杂环化合物好氧生物降解性能与其化学结构相关性的研究

应用有机物结构－活性定量关系方法（QSAR）对杂环化合物的好氧生物降解性能与其化学结构间的关系进行定性、定量分析。阐明了单环杂环化合物以及与苯环稠合形成的双环及三环杂环化合物生物降解性能的规律性,研究了影响其降解性能的主要因素。以分子连接性指数IXV及前线最高占据轨道能E_HOMO为自变量参数,建立了杂环化合物的生物降解速率常数与_IX_{V及EHOMO间的定量关系。}     

上海城市化对气象要素和臭氧浓度的影响

为探讨城市化引起的土地利用变化对上海近地面气象要素和臭氧(O3)浓度的影响,运用美国国家大气研究中心等机构共同开发的WRF-Chem模式,在考虑扩大城市用地、运用城市冠层模式以及城市人为热影响的基础上,针对上海地区2个不同发展时期的下垫面土地利用类型,就2007年3次高浓度O3天气过程,设置4组灵敏性试验进行模拟。结果表明,以虹桥机场站为代表的市区受城市化影响温度升高、相对湿度降低、风速减小,日平均温度最高上升3.5℃,日平均相对湿度最大降低20%,日平均风速最大减小1.5m/s;但以青浦站和川沙站为代表的郊区受城市化影响不明显。此外,以卢湾站为代表的市区,O3浓度普遍增加,日均值最高可增加8.3μg/m3;但以川沙站和淀山湖站为代表的郊区,O3浓度的变化随着个例的不同有增加也有减少。     

掺硫改性TiO2对活性艳红X-3B的光催化降解性能研究

以硫脲为硫的源物质,以钛酸四丁酯为TiO₂的前驱体,采用溶胶-凝胶法制备了掺硫改性TiO₂光催化剂。以活性艳红X-3B为目标污染物,研究了该催化剂的光催化降解性能,对硫掺杂量、催化剂焙烧温度、溶液pH值以及催化剂添加量等影响因素进行了研究,并采用XRD分析手法对光催化剂进行表征。结果表明,经掺硫改性后的TiO₂的催化活性有了很大提高,且硫的掺杂有一个最佳值,即Ti∶S的摩尔比为1∶1。经掺硫改性的TiO₂在可见光区具备一定的催化活性, 180 min内对活性艳红X-3B的去除率可达35.1%,且在紫外光区的催化活性优于纯TiO₂。     

有效微生物和多功能复合微生物制剂生物强化提高化粪池粪便污泥减量效率研究

为了考察有效微生物(EM)和多功能复合微生物制剂(MCMP)对化粪池粪便污泥减量的强化效能,以化粪池粪便污泥为研究对象,采用中温(35℃)厌氧消化,研究EM和MCMP不同投加量(0~1.00%)对化粪池粪便污泥厌氧消化总固体(TS)、挥发性固体(VS)和COD的减量效果,考察EM和MCMP投加量与TS、VS和COD去除率间的相关关系。结果表明,投加0.005%~0.10%的EM和MCMP均有利于化粪池粪便污泥TS、VS和COD的去除;其中以投加0.01%的EM(E2处理)和0.01%的MCMP(M2处理)对TS、VS和COD的去除效果最好。E2处理TS、VS和COD的去除率分别为32.51%、42.34%和40.91%,分别比对照(CK)高5.83%、5.29%和7.13%;M2处理TS、VS和COD的去除率分别为33.74%、46.05%和43.33%;分别比CK高7.06%、9%和9.50%。对化粪池粪便污泥厌氧消化TS、VS和COD的减量作用效果表现为:MCMPEM。EM和MCMP的投加量与TS、VS和COD去除率间均存在一定的负相关关系;投加EM和MCMP的各处理的TS、VS和COD去除率两两间均表现为正相关关系。     

废弃马铃薯渣改性制备瓦楞纸板粘合剂研究

研究了胶体磨湿法超微粉碎及高压蒸气处理对废弃污染物——马铃薯渣粒径分布及颗粒破坏程度的影响,调节胶体磨齿间隙为12μm处理30 min,并结合高压蒸气121℃处理20 min的条件下,通过显微镜观察和激光粒度分析证明马铃薯渣颗粒粒径明显减小且分布更加均匀,细胞壁和纤维素被破坏,体现出胶粘剂的性质。进而通过氧化变性处理改善其流动性,并添加一系列的助剂,制得了一种瓦楞纸板用粘合剂,其主要性能均接近于目前广泛使用的淀粉基瓦楞纸板粘合剂。     

Adsorption of microcystin-LR from water with iron oxide nanoparticles

Adsorption of microcystin-LR (MC-LR) from water using iron oxide (alpha-Fe2O3) nanoparticles was investigated in this study. Adsorption of MC-LR adsorption was well-described by a pseudo second order kinetics model and Freundlich and Langmuir isotherm equations at 15 to 35 degrees C. Thermodynamic analysis showed that the Gibbs free energy was negative, whereas standard enthalpy and entropy changes were positive at this temperature range. These findings suggest that the adsorption of MC-LR on iron oxide nanoparticles was spontaneous and endothermic. The effects of initial pH, inorganic cations, and competing compounds with carboxyl groups on absorption of MC-LR were also evaluated. Typically, adsorption efficiency decreased with increasing pH from 2 to 11. Sodium ions did not appear to significantly affect MC-LR adsorption, whereas calcium ions slightly enhanced the MC-LR adsorption capacity of the iron oxide nanoparticles. Moreover, the inhibiting effect of competing organic compounds was increased with increasing numbers of carboxyl groups, as follows: citric acid (3)>oxalic acid (2)>benzoic acid (1).     

