下,有利于后续单元对废水的处理。

升流式厌氧污泥床处理含五氯酚废水的研究

研究了升流式厌氧污泥床反应器（ＵＡＳＢ）在中温条件下处理含五氯酚（ＰＣＰ）模拟废水时工艺特点及ＰＣＰ降解机理。结果表明：①在以处理啤酒废水的厌氧颗粒污泥为接种物（ＶＳＳ接种量约１５ｇ／Ｌ），运行温度为（３５±１）℃，水力停留时间为２０～２４ｈ，进水ＣＯＤ浓度为２５００～２８００ｍｇ／Ｌ；进水ＰＣＰ浓度由１０ｍｇ／Ｌ上升至８０ｍｇ／Ｌ条件下，１２０ｄ左右完成启动，ＰＣＰ和ＣＯＤ去除率分别为９４％及８６％以上。②高效液相色谱仪检测结果分析表明，ＰＣＰ厌氧降解的途径是首先经间位脱氯生成四氯酚和２，４，６－三氯酚，再经邻位和对位脱氯生成２，４－二氯酚和邻氯苯酚，最后矿化为ＣＨ４和ＣＯ２。

UASB工艺处理高浓度制革废水的研究

采用UASB工艺处理高浓度制革废水,研究了试验性UASB反应器的启动过程和制革废水中有机物的厌氧降解过程,并用多媒体显微镜观察厌氧颗粒污泥的形态和气相色谱分析仪测定废水中有机酸的分布情况。研究结果表明,采用厌氧污泥作为接种污泥,在中温35～38℃的条件下,试验性UASB反应器能在50d内成功地启动;随着进水COD的提高,COD的去除率逐渐提高,并在5575mg/L左右时达到91.6%;之后随着进水COD的提高,COD的去除率逐渐降低,在进水COD为10000mg/L左右时,COD的去除率为85%;废水中的大分子有机物在UASB反应器底部被产酸微生物降解为小分子有机酸,其中最多的是乙酸,其次是丙酸、异丁酸和异戊酸,小分子的有机酸通过整个污泥床被产甲烷菌利用,主要生成甲烷气和二氧化碳。

UASB＋AF处理维生素C废水的研究

采用有效容积为６ｍ３的ＵＡＳＢ＋ＡＦ反应器处理维生素Ｃ高浓度有机废水，结果表明：稳定运行容积负荷可达１０—１２ｋｇＣＯＤ／（ｍ３·ｄ）ＣＯＤ去除率大于８０％，容积产气率大于３．０Ｎｍ３／（ｍ３·ｄ），并具有启动速度快和较强耐冲击负荷的能力。

升流式厌氧污泥床处理含五氯酚废水的工艺特性

研究了升流式厌氧污泥床反应器（ＵＡＳＢ）在中温条件下处理含五氯酚（ＰＣＰ）模拟废水时的工艺特点及ＰＣＰ降解机理。结果表明，在以处理啤酒废水的厌氧颗粒污泥为接种物（接种量约１５ｇＶＳＳ／Ｌ），运行温度为３５±１℃，水力停留时间２０～２４ｈ，进水ＣＯＤ浓度为２５００～２８００ｍｇ／Ｌ，进水ＰＣＰ浓度由１．０ｍｇ／Ｌ上升至８．０ｍｇ／Ｌ条件下，１２０ｄ左右完成启动，ＣＯＤ和ＰＣＰ去除率分别为８６％及９４％以上。高效液相色谱仪检测结果分析表明，ＰＣＰ厌氧降解的途径是首先经间位脱氯生成四氯酚和２，４，６三氯酚，再经邻位和对位脱氯生成２，４二氯酚和邻氯苯酚，最后矿化为ＣＨ４和ＣＯ２。

外循环UASB处理太湖富藻水运行特性研究

针对太湖富藻水高有机物浓度特点,研究外循环升流式厌氧污泥床(UASB)反应器处理太湖富藻水的效能和运行效果.研究表明,以城市污水处理厂活性污泥为种泥,自然腐熟5～7d左右的太湖富藻水为原水,进水COD为1 050～2 000mg/L,水力停留时间(HRT)为5d,(32±1)℃温度等条件下,可以在32d内成功启动外循环UASB反应器并达到初步稳定运行.通过降低HRT,分阶段提高COD质量浓度的方法,逐步将外循环UASB处理太湖富藻水的有机负荷提高到3kg COD/(m3.d),其COD去除率可以稳定在75%左右,产气率为0.75L/(L.d),外循环UASB对太湖富藻水具有良好的处理效果.通过电镜观测,发现稳定运行期形成颗粒污泥,且污泥内生物相丰富,分别为丝状菌、杆状菌和球状菌等多种微生物共营生长.

两相厌氧生物技术处理环氧树脂生产废水

研究采用两相厌氧生物技术处理环氧树脂生产废水。试验结果表明:经过AMBR和EGSB反应器处理后,COD去除率达到91%,SS去除率达到67%;进水在产酸器AMBR反应后,pH值由6.8降至5.86,VFA由1265 mg/L升至3862 mg/L,酸化效果较好;经产甲烷器EGSB反应后,pH值和VFA分别为7.61和206 mg/L,产甲烷效果良好;经过后续工艺SBR处理后,出水符合国家污水综合排放标准。