分段进水两级A/O工艺对白酒废水的强化处理效果

为有效控制白酒废水中高质量浓度NH₄+-N对A/O系统冲击引起的出水水质超标问题,分析比较单级A/O工艺和分段进水两级A/O工艺[进水时间（以min计）分配比为7:3]对白酒废水的处理效果.结果表明:与单级A/O工艺相比,分段进水两级A/O工艺出水中ρ（NH₄+-N）、ρ（NO₂--N）、ρ（NO₃--N）和ρ（COD_Cr）均显著降低,其平均去除率分别提高了16.9%、43.2%、49.7%和8%.分段进水两级A/O工艺的二次进水能够为短程硝化反硝化的进行提供有效碳源和NH₄+-N等,为NO₂--N和NO₃--N等去除提供了有利条件;同时,它通过促进对系统内碳源的利用以及NO₂--N的去除,进一步降低了出水中ρ（COD_Cr）.此外,分段进水两级A/O工艺通过降低NH₄+-N和NO₂--N等污染物质量浓度,也能有效减弱其对氨氧化菌和亚硝酸盐氧化菌等微生物的抑制作用,为后续好氧阶段含氮污染物的去除奠定基础.但是,分段进水两级A/O工艺对白酒废水中PO₄3-的去除效果有限,这主要是因为第二阶段的NO₂--N存在使反应系统处于缺氧环境,同时在碳源不充足的情况下,导致聚磷微生物释磷不充分,降低了第二好氧段的吸磷动力.研究显示,分段进水两级A/O工艺能够有效强化白酒废水中三态氮和COD_Cr的降解去除.      

控制论在企业环境管理中的应用

在企业环境管理运用控制论实施污染防治全过程控制，来提高清洁生产水平，降低物耗，能耗，提高资源利用率，完善保护环境的自我约束机制，落实环境综合整治定量考核，以达到发展生产，提高经济效益和改善环境的目的。     

三段A/O工艺处理发制品产业集聚区综合废水

利用三段A/O工艺作为发制品产业集聚区综合废水生物处理单元,探讨了不同进水流量分配比和污泥回流比下COD、TN、PO₄^3--P的去除性能和微生物群落特征.结果表明,在进水流量分配比60%：25%：15%、污泥回流比75%、缺氧区与好氧区容积比1：1、SRT 20d、HRT 16h条件下,三段A/O工艺处理综合废水后出水TN平均浓度14.85mg/L,COD浓度低于40m/L;此时PO₄^3--P去除率达到最大值,为56.21%.参与处理综合废水的主要门水平微生物Proteobacteria和Bacteroidetes的相对丰度是45.63%~60.13%和16.65%~30.55%.Denitratisoma、Thauera、uncultured-f-Saprospiraceae和Sulfuritalea等优势菌属相对丰度的增加,是三段A/O工艺TN去除率随第一分段进水流量分配比增大或污泥回流比降低而提高的本质体现.     

多级AO耦合流离生化工艺流量分配比优化及脱氮机制

为探究进水流量分配比对低温城市污水脱氮效率的影响,并解析多级AO耦合流离生化工艺脱氮规律,实验采用三级AO耦合流离生化工艺,在温度为(10±1)℃、水力停留时间8 h、气水比恒定的条件下处理模拟低C/N值城市污水.系统依次在进水比5∶4∶4(等容积负荷)、3∶2∶1(等停留时间)和25∶15∶6(等污泥负荷)这3种工况下运行.结果表明,该工艺对低温低C/N值污水的处理效果较好,其中在进水比为3∶2∶1的工况下脱氮效率最高,COD、NH+4-N和TN平均去除率分别为87. 44%、96. 63%和76. 81%.进一步对氮的迁移转化规律进行研究发现,制约工艺低温脱氮的主要因素为各级硝化效率,3∶2∶1的进水比合理地分配了进水负荷,各级硝化率均超过85%,为反硝化创造了有利条件,最终获得了较高的脱氮效率,此时系统也具有最高的总生物量.研究结果丰富了多级AO耦合工艺低温脱氮理论,同时为工程设计应用提供参考.     

