内循环厌氧反应器的启动及影响因素

采用内循环(IC)厌氧反应器,以生产淀粉和酒精的混合废水为处理对象,研究了中温条件下IC反应器的启动及影响因素。结果表明:接种厌氧消化污泥进行培养,逐渐提高进水有机负荷,运行105 d后,可实现IC反应器的启动;当进水COD浓度为11 500 mg/L,有机容积负荷为6.13 kg COD/(m3·d),COD去除率能到达95%左右;水力停留时间对启动过程没有影响,而温度和温度波动影响COD去除率;VFA比pH更能准确快速地反眏出反应器内部环境的变化,防止反应器的酸化;反应器内污泥实现颗粒化,并且具有良好的沉降性。     

好氧颗粒污泥强化解体实验与机理研究

在120r／min的搅拌及pH=1的强酸条件下,进行好氧颗粒污泥的强化解体实验,研究颗粒污泥的总数、平均粒径和粒径分布的变化情况。在15h实验时间内,搅拌强化解体的颗粒平均粒径从1230μm降至320μm,颗粒总数从30个／mL增至193个／mL。强酸强化解体结果类似,但解体时间为110h。搅拌比强酸对颗粒解体的强化作用更明显。粒径分布结果显示,小颗粒所占比例明显增加。颗粒解体过程中粒径分布均符合对数正态分布,但颗粒粒径的期望值石,随解体时间明显减小。根据颗粒的解体机理,即4种解体类型：破碎、破裂、剥落和研磨,结合实验结果,将解体过程分为对数期、平缓期、二次对数期和稳定期。     

Quantification of the inhibitory effect of methyl fluoride on methanogenesis in mesophilic anaerobic granular systems

The inhibitory effect of CH₃F on methanogenesis in mesophilic anaerobic granules was tested at different concentrations (0-10% v/v, in the gas phase) and verified by the stable carbon isotopic signatures of CH₄ and CO₂. The results showed that the inhibitory effect increased with the initial CH₃F concentration up to 5%. The CH₃F concentration causing 50% metabolic inhibition was 0.32%. Complete inhibition of acetoclastic methanogenesis with a 91% reduction in total methanogenic activity was achieved when 5% CH₃F was initially added to the headspace, which resulted in 870 μM dissolved CH₃F in the liquid. It was much higher than that applied in other natural anoxic non-granular systems, indicating that the layered granular structure influenced the inhibitory effect. The obvious increase in hydrogen content indicated that high concentrations of CH₃F (?5%) suppressed hydrogenotrophic methanogenesis as well. The stable inhibition lasted for at least 6 d as the CH₃F concentration decreased slowly with incubation time. These results suggested that CH₃F could be used for investigating methanogenic processes in anaerobic granular systems after the CH₃F concentration and incubation time for specific inhibition of acetoclastic methanogenesis were carefully determined. In the present system, CH₃F concentration of 5% was suggested to be optimal.     

IC厌氧反应器处理有机废水启动实验研究

设计了一套IC反应器装置,接种啤酒厂生产废水消化污泥,采用人工配水对其进行启动运行,考察了IC反应器的启动运行状况、效果及影响因素,并在反应器运行结束后观察了污泥状态的变化.结果表明,容积负荷提高至4.7 kg/(m3·d),出水COD浓度稳定在250 mg/L左右,去除率维持在85%以上,反应器内出现污泥分层现象,颗...     

颗粒体材料在压缩位移控制加载条件下的力学行为及界面参数对它的影响

采用连续介质快速拉格朗日分析程序(FLAC),模拟了颗粒体材料在压缩位移控制加载条件下的力学行为及破坏过程.颗粒及它们之间的界面被离散为尺寸相同的单元.颗粒被视为各向同性的弹性材料,而界面被视为弹性-应变软化-理想塑性材料.界面完全破坏之后,其内聚力为零而内摩擦角不为零,因而适于模拟颗粒之间的摩擦行为.在双轴压缩条件下...     

