太阳光催化氧化工艺对藻源含氮有机物的降解研究

利用小试试验研究了太阳光/TiO2体系对铜绿微囊藻细胞内的溶解性有机氮(DON)的氧化降解过程,考察了氧化降解过程中总可溶性蛋白、多糖、UV254等指标的变化,分析了其作用机理.结果表明,7h处理后,太阳光/TiO2体系对水样中的DON降解率为29%,且降解过程中TN含量基本没有变化,而NH4+和NO3-的浓度明显增加;氧化过程中,总可溶性蛋白和多糖的含量明显减少,去除率达48.6%和54.5%.水样的浑浊度、UV254和DOC也有不同程度的去除.     

污染源半定量化的地下水有机污染风险评价

结合细河沿岸地区水文地质条件及地下水有机污染特征,通过AHP法确定权重,建立DRSIC模型,将评价结果与污染源荷载评价叠加,构建研究区有机污染风险评价模型.并通过研究区有机污染特征检验模型的合理性.结果表明:区内大部分地区有机污染风险中等或低.只有细河沿岸、杨士至于洪区一带污染风险处于高水平.评价结果较好的符合研究区有机污染现状.     

中间覆盖层对厌氧生物反应器填埋场中有机物降解的作用

建立了3组模拟厌氧生物反应器填埋场——R1、R2和R3,其中R1反应器无中间覆盖层,R2和R3反应器分别以矿化垃圾+重质碳酸钙、矿化垃圾+天然沸石为中间覆盖层,以研究不同中间覆盖层对厌氧生物反应器填埋场中有机物降解的作用. 结果表明:以矿化垃圾+重质碳酸钙、矿化垃圾+天然沸石为中间覆盖层时,均能维持反应器中良好的内环境,可促进垃圾和渗滤液中有机物的降解. R1、R2和R3反应器中垃圾的w(VS)(VS为挥发性固体))分别比初始值下降了69.81%、75.06%、73.86%,w(BDM)(BDM为生物可降解组分)分别下降了66.87%、82.86%、75.38%,w(纤维素)分别下降了67.96%、75.41%、72.90%;R1、R2和R3反应器中垃圾渗滤液的ρ(COD_Cr)比最大值分别降低了25.45%、29.72%、23.01%,ρ(BOD₅)分别降低了39.28%、45.66%、46.74%. 表明矿化垃圾+重质碳酸钙为中间覆盖层时,既能接种可降解有机物的微生物,又能提供微生物生长所需的碱度,因此更具优势.      

Occupational exposure to airborne aromatic amines in rubber manufacturing: Determination by gas chromatography‐mass spectrometry

Aromatic amines (AAs) are used in a variety of chemical industries and consequently they are the object of great attention in occupational hygiene owing to the carcinogenic effects that many of them have shown. This work outlines a procedure for the determination of occupational exposure to airborne AAs in the rubber industry and the application of this method in a tyre manufacturing plant using p‐phenylenediamines as antiozonants. Samples were collected on a glass fibre filter followed by a silica gel tube and analyzed by GC‐MS/SIM using a capillary column coated with methyl silicone. p‐Phenylendiamines and other AAs probably formed as thermodegradation products were found in concentrations of up to 10 μg/m³ during rubber vulcanization.     

Combination of ion exchange system and biological reactors for simultaneous removal of ammonia and organics

A novel process for a simultaneous removal of ammonia and organics was developed on the basis of ion exchange and biological reactions. From batch experiments, it was found out that NH₄⁺ could be removed effectively by combining cation exchange and biological nitrification showing 0.98 mg N/m²?s of a maximum flux. On the other hand, the removal of NO₃⁻ was 3.5 times faster than NH₄⁺ and the maximum flux was calculated to be 3.4 mg N/m²?s. The systems for NH₄⁺ and NO₃⁻ removal were combined for establishing the IEBR process. When the process was operated in a continuous mode, approximately 95.8% of NH₄⁺ was removed showing an average flux of 0.22 mg N/m²·s. The removal efficiency of total nitrogen was calculated as 94.5% whereas that of organics was 99.5%. It was concluded that the IEBR process would be effectively used for a simultaneous removal of NH₄⁺ and organics.     

用二氧化氯降解废水中的苯胺类化合物（2）──降解机理的探讨

本文在上文（１）的基础上，进一步研究了经二氧化氯处理前后ＢＯＤ＿５／ＣＯＤ的变化规律，其比值大于或接近０．３．其降解产物有醌及醌的氧化产物和ＮＨＩ．对苯胺及二氧化氯来说其．反应级数为１，整个反应为二级反应．     

吸附-电氧化法降解气态乙二醇乙醚乙酸酯(EGEA)的研究

采用吸附-电氧化两步联动降解VOCs,结果表明,相同电压下以铁作为阳极时的CODCr脱除率达到80%以上,比用不锈钢阳极时高40%左右.电解质溶液的pH值和CODCr值随时间有规律地变化,也验证了反应器中所发生的反应.     

Abundance and diversity of the phyllosphere bacterial communities of Mediterranean perennial plants that differ in leaf chemistry

Summary.  We studied the epiphytic bacterial communities of the summer leaves of eight perennial species naturally occurring in a Mediterranean ecosystem. The species differ in essential-oil content (from rich in essential oil to non-producers) and composition, and also in life form (from herbaceous species to tall shrubs). We compared the epiphytic bacterial communities on the basis of (i) their abundance, (ii) their metabolic profile (derived by use of the BIOLOG Ecoplate system) and (iii) richness and diversity of substrates that they use, as a measure of functional diversity. Among all species, the aromatic Melissa officinalis was the most abundantly colonized. The bacterial communities on the leaves of the aromatic Myrtus communis, Calamintha nepeta and Melissa officinalis, and also of Cistus incanus catabolized all 31 substrates offered; those on the evergreen-sclerophyllous species, Arbutus unedo and Quercus coccifera, catabolized only 14 and 17 substrates, respectively. Carbohydrates were consistently used abundantly by all communities, whereas carboxylic acids were most variably used. On average, the group of aromatic plants scored higher regarding bacterial abundance, and richness and diversity of substrates used by the bacterial communities on their leaves; the lowest values for both substrate-use indices were recorded in A. unedo. Bacterial abundance or richness or diversity of substrates used did not vary with leaf oil content. Abundance was positively correlated with both substrate-use indices. Results support claims that the antimicrobial effects of essential oils are not exerted so much under natural conditions as reports based on biassays with pathogens usually show. Although essential oils play a part in the microbial colonization of the phyllosphere, it is not likely that inhibition of phyllosphere bacteria is essential oils’ primary role, at least in the Mediterranean environment.     

Monitoring aromatic hydrocarbon biodegradation by functional marker genes

The development of biological treatment technologies for contaminated environments requires tools for obtaining direct information about the biodegradation of specific contaminants. The potential of functional gene array analysis to monitor changes in the amount of functional marker genes as indicators of contaminant biodegradation was investigated. A prototype functional gene array was developed for targeting key functions in the biodegradation of naphthalene, toluene and xylenes. Internal standard probe based normalization was introduced to facilitate comparison across multiple samples. Coupled with one-colour hybridization, the signal normalization improved the consistency among replicate hybridizations resulting in better discrimination for the differences in the amount of target DNA. During the naphthalene biodegradation in a PAH-contaminated soil slurry microcosm, the normalized hybridization signals in naphthalene catabolic gene probes were in good agreement with the amount of naphthalene-degradation genes and the production of 14CO2. Gene arrays provide efficient means for monitoring of contaminant biodegradation in the environment.