混合液回流比对多点进水新型A/O/A/A/O泥膜耦合工艺脱氮除磷的影响

针对中国南方城镇低碳氮比(低C/N)生活污水的脱氮除磷问题,开发并设计了新型多点进水A1/O2/A3/A4/O5泥膜耦合工艺及中试装置.在进水点1和进水点2的进水流量比为4:6的条件下,通过改变混合液回流比,研究了其对系统中有机物、氮、磷的去除影响及氮素的转化规律.结果表明:当平均进水低C/N比为2.09,混合液回流比...     

三江平原小叶章湿地生态系统对氮磷的净化效率

选取面积为1600m^2的小叶章（Deyeuxia angustifolia）湿地进行小区域模拟试验。试验设割草区、1倍浓度区、静态对照区和2倍浓度区4个处理，研究N、P输入浓度，割草和输出径流对三江平原小叶章湿地生态系统净化N、P污染物的影响。结果表明，在小叶章生长期和成熟期，湿地生态系统对N、P保持较稳定的净化，N、P平均去除率分别为85．62％和85．94％。湿地水体中TN和NH4^＋-N的累积浓度显著相关。输入浓度、割草和输出径流都影响着湿地生态系统对N、P的净化和N、P在系统内的分配。输入浓度增大时，N、P去除率明显降低；割草会降低N去除率，但对P去除率影响不大；少量输出径流对N、P去除影响不大。三江平原小叶章湿地生态系统对输入的N、P具有显著净化作用，总净化率可达97．97％和99．05％。     

一株异养硝化-好氧反硝化功能菌的分离鉴定及其脱氮特性

从活性污泥中筛选出一株具有异养硝化同时好氧反硝化功能菌N7,经分析鉴定为Acinetobacter calcoaceticus（醋酸钙不动杆菌）。以硫酸铵为氮源、丁二酸钠为碳源,菌株N7对NH4+-N去除率高达99.2%,TN去除率为67.1%,异养硝化效果较好。分别以硝酸钾和亚硝酸钠为氮源,在30℃,150 r·min-1下培养,其TN去除率分别为62.7%和75.0%,表明N7具有良好的好氧反硝化效果。单因素实验结果表明菌株N7的最佳反硝化条件为：温度30℃、转速230 r·min-1、C/N 35、pH 8.1。     

智能化曝气控制A/O工艺处理低C/N生活污水有效性及其脱氮机制

将新型智能化曝气控制系统（automatic oxygen supply device,AOSD）应用于A/O工艺中,研究AOSD系统曝气模式控制下的A/O工艺（I-A/O）与持续曝气模式的A/O工艺（C-A/O）对低C/N生活污水处理能力的有效性,并从系统活性污泥特性的角度探究I-A/O系统反硝化菌在脱氮过程中对碳素的摄取、利用途径。结果表明：低进水碳源负荷下,I-A/O与C-A/O系统对COD、NH4+-N的平均去除率稳定且均达80%以上;I-A/O系统对TN去除率高出C-A/O系统25.97%,其对TN具有明显的去除优势;2套系统对TP均无去除效果。I-A/O系统活性污泥好氧异养菌产率系数YH为0.142 mg·mg-1,活性污泥衰减系数Kd为0.018 d-1,均低于C-A/O系统;在进水低C/N水平下,I-A/O系统活性污泥可通过更强的吸附贮存碳源能力、较低的好氧异养菌竞争压力、溶胞作用为反硝化菌提供更多的碳源以便脱氮反应。C/N是I-A/O系统曝气总量节省率重要影响因素之一,相比于C-A/O系统,其处理低C/N生活污水可节约曝气系统约52%的曝气量。     

曝气条件下进水C/N对水平潜流型人工湿地脱氮效果和氮转化功能微生物丰度的影响

为提高潜流型人工湿地在低C/N条件下的污水处理效果,考察了在植物生长旺盛期曝气条件下不同C/N(0.9∶1、2∶1、4∶1)对污水的脱氮效率、微生物群落结构和功能微生物丰度的影响.结果表明:NO3-去除率为57.48％～83.19％且随C/N的增加而增加;当C/N为2和4时,可提高COD和TN的去除率,COD和TN去除...     

Assessment of the Ecological Integrity of Traunsee (Austria) Via Analysis of Sediments and Benthic Microbial Communities

Since nearly one hundred years Traunsee experiences the import of tons of liquid and solid waste originating from salt and soda production. Today, the lake exhibits chloride concentrations of up to 170 mg L^-1 and 19% of the lake floor are directly or indirectly influenced by industrial deposits (ID). Based on the comparison of several microbial parameters in unaffected, directly affected and intermediate lake bottom sediments, the ecological integrity of the lake was evaluated. The highly alkaline ID, which were exclusively colonized by microorganisms, harbored a bacterial community reduced by a factor of 10 in abundance and biomass compared to undisturbed sediment areas within the lake. The bacterial community of ID was furthermore characterized by a reduced content of actively respiring cells (INT-formazan reduction), a lower frequency of dividing cells (FDC) and a significantly reduced cell and biomass production. A 80 to 90% reduction in carbon recycling is estimated for the area exclusively covered by ID. Protists, although occasionally absent from the industrial sediments, were in general found to be less sensitive to the contaminant stress. Differences in alkalinity and dissolved organic carbon (DOC) concentrations of sediment porewaters as well as the total organic content and C/N ratios of sediments partly explain the microbial pattern observed at the various sampling sites. Possible consequences of the continuous industrial tailings for the whole lake ecosystem and the validation of the ecological integrity are discussed.     