Mobility and sulfidization of heavy metals in sediments of a shallow eutrophic lake, Lake Taihu, China

The technique of DGT (diffusive gradients in thin films) using three diffusive gel thicknesses was applied to estimate the mobility and bioavailability of heavy metals in sediments and porewater of Lake Taihu, China. The DGT results showed significantly positive correlations between Co, Pb, Cd and Mn, and Ni and Fe concentrations in porewater. Cu and Zn showed a significantly negative correlation with Mn, due to Cu combination with carbonates and Zn derived from agricultural pollution, respectively. The rank order of average concentrations of Co, Ni and Cd at each station was DGT_1.92 > DGT_0.78 > DGT_0.39, suggesting stronger resupply from sediments to porewater when using thicker diffusive gels. Comparing centrifugation and DGT measurements, Co, Ni and Cd are highly labile; Mn and Fe are moderately labile; and Cu, Zn and Pb are slightly labile. The variations of AVS concentrations in sediment cores indicate that metal sulfides in deeper layers are easily diffused into surface sediments.     

重金属污染物在土壤中迁移规律及修复技术研究

世界各国都认识到重金属污染的严重性.多数国家开展了污染场地的修复工作,研究和开发出多种土壤重金属污染修复技术,重金属污染土壤修复技术有物理化学修复技术、植物修复、微生物修复技术和电动修复技术.但这些土壤修复技术的成本高,只重视土壤修复,土壤修复技术更重要的部分是地下水系统的修复,不能忽视地下水系统与土壤修复的完整性,否则会造成二次环境污染.本文在分析土壤中重金属污染物迁移规律的同时提出完整的土壤修复新技术CH-PRB工艺.     

A／O工艺处理石油化工废水试验研究

本文介绍了采用Ａ／Ｏ新工艺组合处理高浓度的炼油、化工混合废水中试情况，试验结果表明；Ａ／Ｏ新工艺组合具有抗冲击性能好，产泥量少，在一定条件下，出水各项指标达标排放，还就填料选择、含氮化合物的消化反应、污泥生物相和各池工艺参数相互关系进行了讨论。     

Test of membrane bioreactor for waste water treatment in a petrochemical complex

Membrane bioreactor (MBR) used in water and waste water treatment is a developing technique for water pollution control and water reuse. This paper describes a membrane-bioreactor for treatment of waste water in a petrochemical complex. The experimental MBR was a lab scale one composed of an activated sludge bioreactor unit and an ultrafiltration membrane unit. The relationship of COD removal with MLSS and HRT in this MBR was studied. The effects of crossflow velocity, backwash interval and volume of flush liquid on the flux were discussed. The results showed that average removal of COD, oil, SS and turbidity in petrochemical waste water by the MBR was 91%, 86%, 92% and 99% respectively. The average removal of NH₃-N and total phosphorous was 85% and 82%. A coefficient of COD removal, k, was 0.017-0.080 L/(mg.d). The membrane flux maintained higher than 60 L/hm2 bar for 34 days without chemical cleaning when the velocity of crossflow was 3.5-3.9 m/s and the backwash interval was 30 minutes and backwash duration at 20 seconds. The results indicated that it is feasible for MBR technology to be used in petrochemical waste water treatment. The treated water could be considered as a source used to make up water for industrial cooling system or to be reused for other purposes.     

用溶解氧浓度作为SBR法过程和反应时间控制参数

进行了以DO作为SBR法过程和反应时间控制参数的试验研究。结果表明,无论使曝气量或初始污泥浓度大幅度变化,还是逐渐或突然改变初始有机物浓度等各种试验条件,都会在反应阶段开始不久出现所谓平衡DO浓度现象;当有机物达到其难降解浓度时DO浓度迅速地大幅度升高。因此,在目前还没有简易、快速的有机物浓度传感器的情况下,DO不仅可作为反应时间的指示性控制参数,而且也能可靠地作为反应阶段的过程控制参数。     

Comparative evaluation of processes for heavy metal removal from municipal solid waste incineration fly ash

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