溢油分散剂中吐温80对石油中多环芳烃在海水中光降解的影响

溢油事故发生后喷洒溢油分散剂是常用的应急措施之一,这使得溢油分散剂中的表面活性剂与石油中的重要污染物多环芳烃(PAHs)在海水中共存。光化学转化是水中PAHs的重要转化途径,这些共存表面活性剂如何影响PAHs在海水中的光化学消减还有待阐明。本研究选取溢油分散剂的重要活性成分吐温80和石油中2种不同类型的PAHs(菲和二苯并噻吩),通过光化学实验考察不同浓度吐温80对菲(PHE)和二苯并噻吩(DBT)在海水中的光降解速率常数和光解量子产率的影响,并通过量子化学计算的手段研究其影响机制。研究发现:吐温80可以使PHE和DBT的阳离子自由基回到稳定的基态,降低PHE和DBT的光解量子产率,从而抑制PHE和DBT的光降解。该结果表明,在评价溢油分散剂的风险性时不可忽视其对PAHs环境转化行为的影响。     

粉煤灰处理阴离子表面活性剂废水及机理研究

采用粉煤灰作为吸附混凝剂,研究了粉煤灰对阴离子表面活性剂十二烷基磺酸钠(SDS)模拟废水的去除效果及机理.结果表明,粉煤灰投加量和pH值对去除效果有较大影响;在200 mL 50 mg/L的SDS溶液中,调节pH值为13,加入70 g粉煤灰,搅拌20min时,SDS的去除率为83.3％.粉煤灰对SDS的吸附符合Freundlich吸附等温式.     

鼠李糖脂对铜绿假单胞菌降解颗粒有机质的影响

通过好氧降解实验研究了生物表面活性剂鼠李糖脂对1株铜绿假单胞菌(Pseudomonas Aeruginosa)降解颗粒有机质的影响,着重探讨了其作用方式,并与TritonX-100和SDS等2种化学表面活性剂作了对比.结果表明,浓度高于临界胶束浓度的鼠李糖脂在基质表面的等温吸附呈线性规律.鼠李糖脂在基质和微生物表面的吸附使菌体在基质表面的吸附性能减弱.鼠李糖脂和2种化学表面活性剂的物化作用使基质水分得以较长时间地保持,并加强了有机质在基质液相中的分散.在鼠李糖脂的作用下,有机质的降解从颗粒表面转移到液相,降解方式发生了改变.通过以上作用,鼠李糖脂促进了微生物的生长和有机质的降解.SDS和TritonX-100对有机质颗粒的降解也产生了一定的促进作用.     

复合表面活性剂对燃煤陶瓷窑炉黑烟润湿作用的研究

为了有效控制燃煤陶瓷窑炉黑烟的污染,根据理论和实验研究的结果,选择合适的润湿剂和助剂,研究了阴离子表面活性剂Y1、非离子表面活性剂F1与无机盐Z1复配后溶液表面张力的变化,筛选出了表面张力较小的配比。利用所选配比对燃煤陶瓷窑炉黑烟的润湿作用进行了W alker实验研究和理论分析。实验结果表明,0.5 mmol/L Y1+50mmol/L Z1+0.03 mmol/L F1的配比对黑烟的润湿作用较好。并对其润湿机理进行了探讨。     

Use of two-surfactants mixtures to attain specific HLB values for assisted TPH-diesel biodegradation

In a surfactant assisted biodegradation process, the choice of surfactant(s) is of crucial importance. The question is: does the type of surfactant(i, e. chemical family) affect the biodegradation process at fixed hidrophillic-lypofillic balance(H/B) values? Microcosm assessments were developed using contaminated soil, with around of 5000 mg/kg of hydrocarbons as TPH-diesel. Mixtures of three nonionic surfactants were employed to get a wide range of specific HLB values. Tween20 and Span20 were mixed in the appropriate proportions to get HLB values between 8.6 and 16.7. Tween/Span60 mixtures reached HLB values between 4.7 and 14.9. Finally,Tween/Span80 combinations yielded HLB values between 4.3 and 1.5. TPH-diesel biodegradation was measured at the beginning, and after 8 weeks, as well as the FCU/grsod, as a measure of microorganisms‘ development during the biodegradation period. A second aim of this work was to assess the use of guar gum as a biodegradation enhancer instead of synthetic products. The conclusions of this work are that surfactant chemical family, and not only the HLB value clearly affects the assisted biodegradation rate. Surfactant‘s synergism was clearly observed. Regarding the use of guar gum, no biodegradation enhancement was observed for the three assessed concentrations,i.e., 2, 20, and 200 mg/kg, respectively. On the contrary, TPH-diesel removal was lower as the gum concentration increased. It is quite possible that guar gum was used as a microbial substrate.     

