活性炭颗粒填充三维电极电化学烟气脱硫的研究

基于三维电极电化学技术较高的反应效率和不产生废弃物等优点,将这一先进的反应器运用到烟气脱硫领域.用活性炭作为工作电极,在通电状况下,将模拟烟气通入反应器发生反应.通过一系列试验,分析了填充床厚度、槽电压、进气流量、通电时间对脱硫率的影响,并且探讨了该反应的反应原理.     

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。     

三维电极对水中染料降解脱色处理

研究了在传统二维电解槽的铁板电极之间填充锰砂并鼓气搅拌，得到三相三维电极流化床反应器，对比两种反应器对酸性大红3R染色模拟废水降解脱色作用，考察了槽电压、支持电解质质量浓度、反应时间等因素对两种反应器处理染料脱色率的影响。实验表明，这些因素对酸性大红3R的降解脱色均有不同程度的影响，在相同条件下，三相三维电极流化床反应器比二维电极电解槽的处理脱色速度快和处理效率高，在不同处理时间内，脱色率可提高30％～50％。紫外-可见光吸收光谱分析表明，该方法不仅能对酸性大红3R的生色基团进行降解脱色，且对萘环不饱和共轭体系也具有破坏降解作用。     

上流式厌氧污泥床滤层反应器处理鸡粪混合液离心出水

本研究采用上流式厌氧污泥床滤层反应器对蛋鸡场鸡粪混合液离心出水进行处理,试验结果:在中温25℃,进水COD_(cr)18000mg/L和氨氮1600mg/L的条件下,COD_(cr)去除率74.08%,BOD_5去除率83.78%,水力停留时间26.15h,容积负荷15.60kg·COD_(cr)/m~3·d,产气率0.52m~3/去除km·COD_(cr).反应器运行状况良好.     

UASB反应器在啤酒废水处理中的应用

对升流式厌氧污泥床反应器（UASB）辅以生物接触氧化工艺在处理啤酒废水中的应用，进行了系统设计参数选择、工程设计、运行效果分析，重点阐述了UASB反应器的启动、运行及运行调控指标选择。     

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]     

低耗高效城镇污水处理研发新进展——以厌氧生物处理为核心技术的城镇污水处理成套工艺中试研究

介绍以厌氧生物为核心技术的城镇污水处理成套工艺中试研究。HABR处理城镇污水 ,容积负荷控制在1～ 2kg m3·d,CODCr去除率可达 70 %～ 80 % ,出水CODCr和SS的浓度可达到污水综合排放标准的二级标准 ,经后续好氧处理后 ,出水CODCr和SS的浓度可达一级排放标准。试验结果表明 ,以厌氧生物为核心技术、好氧生物为后续处理的成套工艺 ,具有低耗高效、管理简便的特点 ,适合于我国城镇污水处理。试验获取的技术参数可作为工程设计的依据。     

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]     

用上流式厌氧污泥床处理味精废水的研究

采用了上流式厌氧污泥床处理高浓度味精废水 ,研究了UASB反应器的菌种培养驯化条件和连续运行工艺参数 ,并分析了不同操作条件下去除废水中COD的效果     

平片膜生物反应器中膜污染特性的实验研究

采用聚偏氟乙烯平片膜生物反应器 ,通过测定不同运行条件下的水通量研究其污染特性 ,重点考察了运行时间、操作压力、曝气状况对膜污染的影响。实际结果表明 ,在曝气量为 3m3 h、操作压力为 0 .0 2MPa条件下运行 6h后 ,膜水通量从2 4 0mL min·m2 降至 5 5mL min·m2 ,下降率超过 77%。