水稻土中铁-氮循环耦合体系影响镉活性机理研究

关于铁-氮循环耦合体系对镉(Cd)活性影响的研究目前尚鲜见报道.本文采用淹水培养试验,研究不同硝酸根(NO_3~-)、铵根(NH_4~+)处理条件下,南方典型Cd污染水稻土中铁氧化还原与氮形态转化耦合关系及其对Cd活性影响的机理.结果表明:随着培养时间延长,不同处理的pH值逐渐向7.0靠拢,Eh值由273~321 mV持续下降至118~132 mV,pe+pH值(e-活度的负对数值与H+活度的负对数值之和)从10.62~11.19持续下降至8.55~8.83,土-水体系处于中度还原条件;化学反硝化(Chemodenitrification)和NO_3~-依赖的厌氧铁氧化过程(Microbial NO_3~--dependent FeIIoxidation,NDFO)生成无定形氢氧化铁(Fe(OH)_3(amorp)),其对Cd~(2+)专性吸附及与Cd~(2+)共沉淀降低了有效态Cd浓度,加之pH值上升增大Cd~(2+)在土壤固相表面的吸附量,导致水稻土中Cd活性下降;NH_4~+被Fe(OH)_3(amorp)厌氧氧化(Anaerobic NH_4~+oxidation coupled to FeIII reduction,Feammox)会消耗H+而提高体系的pH值,在一定程度上会降低Cd活性,但其自身与Cd~(2+)对土壤固相表面吸附位点的竞争,可能会更大程度地减少Cd~(2+)在土壤固相表面的吸附量,而导致Cd活性提高.本研究成果可为丰富和拓展水稻土中Cd的生物地球化学理论,并为南方Cd污染农田修复及治理提供科学依据.     

Bi2WO6可见光催化降解染料废水实验研究

采用水热法合成了新型的可见光催化剂Bi2WO6,以活性蓝M-2GE染料废水为目标污染物,研究了催化剂的用量、污染物初始浓度、溶液pH、盐效应等因素对光催化降解效果的影响.结果表明,在优化实验条件下(催化剂的投加量为3g·L-1、pH值中性偏酸性、反应90min),对目标污染物的去除率可达到99%;溶液中盐浓度的增加对降解有抑制作用;催化剂对不同初始浓度活性蓝M-2GE染料的去除过程遵循一级动力学方程;催化剂重复使用后催化效果有所下降,但仍然可以保持在90%左右.因此,用水热法合成的催化剂Bi2WO6具有良好的可见光活性.     

Bi2WO6催化剂的合成和表征及其光催化活性

以Bi（NO3）3和Na2WO4为原料,采用水热法合成了可见光催化剂Bi2WO6,并采用X射线衍射仪和BET法对其进行了表征。考察了合成温度、Bi2WO6加入量、邻氯苯酚（2-CP）浓度、溶液pH等对2-CP光催化降解效果的影响。实验结果表明：在加入140℃下合成的Bi2WO6催化剂1g／L、原始pH（pH=5．85）、可见光光照210min的条件下,对质量浓度为20mg／L的2-CP溶液进行处理,2-CP去除率最高为97．2％;添加少量H2O2对2-CP的降解有促进作用。     

淹水还原作用下土壤镉的吸附与解吸特征的初步探讨

利用黄棕壤发育的水稻土(pH6.53),设置6个不同处理恒温(25±0.1)℃培养20d,初步探讨了3种还原强度土壤对Cd的吸附和解吸特征。试验数据显示:强度还原土壤,Eh和pH降低并稳定在-474mV和5.02水平,Cd吸附率由开始时的99.96%下降到94.70%,Cd解吸率平均为90.01%;中度还原土壤,Eh下降至-90mV左右,pH略有上升,Cd吸附率和解吸率平均分别为99.96%和66.09%;氧化态土壤的Eh、pH和Cd解吸率变化都比较小,平均分别为400.4mV、6.11和46.78%。此结果表明,处于不同还原状况下的土壤表面对Cd吸附和解吸有所差别;强度还原土壤对外源Cd的吸附率小于中度还原土壤对外源Cd的吸附率;土壤吸附外源Cd的解吸率,由大到小的次序依次为强度还原土壤,中度还原土壤,氧化状态土壤;还原程度越强,土壤对Cd的吸附率越低,Cd的解吸率也越高;还原条件下土壤Eh、pH、交换性亚铁和水溶性有机质含量是影响土壤Cd吸附和解吸的主要因素。     

厌氧反应器的发展及ABSBR的工艺特点

新型高效厌氧反应器的发展使生活污水的厌氧处理成为可能.介绍了ABSBR(恒水位操作厌氧生物膜序批式反应器,Anaerobic Biofilm Sequencing Batch Reactor)的工艺特点,并对其处理生活污水进行了初步研究.试验结果表明,ABSBR工艺是活性污泥法与生物膜法的结合,具有强的生物固体截留能力...     

