污水稳定塘污泥降解规律的研究

选择具有代表性的污水稳定塘,测量和分析了其污泥的淤积情况和降解规律。研究结果表明:污泥在稳定塘中的纵深分布随污泥深度的增加,总固体逐渐增加,而挥发性固体逐渐减少;稳定塘中的污泥降解符合由室内静态模拟得出的污泥降解规律的数学模型。      

光和微生物降解对芦苇落叶溶解有机物与铅相互作用的影响

溶解有机物（DOM）是决定水环境中铅（Pb）的形态、环境行为和生态风险的重要因子.然而,落叶DOM与Pb（II）络合作用的调控机制尚不清楚.光和微生物降解是调控DOM含量、组成与活性的两个关键过程.本研究运用降解培养实验、光谱学表征和荧光猝灭滴定,考察光和微生物降解单独作用和共同作用对芦苇落叶DOM的改造及其对DOM与Pb（II）相互作用的影响.激发-发射三维荧光光谱-平行因子分析共识别出4个类腐殖质组分（C1~C4）和1个类蛋白质组分（C5）.类腐殖质组分更容易被光降解,类蛋白质组分则被微生物优先利用,光降解在短期的光-微生物降解过程中起主导作用.对于原始落叶DOM,Pb（II）主要与类腐殖质组分C1、C2和C4络合,C3组分只在光-微生物降解后的样品呈现显著荧光猝灭,类蛋白质组分C5在光和光-微生物降解后开始参与络合.类腐殖质C1与Pb（II）络合的条件稳定常数logK_M在光降解后升高而在光-微生物降解后下降,C2和C4的logK_M值经过各降解过程后均升高.降解后这3个组分参与络合的比例f和络合容量F_max·f均显著降低,且光降解的影响显著高于微生物降解.这些结果表明,光降解和微生物降解对DOM丰度、组成和结构的改造将显著影响其与金属离子的络合稳定性和络合容量.     

重金属离子对酵母降解苯酚的影响

研究了铜、镉、锌和铅对酵母 (Pityrosporumsp .)降解苯酚的影响 .急性毒性试验表明 :Cu2 36h时对菌体生物量的毒性抑制微低于对苯酚降解的抑制 ;48h时对菌体生物量的毒性高于对苯酚降解的毒性 .受试时间段 ,Cd2 对菌体生物量的毒性均高于其对苯酚降解的毒性 .在 0— 36h内 ,Cu2 对菌体比增长速率的EC50 是 45 0nmol·l- 1 ,对苯酚降解速率的EC50 是 0 32nmol·l- 1 ;Cd2 相应的EC50 分别是 681nmol·l- 1 和 33 3nmol·l- 1 .Cu2 比Cd2 具有更高的毒性 .而锌和铅在低浓度时 ,对酵母降解苯酚过程中菌体生物量以及苯酚的降解均有促进作用 ,其促进作用随着金属离子浓度的增加而减弱 .     

CF2ClBr的火花等离子体降解

对用等离子体降解ＣＦ２ＣｌＢｒ进行了初步研究,产物主要用气相色谱分析。在ＣＦ２ＣｌＢｒ的强为２．６７×１０＾３Ｐａ时获得了９０％左右的解离率,主要降解产为ＣＦ３Ｃｌ,Ｂｒ２,ＣＦ４,ＣＦ２Ｃｌ２。另外,从热力学上对产物进行了解释,得出了产总是朝使体系更稳定的方向生成的结论。     

Degradation of atrazine by catalytic ozonation in the presence of iron scraps: performance,transformation pathway,and acute toxicity

Degradation of atrazine by catalytic ozonation in the presence of iron scraps (ZVI/O₃) was carried out. The key operational parameters (i.e., initial pH, ZVI dosage, and ozone dosage) were optimized by the batch experiments, respectively. This ZVI/O₃ system exhibited much higher degradation efficiency of atrazine than the single ozonation, ZVI, and traditional ZVI/O₂ systems. The result shows that the pseudo-first-order constant (0.0927?min^?1) and TOC removal rate (86.6%) obtained by the ZVI/O₃ process were much higher than those of the three control experiments. In addition, X-ray diffraction (XRD) analysis indicates that slight of γ-FeOOH and Fe₂O₃ were formed on the surface of iron scrap after ZVI/O₃ treatment. These corrosion products exhibit high catalytic ability for ozone decomposition, which could generate more hydroxyl radical (HO^?) to degrade atrazine. Six transformation intermediates were identified by liquid chromatography-mass spectrometry (LC-MS) analysis in ZVI/O₃ system, and the degradation pathway of atrazine was proposed. Toxicity tests based on the inhibition of the luminescence emitted by Photobacterium phosphoreum and Vibrio fischeri indicate the detoxification of atrazine by ZVI/O₃ system. Finally, reused experiments indicate the approving recyclability of iron scraps. Consequently, the ZVI/O₃ system could be as an effective and promising technology for pesticide wastewater treatment.     