Room-temperature solid phase surface engineering of BiOI sheets stacking g-C3N4 boosts photocatalytic reduction of Cr(VI)

Cr(VI)-based compounds pollution have attracted global concern due to serious harm to humans and environment. Hence, it is crucial to exploit an effective technique to eliminate Cr(VI) in water. Herein, we in-situ grown BiOI on graphitic carbon nitride to prepare the BiOI/g-C3N4 (BCN) direct Z-scheme heterojunction by solid phase engineering method at room temperature. Experimental result shown the photocatalytic activity of pure BiOI were obviously enhanced by constructing Z-scheme BCN heterostructure, and BCN-3 heterostructure exhibited the optimal photocatalytic degradation of RhB with 98％yield for 2.5 h and reduction of Cr(VI) with more than 99％yield for 1.5 h at pH=2. Stability test shows BCN-3 still kept more than 98％reduction efficiency after 6 cycles. In addition, we also studied the reduction mechanism that shown the ·O2-radicals essentially helped to reduce the Cr(VI) in aqueous solution under illumination, verified the direct Z-scheme charge transfer path by X-ray photoelectron spectroscopy (XPS) and the free radical trapping experiment. The work open a new way for rationally designing photo-catalyst heterostructure to reduce Cr(VI) to Cr(III).     

Nitrate removal to its fate in wetland mesocosm filled with sponge iron: Impact of influent COD/N ratio

• CW-Fe allowed a high-performance of NO₃^‒-N removal at the COD/N ratio of 0. • Higher COD/N resulted in lower chem-denitrification and higher bio-denitrification. • The application of s-Fe⁰ contributed to TIN removal in wetland mesocosm. • s-Fe⁰ changed the main denitrifiers in wetland mesocosm. Sponge iron (s-Fe⁰) is a porous metal with the potential to be an electron donor for denitrification. This study aims to evaluate the feasibility of using s-Fe⁰ as the substrate of wetland mesocosms. Here, wetland mesocosms with the addition of s-Fe⁰ particles (CW-Fe) and a blank control group (CW-CK) were established. The NO₃^‒-N reduction property and water quality parameters (pH, DO, and ORP) were examined at three COD/N ratios (0, 5, and 10). Results showed that the NO₃^‒-N removal efficiencies were significantly increased by 6.6 to 58.9% in the presence of s-Fe⁰. NH₄⁺-N was mainly produced by chemical denitrification, and approximately 50% of the NO₃^‒-N was reduced to NH₄⁺-N, at the COD/ratio of 0. An increase of the influent COD/N ratio resulted in lower chemical denitrification and higher bio-denitrification. Although chemical denitrification mediated by s-Fe⁰ led to an accumulation of NH₄⁺-N at COD/N ratios of 0 and 5, the TIN removal efficiencies increased by 4.5%‒12.4%. Moreover, the effluent pH, DO, and ORP values showed a significant negative correlation with total Fe and Fe (II) (P<0.01). High-throughput sequencing analysis indicated that Trichococcus (77.2%) was the most abundant microorganism in the CW-Fe mesocosm, while Thauera, Zoogloea, and Herbaspirillum were the primary denitrifying bacteria. The denitrifiers, Simplicispira, Dechloromonas, and Denitratisoma, were the dominant bacteria for CW-CK. This study provides a valuable method and an improved understanding of NO₃^‒-N reduction characteristics of s-Fe⁰ in a wetland mesocosm.     

白洋淀湖泊湿地氧化亚氮的排放通量初探

湿地是温室气体氧化亚氮(N2O)的源或汇, 研究湿地N2O排放通量的时空变化特性对探究N2O的排放活跃区及减小温室效应有着重要的意义.采用静态箱-气相色谱法对白洋淀湖泊湿地N2O排放通量的时空变化特性及其影响因素进行了初步研究,结果表明白洋淀湖泊湿地N2O的排放呈现明显的时空变化特性,夏季N2O的排放量最大,且湖滨带是其排放的活跃区;白洋淀湖泊湿地优势植被芦苇的生长状况影响N2O的产生与排放,其鲜质量增加量与N2O的排放通量呈负相关性;土壤含水率的变化与N2O的排放通量有着较好的相关性,土壤含水率升高,N2O的排放通量增加;白洋淀湖泊湿地水中亚硝态氮质量浓度与N2O的产生和排放关系密切,随着亚硝态氮质量浓度的增加N2O的排放通量呈对数增长.     

利用根箱法解析甜椒根际土壤中氮的行为(英文)

为研究甜椒根际土壤中氮的行为,与既报同样的方法进行研究,即,利用15NH4+,15NO3-双标记的硝胺(NH,4>15NO3,15NH4NO3),在温室里对甜椒进行6周的根箱栽培.收割后,对土壤全氮,NO3-N,水溶性NH4-N,KCl抽出NH4-N和其各自的15N atom%进行测定.结果表明,土壤全氮从非根际到根际逐渐增加,与栽培前相比,土壤全氮在非根际中减少,却在根际中增大.土壤NO3-N浓度朝根际增加到离根际2 mm处,然后激减到根际.NO3-N的来自施给NO3-N的比例靠近根际逐渐升高,在根际达到了69%,反而,来自施给NH4-N的比例靠近根际逐渐降低,在根际将至7%左右.水溶性NH4-N和KCl抽出NH4-N浓度靠近根际逐渐降低,而且,从非根际到根际,二者匀保持3∶10的比例.KCl抽出NH4-N的来自施给NO3-N的比例靠近根际逐渐升高,但在根际仍低于3%,反而,其来自施给NH4-N的比例在非根际约为47%～55%,在根际降到41%.在整个根箱里,施用NO3-N的有機率达到62%,但其值在根际比非根圈要低.相反,施用NH4-N的有機率仅11%左右,但其值在根际比非根际要高.以上结果表明,在甜椒根际土壤中氮的无机化-有机化活性与水稻相比显著低.