Measuring biomass specific ammonium, nitrite and phosphate uptake rates in aerobic granular sludge

Aerobic granular sludge (AGS) technology offers the possibility to remove organic carbon, nitrogen and phosphorus in a single reactor system. The granular structure is stratified in such a way that both aerobic and anaerobic/anoxic layers are present. Since most of the biological processes in AGS systems occur simultaneously, the measurement and estimation of the capacity of specific conversions is complicated compared to suspended biomass. The determination of the activities of different functional groups in aerobic granular sludge allows for identification of the potential metabolic capacity of the sludge and aids to analyze bioreactor performance. It allows for comparison of different sludges and enables improved understanding of the interaction and competition between different metabolic groups of microorganisms. The most appropriate experimental conditions and methods to determine specific ammonium, nitrite and phosphate uptake rates under normal operation of AGS reactors were evaluated and described in this study. Extra biomass characterization experiments determining the maximum uptake rate of these compounds on optimized conditions were performed as well to see how much spare capacity was available. The methodologies proposed may serve as an experimental frame of reference for investigating the metabolic capacities of microbial functional groups in biofilm processes.     

曝气量和曝气时长对好氧颗粒污泥活性恢复的影响

采用啤酒废水,在SBR中对在4℃的冰箱中储存8周的好氧颗粒污泥进行活性恢复。设置曝气时长分别为150 min和270 min,曝气量分别为0.1 m3/h和0.2 m3/h,考察了曝气时长和曝气量对好氧颗粒污泥活性恢复的影响。实验结果表明,好氧颗粒污泥在4℃冰箱中储存8周后,其颜色、粒径无明显变化;设置较长曝气时间(270 min)、较大曝气量(0.2 m3/h)时,颗粒污泥平均沉降速率、MLSS和SVI恢复最快,且对COD处理效果也恢复较快。而短曝气时间(150 min)、小曝气量(0.1 m3/h)有利于好氧颗粒污泥对氨氮去除效果的恢复。     

好氧颗粒污泥的培养及处理味精废水

以厌氧颗粒污泥为接种污泥,在模拟废水条件下利用SBR 35 d成功培养出了具有同步硝化反硝化作用的好氧颗粒污泥,反应器对COD和NH4+-N去除率分别高于95%和99%。将该反应器用于处理味精废水,当COD、NH4+-N的容积负荷分别为2.4 kg/(m3.d)、0.24 kg/(m3.d)时,COD、NH4+-N和TN去除率分别高于90%、99%和85%。处理味精废水后的颗粒污泥粒径由之前的0.8～2.5 mm减小至0.6～1.8 mm,颗粒结构较之前更加密实。     

Ca2+对上流式多级厌氧反应器处理蔗渣渗滤液的影响

研究了上流式多级厌氧反应器(UMAR)处理蔗渣渗滤液过程中Ca2+浓度对反应器运行特性和颗粒污泥性质的影响。结果表明,对于蔗渣渗滤液而言,进水中低浓度的Ca2+浓度(80～300 mg/L)对颗粒污泥产甲烷活性无抑制,COD去除率最高可达93.3%;Ca2+浓度达到500 mg/L以上时,对厌氧颗粒污泥的活性有抑制作用;随着Ca2+浓度进一步升高,抑制作用加强,污泥灰分明显升高,活性成分下降,COD去除效率明显降低,污泥粘结沉积在反应器底部,导致系统内循环出现障碍。因此,在实际生产中应减少废水中Ca2+的引入量。     

EGSB反应器运行中的床层流态行为及其控制

生物量流失是EGSB反应器在高负荷状态下稳定运行面临的主要问题。利用实验室EGSB反应器在中温条件下处理高浓度葡萄糖废水,研究EGSB反应器在高负荷状态下的床层流态行为及其受影响因素。结果表明,在该反应器结构形式下,当有机负荷达到23-26 kg COD/（m3·d）,水力上升流速在约3.0 m/h,气体上升流速在约1.3 m/h状态下运行时,床层易发生剧烈流化现象,并导致颗粒污泥的解体和流失。降低反应器回流比、减小反应器内水力上升流速,控制床层在悬浮状态时可以有效降低高负荷状态下生物量的流失,并取得了有机负荷46 kg COD/（m3·d）,COD去除率97%以上的处理效果。