Studies on relationships between air pollutants and allergenicity of Humulus Scandens pollen collected from different areas of Shanghai

Pollen pollution and allergy are becoming prominent issues in China. However, few studies on pollinosis have been reported. As an allergen in the atmosphere, allergenic Humulus scandens pollen was collected from four districts of Shanghai, including Wusong (WS), Jiading (JD), Xujiahui (XJH) and Songjiang (SJ). The mass concentrations of SO₂, NO₂, O₃, PM_10, and PM_2.5 (particulate matter with air dynamic diameter less than 10 and 2.5 µm, respectively) near the four sampling sites were also recorded during Humulus scandens pollen season. The allergenicity of the Humulus scandens pollen was assessed by using of a rat model and enzyme linked immunosorbent assay (ELISA). Relationships between the allergenicity and air pollutants were correlated. Our results demonstrated that the biological viability of the pollens collected from the four districts exhibited no significant differences. ELISA and dot blotting results further demonstrated that the serum of sensitized rats exhibited much higher immune-reactive response than that of control groups. Western blotting showed that the 15 KD (1KD = 1000 dalton) proteins of Humulus pollen led to the allergic response. The allergenic intensity of Humulus pollen protein from different samples followed the pattern: WS > JD > XJ > SJ. There was a negative relationship between the allergenicity of Humulus pollens and PM₁₀ (R = -0.99) / PM_2.5 (R = -0.73), and a positive relationship with O₃ (R = 0.92). These data clearly showed that PM₁₀ and PM_2.5 could enhance Humulus pollen protein release, and O₃ could aggravate the allergenicity of the Humulus pollen.     

Influence of phosphate on deposition and detachment of TiO2 nanoparticles in soil

We examined influence of phosphate on transport of TiO₂ NPs in soil. Deposition was reduced at higher pH and by adsorption of phosphate in soil. Release was more for NPs initially deposited at higher pH. Release was more for NPs initially deposited in the presence of phosphate. Surface roughness and charge heterogeneity play a role in the deposition/ release. The widespread use of TiO₂ nanoparticles (NPs) makes inevitable their release into the soil. Phosphate is also widespread within soil, and is likely copresent with TiO₂ NPs. However, the influence of phosphate on deposition/release— and thereby on transport— of TiO₂ NPs in soil is yet to be elucidated. In this study we conducted saturated column experiments to systematically examine the transport of TiO₂ NPs in soil amended with phosphate at different ionic strengths (ISs) (1, 10, 100 mmol/L NaCl) and pHs (4 and 9). Results show that the deposition of TiO₂ NPs decreased with decreasing IS, increasing pH, and when soil absorbed phosphate. These observations are qualitatively in agreement with Derjaguin-Landau-Verwey-Overbeek (DLVO) interaction energy calculations, because the repulsive energy barrier is larger and secondary minimum depth is smaller at a lower IS, higher pH, and in the presence of phosphate. Accordingly, both primary- and secondary-minimum deposition were inhibited. Interestingly, although the deposition was less at higher pH and in the presence of phosphate, the subsequent spontaneous detachment and detachment by reduction of solution IS in these cases were greater. In addition, the presence of phosphate in the solution can cause a small quantity of attached TiO₂ NPs to detach, even without perturbations of physical and chemical conditions. Our study was the first to investigate the influence of phosphate on detachment of TiO₂ NPs and the results have important implication for accurate prediction of fate and transport of TiO₂ NPs in subsurface environments.     

关于电气安全工程学学科的思考

以“环境系统人”作为电气安全工程学的研究对象 ,通过对环境、系统、人各个要素及相互之间关系的分析 ,详细探讨了电气安全工程学的研究内容 ,并对学科今后的新的研究领域提出建议。     

浅谈利用水源热泵技术回收钢铁厂循环水余热

钢铁厂存在大量的低热工业循环水,对这部分热能的再利用有利用于节能减排并为企业创造效益,与传统的锅炉供暖相比没有燃烧过程,不排放废气、废水、废渣,符合可持续发展和环保的要求,节能和环境效益十分明显,更具有推广价值.     

Cytotoxicity and autophagy induction by graphene quantum dots with different functional groups

Graphene quantum dots(GQDs) possess great potential in various applications due to their superior physicochemical properties and wide array of available surface modifications.However, the toxicity of GQDs has not been systematically assessed, thus hindered their further development; especially, the risk of surface modifications of GQDs is largely unknown. In this study, we employed a lung carcinoma A549 cells as the model to investigate the cytotoxicity and autophagy induction of three types GQDs, including cGQDs(COOH-GQDs), hGQDs(OH-GQDs), and aGQDs(NH_2-GQDs). The results showed hGQDs was the most toxic, as significant cell death was induced at the concentration of 100 μg/mL,determining by WST-1 assay as well as Annexin-V-FITC/PI apoptosis analysis, whereas cGQDs and aGQDs were non-cytotoxic within the measured concentration. Autophagy detection was performed by TEM examination, LC3 fluorescence tracking, and Westernblot. Both aGQDs and hGQDs induced cellular autophagy to various degrees except for cGQDs. Further analysis on autophagy pathways indicated all GQDs significantly activated p-p38 MAPK; p-ERK1/2 was inhibited by aGQDs and hGQDs but activated by c GQDs. p-JNK was inhibited by aGQDs and c GQDs, while activated by hGQDs. Simultaneously, Akt was activated by hGQDs but inhibited by aGQDs. Inhibition of autophagy by 3-MA significantly increased the cytotoxicity of GQDs, suggesting that autophagy played a protective role against the toxicity of GQDs. In conclusion, c GQDs showed excellent biocompatibility and may be considered for biological applications. Autophagy induction may be included in the health risk assessment of GQDs as it reflects the stress status which may eventually lead to diseases.