氨法脱硫洗涤液pH的计算模型

应用酸碱质子理论,根据质子平衡方程建立了氨法脱硫洗涤液相关离子浓度与pH的相关性模型,并对其影响因素进行了讨论。研究表明:脱硫洗涤液理论计算pH与实测的pH基本吻合。结合实验验证了影响洗涤液pH的硫元素存在形态与脱硫洗涤液pH之间的相图关系,并提出模型修正方法。模型可作为氨法脱硫洗涤液pH的合理计算方法。     

Impact of woodchip biochar amendment on the sorption and dissipation of pesticide acetamiprid in agricultural soils

Pyrolysis of vegetative biomass into biochar and application of the more stable form of carbon to soil have been shown to be effective in reducing the emission of greenhouse gases, improving soil fertility, and sequestering soil contaminants. However, there is still lack of information about the impact of biochar amendment in agricultural soils on the sorption and environmental fate of pesticides. In this study, we investigated the sorption and dissipation of a neonicotinoid insecticide acetamiprid in three typical Chinese agricultural soils, which were amended by a red gum wood (Eucalyptus spp.) derived biochar. Our results showed that the amendment of biochar (0.5% (w/w)) to the soils could significantly increase the sorption of acetamiprid, but the magnitudes of enhancement were varied. Contributions of 0.5% newly-added biochar to the overall sorption of acetamiprid were 52.3%, 27.4% and 11.6% for red soil, paddy soil and black soil, respectively. The dissipation of acetamiprid in soils amended with biochar was retarded compared to that in soils without biochar amendment. Similar to the sorption experiment, in soil with higher content of organic matter, the retardation of biochar on the dissipation of acetamiprid was lower than that with lower content of organic matter. The different effects of biochar in agricultural soils may attribute to the interaction of soil components with biochar, which would block the pore or compete for binding site of biochar. Aging effect of biochar application in agricultural soils and field experiments need to be further investigated.     

Effect of surfactants, dispersion and temperature on solubility and biodegradation of phenanthrene in aqueous media

In the present study surfactant addition with the help of either a mechanical dispersion or a thermal treatment was applied in order to increase the solubility and the bioavailability of phenanthrene in aqueous media, and therefore to promote its biodegradation. Among four tested surfactants (Tween 80, Brij 30, sodium dodecyl sulphate and rhamnolipids), Brij 30 (0.5 gL(-1)) showed the best results allowing us to attain about 20 mgL(-1) of soluble phenanthrene. An additional thermal treatment at 60°C for 24h, 200 rpm permitted to increase the solubility of phenanthrene in the presence of Brij 30 (0.5 gL(-1)) to about 30 mgL(-1). Higher dispersions of phenanthrene particles as well as the reduction of their size were obtained using Ultra-Turrax and French press. The biodegradation of phenanthrene by Pseudomonas putida was then investigated. The reduction of size of phenanthrene particles by mechanical dispersion did not influence its biodegradation, suggesting that P. putida consumed only soluble phenanthrene. The addition of Brij 30 (0.5 gL(-1)) permitted to obtain more phenanthrene metabolized. The use of Brij 30 coupled with a transitory heating of phenanthrene-containing medium at 60°C led to an even more complete biodegradation. This might be a promising way to enhance biodegradation of PAHs.     

Mitigation effects of silicon rich amendments on heavy metal accumulation in rice (Oryza sativa L.) planted on multi-metal contaminated acidic soil

The mechanisms of stabilization by silicon-rich amendments of cadmium, zinc, copper and lead in a multi-metal contaminated acidic soil and the mitigation of metal accumulation in rice were investigated in this study. The results from a pot experiment indicated that the application of fly ash (20 and 40 g kg⁻¹) and steel slag (3 and 6 g kg⁻¹) increased soil pH from 4.0 to 5.0-6.4, decreased the phytoavailability of heavy metals by at least 60%, and further suppressed metal uptake by rice. Diffusion gradient in thin-film measurement showed the heavy metal diffusion fluxes from soil to solution decreased by greater than 84% after remediation. X-ray diffraction analysis indicated the mobile metals were mainly deposited as their silicates, phosphates and hydroxides in amended treatments. Moreover, it was found metal translocation from stem to leaf was dramatically restrained by adding amendments, which might be due to the increase of silicon concentration and co-precipitation with heavy metals in stem. Finally, a field experiment showed the trace element concentrations in polished rice treated with amendments complied with the food safety standards of China. These results demonstrated fly ash and steel slag could be effective in mitigating heavy metal accumulation in rice grown on multi-metal contaminated acidic soils.