固定化微生物脱氮

应用固定化微生物技术开展单级生物脱氮的研究。结果表明，固定化硝化与反硝化混合污泥可以实现单级生物脱氮，效果好于未固定化污泥，氨氧化速率和总无机氮的脱中分别提高到未固定化污泥的１．７倍和１３．４倍。结果还表明光硬化树脂也是一种较好的固定化介质。     

Secondary effect of SO2 pollution: enhanced growth of the army worm, Mythimna separata (Walker)

Effects of SO₂ pollution on growth of the army worm, Mythimna separata, were investigated by rearing the larvae for 12 days on the wheat plants being exposed to SO₂ levels ranged from 50 to 200 ppb in the field open-top fumigation devices. Larval period shortened while their mean relative growth rate (MRGR) increased as SO₂ dose elevated. Similar experiment with the insect on the artificial diet excluded the possibility that SO₂ pollution directly stimulated growth of the army worm.The patterns of change in amino acid hydrolysates in the host foliage suggested that contents of methionine, and perhaps, arginine in food material exposed to unpolluted air were at such levels that they could only support sub-optimum growth of the insect, and SO₂ pollution increased concentrations of these limiting amino acids, resulting in better performance of the larvae.     

玻璃纤维布负载TiO2膜光催化氧化垃圾渗滤液

本文以钛酸丁酯为原料，通过溶胶-凝胶技术在玻璃纤维布上制备TiO2膜。分别以10w低压汞灯和400w高压汞灯作为光源。对垃圾渗滤液进行了光催化氧化处理。综合分析了影响CODCr去除率及UV335去除率的因素。结果表明，以玻璃纤维布作载体制备的TiO2膜光催化氧化处理垃圾渗滤液具有较好的效果。     

用加速溶剂提取仪提取污染土壤中的有机氯农药

研究加速溶剂萃取对土壤中有机氯农药的提取效果,并与索氏提取法进行比较。结果表明,加速溶剂萃取对土壤中滴滴涕的回收率明显高于索氏提取,对土壤中BHC的提取能力与索氏提取相当。用该方法测定了天津污灌区和非污灌区土壤样品中的有机氯农药残留量。结果表明,α-BHC、β-BHC、δ-BHC、γ-BHC、p,p’-DDE、p,p’-DDD、p,p’-DDT、o,p’-DDT的检出率为100％,这些有机氯农药在污灌旱地和稻田地的残留量分别为7．5－71．1ng/g和3．0－16．5ng/g。非污灌的旱地中有机氯农药的残留量为3．1－17．6ng/g。     

Greenhouse gas emissions from a constructed wetland for municipal sewage treatment

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苎麻(B.nivea(L).Gaud)对土壤Cd的吸收及其生物净化效应

通过４年微区定位试验，研究了苎麻对土壤Ｃｄ的吸收及其净化效应。结果发现，苎麻地上部分年生物产量（ＹＢ）与土壤Ｃｄ含量）（Ｓｃ）的关系可用对数函数模型ＬｏｇＹＢ＝３．３８７４－０．０７５３（ＬｏｇＳｃ）＾２描述；     

降低城市生活垃圾焚烧发电设施建设与运行费用的本土化方法研究

城市生活垃圾焚烧发电技术是比较完善的城市生活垃圾处理与资源综合利用方法 ,其推广应用的困难在于建设与运行费用较高。本文分析费用较高的原因 ,提出设备本土化是最好的降低费用方法 ,并分析了城市生活垃圾焚烧发电设备本土化的基础、必要性、可行方案、成功实例以及现行政策及发展趋向 ,可供城市生活垃圾焚烧发电设施建设、运行方案及相关政策决策人员参考     

交联菌丝体吸附剂的制备及其对Cr3+的吸附特性

深入研究了交联菌丝体吸附剂的制备工艺及其对Cr3+的吸附特性.交联菌丝体吸附剂制备工艺简单,但在制备过程中,活化剂NaOH和交联剂的用量对吸附特性影响较大.与纯菌丝体吸附剂相比,交联菌丝体吸附剂表观吸附容量提高48%,达到49.83 mg/g(pH=2.53,水溶液中的Cr3+浓度为600mg/L),同时其机械强度明显增强.交联菌丝体吸附剂对Cr3+的吸附特点是将沉淀法与吸附法相结合,将沉淀与吸附两过程合二为一,从而简化了处理工艺,降低了处理成本.     

Effects of disinfection efficiency on microbial communities and corrosion processes in drinking water distribution systems simulated with actual running conditions

The effects of disinfection efficiency on microbial communities and the corrosion of cast iron pipes in drinking water distribution systems (DWDSs) were studied. Two annular reactors (ARs) that simulated actual running conditions with UV/Cl₂ disinfection and chlorination alone were used. High chlorine consumption and corrosion rate were found in the AR with UV/Cl₂. According to functional genes and pyrosequencing tests, a high percentage of iron recycling bacteria was detected within the biofilm of the AR with Cl₂ at early running stage, whereas siderophore-producing bacteria were dominant in the biofilm of the AR with UV/Cl_2. At the early running stage, the sequential use of UV light and an initial high chlorine dosage suppressed the biomass and iron-recycling bacteria in both bulk water and biofilms, thereby forming less protective scales against further corrosion, which enhanced chlorine consumption. Non-metric multidimensional scaling analysis showed that the bacterial communities in the ARs shaped from within rather than being imported by influents. These results indicate that the initial high disinfection efficiency within the distribution system had not contributed to the accumulation of iron-recycling bacteria at the early running stages. This study offer certain implications for controlling corrosion and water quality in DWDSs.     

Controlled synthesis of Zeolite adsorbent from low-grade diatomite: A case study of self-assembled sodalite microspheres

Highly efficient and sustainable conversion technologies to generate uniform sodalite(Na_8(AlSiO_4)_6(OH)_2) zeolite micro spheres with low-grade waste natural diatomite as raw materials via a solution-mediated crystallization route were developed in the present study.The synthesis process can be considered as an in-situ zeolitization of diatomite precursor without involving any me so scale template and any post-synthetic modification.The mass ratios of diatomite and AlCl_3·6 H_2 O have remarkable effect on the morphology,crystal structure and porosity of sodalite zeolite product.The preferred sodalite microspheres with uniform mesoporous of size 3.5-5.5 nm and large surface area of 162.5 m2/g exhibit well removal performance for heavy metal ions(Pb(II),Cd(II),Zn(II),and Cu(II)),with the highest adsorption abilities for Pb(II) ions of 365 mg/g.In addition,the effect of contact time,initial ion concentration,competitive adsorption and solution pH were evaluated.The removal performance results from synergistic effects of dominating cation-exchange and additional surface chemisorption.The study may broadly help unveil chemical control reactions of the zeolitization processes of diatomite,and thus facilitates the development of promising zeolite materials for the use in natural and engineered aquatic environments by recvcling waste diatomite resources.