厌氧型甲烷氧化菌降解煤吸附甲烷实验研究

以贵州六枝特区龙岭煤矿大巷中泥样作为厌氧型甲烷氧化菌富集源,以甲烷作为培养过程中唯一碳源,从中筛选出可以在低氧(1.99%)或无氧条件下对甲烷具有较高降解效能的菌种,并自主开发出甲烷氧化菌降解煤吸附甲烷实验分析系统。实验结果表明,在压力为1~5 MPa范围内无论是低氧或无氧状况下,甲烷压力越大越有利于其降解;稀氧条件下煤样对甲烷的吸附量相对于纯甲烷气体吸附量有所降低,然而在同等压力条件下稀氧环境中二氧化碳的增加量及甲烷的降解率都要明显大于无氧条件下,低氧状况下甲烷的最高降解率为47%,最大二氧化碳生成量可达40 cm^3。     

E‐waste in the world today: An overview of problems and a proposal for improvement in Brazil

Environmental issues have been at the center of society's concerns for a long time. Recently, this kind of concern is growing even more due to the damage caused to the environment by electrical and electronic product waste. Based on this same concern, this work aimed to analyze, through a literature review, the production and treatment of electronic waste in today's world, with an emphasis on Brazil and China. The articles reviewed point to an increase in the production of this type of waste, in both Brazil and China, and reveal that the current processes of treatment of electronic waste mostly aim to obtain profit through the recovery of precious metals such as copper. This paper concluded that although Brazil is one of the major producers of e‐waste, more than 90% of its e‐waste has not had a proper final destination. This deficiency in e‐waste treatment in Brazil is mainly due to financial factors and the lack of a robust educational policy focused on the environment. Thus, this work suggests the implementation of an effective educational policy aimed at environmental conservation, as well as investments in research on recycling methods in Brazil, especially on the use of e‐waste as an aggregate in the manufacture of concrete.     

在役悬索管道抗风性能研究及结构退化分析*

为提高在役成品油悬索跨越管道结构及性能的可靠性,保障长输油气管道生产运营的安全,建立某在役成品油悬索跨越管道的有限元力学仿真模型,研究风载荷对悬索跨越管道的影响作用,探讨主索、吊索等主要构件性能退化时对悬索管道安全性的影响规律。结果表明:通过有限元模拟可以得到管道失效风速为60 m/s,远大于极限风速,且涡激振动振幅很小;主索腐蚀、吊索断裂以及是否存在抗风索这3种情况均能影响结构的安全性。相关企业应当对结构的重要构件进行定期检修,以保障生产运营安全。     

不同前处理方式对铁屑还原降解土壤中对硝基苯酚的影响

为推动铁屑在治理受硝基酚类化合物污染土壤中的实际应用,常温(25±1℃)常压下,利用不同前处理方式处理的铁屑、还原铁粉对土壤中的对硝基苯酚(p-NP)进行了还原降解研究;分析了土壤部分理化性质对p-NP还原效果的影响;并对反应时间、铁屑用量和土壤含水量3个人工易控因素作了最优化选择。结果表明:铁屑和铁粉对p-NP还原降解效果影响的大小顺序为:酸洗铁屑还原铁粉水洗铁屑碱洗铁屑;适中的土壤含水量、偏酸性的土壤初始pH值及较高的土壤有机质含量均可显著提高铁屑对p-NP的还原率;正交实验结果显示反应时间对p-NP还原效果影响最大,铁屑用量次之,土壤含水量最小;处理1.5 g p-NP浓度约为1.3×10-5mol/g的模拟污染土壤的反应最优化条件为:酸洗铁屑用量26 mg,土壤含水量0.35 mL,反应时间130 m in,还原率可达到96.4%。     

催化臭氧氧化染料溶液的研究

采用催化臭氧化技术降解染料废水,以甲基紫溶液为目标污染物,研究了过渡型金属离子的类型,Fe2+的浓度,溶液初始pH值,染料浓度和正丁醇等因素对其降解率的影响。实验结果表明:臭氧氧化甲基紫溶液的过程中,加入一定浓度的过渡型金属离子对甲基紫的去除具有促进作用;当臭氧浓度为16 mg/L,一定浓度范围内,Fe2+催化臭氧化的效果随着浓度的增加而增加,但Fe2+浓度为13 mg/L时,甲基紫的降解率下降;在酸性范围时,pH值增大其降解率会减小;染料浓度增加,甲基紫的降解率减小,但是其绝对降解值会增加;正丁醇的加入抑制氧化反应的进行,甲基紫的降解率下降,说明催化臭氧化过程中有羟基自由基产生。染料降解过程符合一级反应动力学规律。