用活性填料催化氧化-硝酸吸收法脱除氮氧化物的研究

为了提高硝酸吸收氮氧化物的效率，对活性填料催化氧化-硝酸吸收NOx进行了研究。结果表明：活性填料能明显提高NOx的吸收效率；当NOx中NO2体积百分含量增加，其吸收效率增加；随进气浓度和液气比的增大，NOx吸收效率增加；随NO2浓度的增加，NO的吸收效率先增加后减少，在NO／NO2为3时，NO吸收效率最高；随NO的增加NO2的吸收效率先增加后减少，在NO／NO2为0．6～1之间，NO2的吸收效果较好。     

东深源水生物预处理工程挂膜启动过程水质净化效果变化的分析

东深源水生物预处理工程挂膜启动约需 2 5d ,比优化试验增加 10d左右 ,本文介绍了挂膜启动过程氨氮、CODMn去除效果和填料上生物膜变化的特点。由氨氮去除率 (≥ 5 0 .0 % )、生物膜形状、生物膜上动物种类和数量可判断挂膜启动过程是否完成 ,气温低是该工程挂膜启动过程时间较长的主要原因     

铁床在高色度有机废水处理中的应用

本文介绍了铁床应用于高色度有机废水处理的反应机理和典型工艺流程,分析了影响其处理效果的主要因素,指出了目前在铁床应用中存在的几个问题并初步探讨了相应的对策。     

用于废水处理的膜曝气生物反应器

膜曝气生物反应器是一种利用透气膜进行曝气的污水生物处理组合新工艺.膜曝气的主要特点在于无泡曝气和特殊结构的生物膜.无泡曝气可提高传氧效率,在高浓度废水或含挥发性有机物废水的处理中具有优势.曝气膜上生长的生物膜具有传质异向性,这一特点使其具有同步除碳脱氮的潜力.介绍了膜曝气生物反应器的工艺特点,总结了国内外对于膜曝气生物反应器在废水处理方面的研究进展,指出当前膜曝气生物反应器应用中存在的问题,并展望了今后的发展前景.     

序批式生物膜法同步除磷脱氮特性研究

对淹没序批式生物膜法去除有机物和磷及同步部分脱氮的特性进行了研究。其适合的载体装填密度为30％，水力停留时间为9h，其中厌氧3h，好氧6h，进水COD负荷从0．27kg/(m^3.d)到1．32kg/(m^3.d)均可使除磷率达90％以上，脱氮率达50％－60％。淹没式生物膜法除磷脱氮工艺中的优势菌属为假单胞菌属，其次依顺序为气单胞菌属，芽孢杆菌属，微球菌属，硝化矸菌属，生物膜具有生物量大（MLVSS达5531．7mg/L)，脱落污泥含磷量高（达5．67％），沉降性好（SVI为101．7）的特点，污泥产率为0．1996kg干泥／kgCOD。     

三种载体上生物膜硝化作用动力学初步研究

通过测定水中COD、：NH4^ —N、NO2^-—N及NO3^-—N的浓度变化，研究了淹没式废水处理装置中沸石、活性炭和沙粒3种载体上硝化作用生物膜的动力学过程和反硝化作用。结果表明，3种载体上生物膜降解有机物(以COD表示)的过程可用一级动力学方程描述，反应速率常数分别为：沙粒0．0848h^-1、活性炭0．1187h^-1、沸石0．1334h^-1。3种载体上生物膜去除氨态氮的过程则可用零级动力学方程描述，反应速率常数分别为：沙粒-0．7743h^-1、活性炭-0．9886h^-1、沸石-1．0714h^-1．附着于沙上的生物膜去除亚硝酸盐氮的过程也可用零级动力学方程描述，反应速率常数为-0．6057h^-1，水中硝酸盐氮浓度较高时，载体沸石和活性炭上可能附着生长反硝化菌。图5表2参15。     

Mechanism studies on nitrogen removal when treating ammonium-rich leachate by sequencing batch biofilm reactor

The nitrogen removal mechanism was studied and analyzed when treating the ammonium-rich landfill leachate by a set of sequencing batch biofilm reactors (SBBRs), which was designed independently. At the liquid temperature of (32 ± 0.4)°C, and after a 58-days domestication period and a 33-days stabilization period, the efficiency of ammonium removal in the SBBR went up to 95%. Highly frequent intermittent aeration suppressed the activity of nitratebacteria, and also eliminated the influence on the activity of anaerobic ammonium oxidation (ANAMMOX) bacteria and nitritebacteria. This influence was caused by the accumulation of nitrous acid and the undulation of pH. During the aeration stage, the concentration of dissolved oxygen was controlled at 1.2–1.4 mg/L. The nitritebacteria became dominant and nitrite accumulated gradually. During the anoxic stage, along with the concentration debasement of the dissolved oxygen, ANAMMOX bacteria became dominant; then, the nitrite that was accumulated in the aeration stage was wiped off with ammonium simultaneously. Translated from Acta Scientiae Circumstantiae, 2006, 26(1): 55–60 [译自: 环境科学学报]     

Factors affecting simultaneous nitrification and denitrification in an SBBR treating domestic wastewater

An aerobic sequencing batch biofilm reactor (SBBR) packed with Bauer rings was used to treat real domestic wastewater for simultaneous nitrification and denitrification. The SBBR is advantageous for creating an anoxic condition, and the biofilm can absorb and store carbon for good nitrification and denitrification. An average concentration of oxygen ranging from 0.8 to 4.0 mg/L was proved very efficient for nitrification and denitrification. Volumetric loads of TN dropped dramatically and effluent TN concentration increased quickly when the concentration of average dissolved oxygen was more than 4.0 mg/L. The efficiency of simultaneous nitrification and denitrification (SND) increased with increasing thickness of the biofilm. The influent concentration hardly affected the TN removal efficiency, but the effluent TN increased with increasing influent concentration. It is suggested that a subsequence for denitrification be added or influent amount be decreased to meet effluent quality requirements. At optimum operating parameters, the TN removal efficiency of 74%–82% could be achieved. Translated from Acta Scientiae Circumstantiae, 2006, 26(5): 728–733 [译自: 环境科学学报]     

厌氧生物膜法处理聚酯废水投加城市厌氧污泥的启动

将市政污水处理厂消化池中的厌氧污泥投入处理化工高浓度废水的厌氧反应器中进行厌氧菌的驯化工作 ,重点研究了在此过程中进、出水CODCr、pH、VFA(挥发性有机酸 )、污泥的变化情况及相互联系