焦化废水生化出水中芳香族污染物深度处理技术的研究进展

焦化废水生化出水中芳香族污染物种类众多，有较强的生物毒性，必须进行深度处理。本文综述了焦化废水生化出水深度处理技术的研究进展，比较了各种技术对焦化废水生化出水中芳香族污染物的去除能力，讨论了使用中存在的问题，展望了优势技术的发展方向和应用前景。     

鼠李糖脂对微生物菌剂降解石油的影响

以石油烃降解微生物菌剂和铜绿假单胞菌株A6为对象，考察不同浓度鼠李糖脂对菌剂细胞表面疏水性、原油降解性能和微生物生长的影响，采用GC-MS分析石油中正构烷烃组分的降解情况。结果表明，低浓度鼠李糖脂就可提高菌剂细胞的表面疏水性和原油降解效果。以250mg／L添加组最明显，第7天疏水性达最高，为58．6％，比对照组提高约26．2％；降解第15天原油降解率达71．6％，分别比对照组和TW20组提高16％和13．3％。GC-MS结果显示鼠李糖脂对高碳数烷烃的降解作用大于低碳数烷烃，正二十三烷和正三十三烷的降解率分别较对照提高了21．5％和33．7％。菌剂对奇数碳烷烃的降解效果优于偶数碳烷烃。鼠李糖脂分别使菌剂中细菌、放线菌和霉菌的最大生物量提高了5．7、2．4和1．8倍。鼠李糖脂对微生物细胞疏水性和生物量的提高与石油降解效果正相关。     

A fluorometric method to determine rainfastness,volatilization and photostability of glyphosate from glass slides,after application of vision® with two adjuvants

Abstract

A fluorometric method was developed to quantify glyphosate loss from glass surfaces after exposure to the natural forest environment. The method was based on the principle of converting glyphosate into glycine, followed by the fluorogenic labeling with o‐phthalaldehyde. A fluorometer (with λ _Ex = 360 nm / λ_Em =430 nm) was used to quantify the derivatized fluorogenic compound. Response was linear over the concentration range of 143, 286, 572, 858 and 1144 μg of glyphosate (acid equivalent, AE) per mL of the diluted Vision® formulation. Three end‐use mixtures of Vision® were prepared, each at a concentration of 28.6 g AE/L, without and with two adjuvants, Ethomeen® T/25 at 4.5 mL/L and Silwet^® L‐77 at 1.5 mL/L. Several dilutions of the end‐use mixtures were applied on glass slides without and with the coating of cuticular wax extracted from trembling aspen foliage. The slides were left for 5 days in a forest opening to determine rainfastness, volatilization and photostability of glyphosate. The residues were quantified using the method developed. Three calibration curves were required because Silwet decreased the fluorometric response of glyphosate, whereas Ethomeen increased it. The minimum detection limit was 143 μg of glyphosate/mL. Glyphosate was resistant to volatilization and sunlight‐mediated degradation, regardless of the presence of wax coating or the adjuvants. About 64% of the applied glyphosate was washed off after a 9.6 mm rainfall when no adjuvant was present. Both adjuvants provided some amount of rain‐protection to glyphosate, but Silwet reduced the washoff to a greater extent (46%) than Ethomeen (55%).     

不同基质共代谢降解2,4,6-三硝基苯酚的研究

以葡萄糖、可溶性淀粉、乙酸钠和苯酚作为共基质，通过35℃恒温生化培养箱缺氧驯化污泥，间歇恒温振荡试验研究了在不同共代谢基质条件下，2,4,6-三硝基苯酚（TNP）的缺氧降解性能。结果表明，经过驯化的微生物加入葡萄糖和苯酚作为碳源，在TNP∶苯酚∶葡萄糖为10∶3∶100的比例下，TNP生物降解率可以从不加碳源时的31.2%提高到86.6%；不同共基质条件下TNP的降解均符合一级反应动力学方程，反应速率常数大小依次是K_苯酚＜K_葡萄糖＜K_{葡萄糖+苯酚}，其中葡萄糖和苯酚同时作为共基质时TNP降解速率常数最大为0.019 h^-1。     

复合酸化剂对电镀污泥中铬、铜的去除效果

以电镀加工厂产生的污水污泥作为主要研究对象,研究了柠檬酸、硝酸、过氧化氢为复合酸化剂,Fe3+为增效剂对电镀污泥中铬和铜的去除效果,考察了酸化剂的浓度、反应时间、摇床转速、污泥pH、Fe3+浓度等因素对污泥中重金属去除效率的影响。结果表明:在室温下,含0.15 mol/L柠檬酸、1.5%过氧化氢、0.25 mol/L硝酸的复合酸化剂与增效剂2.0g/L Fe3+溶液共同处理污泥,固液比为1∶10,以150 r/min的转速振荡4 h,对污泥中Cr的去除效率达到80.02%,Cu的去除效率可达到92.89%,使污泥中残留Cr、Cu含量均符合国家污泥农用标准。     

关于中国农村土地制度的产权经济思考──兼论我国农村土地的复合所有制

本文首先运用现代产权经济理论对我国农村现行土地制度进行了分析,进而提出我国农村土地宜实行复合所有制,并从土地特征、我国现实情况、土地印度的历史变迁,农地制度改革的风险和成本、各国土地制度变迁的趋势等方面进行了论证.     