Mass balance of anionic surfactants through up-flow anaerobic sludge blanket based sewage treatment plants

The outcome of a 21-month monitoring study on anionic surfactants (AS) at five (27–70 ML/d) up-flow anaerobic sludge blanket (UASB) based sewage treatment plants (STPs) is described. The average removals of AS were around 8–30%. Appreciable concentrations of AS were being discharged to the watercourse (average 4.30 mg/L; range 3.60–4.91 mg/L). On an average dried sludge contained 1452 mg AS/kg dry weight. Mass balance at three STPs indicated that, AS load of the order of 5–17% and ≈12% is removed by adsorption in UASB reactors and polishing ponds (PP) respectively. Biodegradation of AS under anaerobic conditions in UASB reactors and PP does not seem to take place. In the sludge stream, appreciable biodegradation (≈46%) of adsorbed AS under aerobic conditions on the sludge drying beds takes place. If influent AS mass flux is normalized to 100 units, than average of ≈74 and ≈7 units are discharged with treated effluent and dried sludge respectively, while 12 and 6 units are adsorbed/settled in PP and aerobically biodegrade on sludge drying beds respectively. At two STPs (34 and 56 ML/d), the filterable fluxes in UASBR increased so that the mass balance could not be computed.     

Influence of the initial state of carbon nanotubes on their colloidal stability under natural conditions

The colloidal stability of dry and suspended carbon nanotubes (CNTs) in the presence of amphiphilic compounds (i.e. natural organic matter or surfactants) at environmentally realistic concentrations was investigated over several days. The suspensions were analyzed for CNT concentration (UV-vis spectroscopy), particle size (nanoparticle tracking analysis), and CNT length and dispersion quality (TEM). When added in dry form, around 1% of the added CNTs remained suspended. Pre-dispersion in organic solvent or anionic detergent stabilized up to 65% of the added CNTs after 20 days of mild shaking and 5 days of settling. The initial state of the CNTs (dry vs. suspended) and the medium composition hence are critical determinants for the partitioning of CNTs between sediment and the water column. TEM analysis revealed that single suspended CNTs were present in all suspensions and that shaking and settling resulted in a fractionation of the CNTs with shorter CNTs remaining predominantly in suspension.     

粉煤灰处理阴离子表面活性剂废水及机理研究

采用粉煤灰作为吸附混凝剂,研究了粉煤灰对废水中阴离子表面活性剂十二烷基磺酸钠（SDS）的去除及机理。分析了粉煤灰投加量、吸附时间、pH值对废水中SDS去除率的影响,探讨了最佳条件下废水中SDS去除率,研究了粉煤灰动力学特征。结果表明,在200mL浓度50mg/L的SDS溶液中,调节pH值为13,加入70 g粉煤灰,搅拌20m in后,SDS的去除率为83.3%。粉煤灰对SDS的吸附符合Freund lich吸附等温式。     

非离子表面活性剂在人工光源辐照下的光催化降解

在光催化氧化对5种典型非离子表面活性剂（NIS）和实际印染废水中NIS的去除效果的实验中,未见TiO₂有明显催化作用．光解30min,几种NIS的光降解率均达60％以上．NIS的光降解速率受NIS浓度和DO的影响较小;pH值降低有利于NIS的光降解,而在中性或弱酸性条件下,NIS光降解效率仍较好;投加H₂O₂可提高NIS的光降解速率,最适投加量为4.4×10^-4mol/L．对于实际印染废水,NIS的光降解去除率比生化法高且处理时间短得多,同时对COD、MBAS亦有较好的去除效果,表明光催化氧化是一项很有前途的NIS处理技术．     

土壤环境中阴离子表面活性剂的分布

采集了南京市附近及苏南吴县地区不同土壤及相关水样,用苯胺兰１号比色法分析阴离子表面活性浓度,结果表明土壤环境中其浓度为０．１４ｍｇ／ｋｇ～３．８４ｍｇ／ｋｇ,水样中为０．１７ｍｇ／ｋｇ～０．４６ｍｇ／Ｌ,并且其浓度与土壤剖面深度、环境污染冲击类型及土壤利用方式有关。