Euro Chlor Risk Assessment for the Marine Environment Osparcom Region: North Sea - 1,1,2-Trichloroethane

This risk assessment on 1,1,2-trichloroethane (T112) was carried out specifically for the marine environment, according to the methodology laid down in the EU risk assessment Regulation (1488/94) and the Guidance Document of the EU New and Existing Substances Regulation (TGD, 1997). The study consists of the collection and evaluation of data on effects and environmental concentrations from analytical monitoring programs in large rivers and estuaries in the North Sea area. The risk is indicated by the ratio of the "predicted environmental concentrations" (PEC) and the "predicted no effect concentrations" (PNEC) for the marine aquatic environment. In total, 22 studies for fish, 45 studies for invertebrates and 9 studies for algae have been evaluated. Both acute and chronic toxicity studies have been taken into account and the appropriate assessment factors have been used to define a PNEC value of 300 µg/l. Most of the available monitoring data apply to rivers and estuaries and were used to calculate PECs. The most recent data (1991-1995) support a typical PEC of 0.01 µg T112/l water and a worst case PEC of 5 µg T112/l water. The calculated PEC/PNEC ratios give a safety margin of 60 to 30,000 between the predicted no effect concentration and the exposure concentration. Additional evaluation of environmental fate and bioaccumulation characteristics showed that no concern is expected for food chain accumulation.     

Euro Chlor Risk Assessment for the Marine Environment Osparcom Region: North Sea - 1,2-Dichloroethane

This risk assessment on 1,2-dichloroethane (EDC) was carried out specifically for the marine environment, according to the methodology laid down in the EU risk assessment Regulation (1488/94) and the Guidance Document of the EU New and Existing Substances Regulation (TGD, 1997). The study consists of the collection and evaluation of data on effects and environmental concentrations from analytical monitoring programs in large rivers and estuaries in the North Sea area. The risk is indicated by the ratio of the "predicted environmental concentrations" (PEC) and the "predicted no effect concentrations" (PNEC) for the marine aquatic environment. In total, 21 studies for fish, 17 studies for invertebrates and 7 studies for algae have been evaluated. Both acute and chronic toxicity studies have been taken into account and the appropriate assessment factors have been used to define a PNEC value of 1100 µg/l. Most of the available monitoring data apply to rivers and estuaries and were used to calculate PECs. The most recent data (1991-1995) support a typical PEC of 0.5 µg EDC/l and a worst case PEC of 6.4 µg EDC/l. The calculated PEC/PNEC ratios give a safety margin of 170 to 2200 between the predicted no effect concentration and the exposure concentration. Additional evaluation of environmental fate and bioaccumulation characteristics showed that no concern is expected for food chain accumulation.     

Euro Chlor Risk Assessment for the Marine Environment Osparcom Region: North Sea - Chloroform

This risk assessment on chloroform was carried out specifically for the marine environment, according to the methodology laid down in the EU risk assessment Regulation (1488/94) and the Guidance Document of the EU New and Existing Substances Regulation (TGD, 1997). The study consists of the collection and evaluation of data on effects and environmental concentrations from analytical monitoring programs in large rivers and estuaries in the North Sea area. The risk is indicated by the ratio of the "predicted environmental concentrations" (PEC) and the "predicted no effect concentrations" (PNEC) for the marine aquatic environment. In total, 23 studies for fish, 17 studies for invertebrates and 10 studies for algae have been evaluated. Both acute and chronic toxicity studies have been taken into account and the appropriate assessment factors have been used to define a typical PNEC value of 72 µg/l. Due to limitations of the studies evaluated, a worst PNEC of 1 µg/l could also be used. Most of the available monitoring data apply to rivers and estuaries and were used to calculate PECs. The most recent data (1991-1995) support a typical PEC of 0.2 µg chloroform per litre of water and a worst case PEC of 5 to 11.5 µg chloroform per litre of water. The calculated PEC/PNEC ratios give a safety margin of 6 to 360 between the predicted no effect concentration and the exposure concentrations. A worst case ratio, however, points to a potential risk for sensitive species. Refinement of the assessment is necessary by looking for more data. Additional evaluation of environmental fate and bioaccumulation characteristics showed that no concern is expected for food chain accumulation.     

Euro Chlor Risk Assessment for the Marine Environment Osparcom Region: North Sea - Tetrachloroethylene

This risk assessment on tetrachloroethylene (PER) was carried out specifically for the marine environment, according to the methodology laid down in the EU risk assessment Regulation (1488/94) and the Guidance Document of the EU New and Existing Substances Regulation (TGD, 1997). The study consists of the collection and evaluation of data on effects and environmental concentrations from analytical monitoring programs in large rivers and estuaries in the North Sea area. The risk is indicated by the ratio of the "predicted environmental concentrations" (PEC) and the "predicted no effect concentrations" (PNEC) for the marine aquatic environment. In total, 18 studies for fish, 13 studies for invertebrates and 8 studies for algae have been evaluated. Both acute and chronic toxicity studies have been taken into account and the appropriate assessment factors have been used to define a PNEC value of 51 µg/l. Most of the available monitoring data apply to rivers and estuary waters and were used to calculate PECs. The most recent data (1991-1995) support a typical PEC of 0.2 µg PER/l water and a worst case PEC of 2.5 µg PER/l water. The calculated PEC/PNEC ratios give a safety margin of 20 to 250 between the predicted no effect concentration and the exposure concentration. Additional evaluation of environmental fate and bioaccumulation characteristics showed that no concern is expected for food chain accumulation.