一种多介质层波形潜流人工湿地处理重污染河水试验

我国河流污染严重,城市黑臭水体的比率日益增加。人工湿地作为一种高效低耗能的绿色处理技术,已被广泛应用于污染河水的治理。通过对比分析分层装填复合填料的多介质层波形潜流人工湿地和单一砾石填料的普通人工湿地处理重污染河水的效果,研究了特种基质填料强化脱氮除磷作用以及不同水力负荷条件的影响。试验结果表明:在水力负荷为0.2 m~3/(m~2·d)时,普通湿地对COD、NH3-N、TN和TP的去除率分别达到55.95%、77.85%、39.80%和54.94%;多介质层湿地对COD、NH3-N、TN和TP的去除率分别达到58.52%、75.99%、67.08%和57.31%。在水力负荷为0.5 m~3/(m~2·d)时,普通湿地对COD、NH3-N、TN和TP的去除率分别达到68.46%、90.73%、42.13%和53.70%;多介质层湿地对COD、NH3-N、TN和TP的去除率分别达到69.61%、89.94%、77.58%和68.63%,其脱氮效果明显好于普通湿地。以复合填料包分层装填的波形潜流人工湿地系统具有良好的脱氮除磷效果,有很好的推广应用价值。     

铁锰氧化物/坡缕石复合材料吸附磷的性能

将铁锰氧化物与坡缕石黏土结合制备了复合材料FO/P、MO/P和FMO/P,由静态吸附实验研究了复合材料吸附磷的性能,考察了氧化物与坡缕石质量比、焙烧温度、溶液p H值、离子强度和振荡时间对吸附量的影响,探讨了吸附动力学、吸附平衡和机理。结果表明,FMO/P的吸附性能优于FO/P和MO/P,铁锰氧化物与坡缕石黏土的质量比为0.1的FMO/P对20mg/L的磷溶液去除率可达95%,吸附量明显受溶液p H的影响,离子强度对吸附量影响较小,磷吸附在复合材料表面主要形成内层络合物,60 min可基本达吸附平衡,过程符合pseudo-second-order方程,具有化学吸附的性质,FMO/P吸附等温线符合Freundlich方程,有不均匀吸附的性质,饱和吸附量达49 mg/g。     

军绿有机涂层破损腐蚀行为研究

目的研究不同破损程度下军绿有机涂层的腐蚀行为,确定破损率对其防护性能变化的影响。方法通过人工制作不同的破损率,并利用电化学阻抗谱技术,研究不同破损程度下军绿有机涂层的电化学特征。结果根据不同破损程度下的军绿有机涂层的电化学特征,确定了涂层从完好到失效的四个阶段,初始完好阶段(破损率K≤0.0004%)、破损增大阶段(0.0016%K≤0.04%)、破损过大阶段(0.16%K≤1%)和失效阶段(4%K≤16%)。结论破损率K为0.04%的点是该涂层防护性能急转直下的转折点,因此破损率K大于0.04%时,应及时对车辆表面涂层进行修补和防护。     

多层阻尼复合板常温贮存5年性能研究

目的分析多层阻尼复合板常温贮存5年的性能变化。方法对多层阻尼复合板进行常温下贮存5年的减振性能研究,通过贮存前后的正弦扫描试验和随机振动试验,获得贮存前后多层阻尼复合板的减振性能和模态变化,进行对比分析。结果阻尼复合板常温贮存5年后,径向模态有较大的下降,法向模态变化较少,组件上的加速度响应基本无变化。结论该多层阻尼复合板常温贮存5年后仍然满足要求。     

聚合氯化铁-聚(环氧氯丙烷-二甲胺)复合絮凝剂在模拟水处理中的混凝特性研究

制备出一系列具有不同聚合氯化铁(PFC)的碱化度(B)、不同聚(环氧氯丙烷-二甲胺)[P(EPI-DMA)]质量分数[ω(E)]和黏度(η)的PFC-P(EPI-DMA)复合混凝剂,并将其用于模拟染料废水和模拟天然地表水的絮凝脱色处理,对比探讨了ω(E)、η和B对PFC-P(EPI-DMA)中铁的形态分布及其混凝效果的影响,以及混凝作用机制.结果表明,复合絮凝剂中铁的有效形态含量随ω(E)的增大而不断降低;η=850 mPa.s时,复合混凝剂中铁的有效形态含量最高;随B值的增大,Feb含量先增大后减少,而Fec含量逐渐增大.一定程度上使用预水解程度较低、有机成分黏度较大的PFC-P(EPI-DMA)有利于混凝效果的提高,复合混凝剂中有机成分质量分数对混凝效果的影响则与处理对象有关.在模拟水处理中,复合混凝剂依靠电性中和及架桥吸附能力发挥混凝特性.     

二氧化钛复合型催化剂制备及其微波辅助催化氧化甲苯性能

实验采用溶胶凝胶法和传统浸渍法制备了TiO2-分子筛复合载体及复合载体负载过渡金属与稀土元素催化剂,通过微波辅助催化氧化甲苯的性能实验考察其催化活性.结果表明,复合TiO2明显提高了载体结构的稳定性与耐温性,并使过渡金属铜(Cu)、锰(Mn)和稀土元素铈(Ce)等活性组分在催化剂表面的分散更均匀;在复合载体吸附、吸波性能与多相活性组分催化的共同作用下,Cu-Mn-Ce/TiO2-分子筛催化剂微波辅助催化氧化甲苯的完全燃烧温度仅为175℃,此时甲苯去除率可达99％;15 h的连续性实验表明,TiO2复合型催化剂具有良好的催化活性与稳定性.由催化剂表征分析结果可知,活性组分颗粒的均匀分布与铜、锰氧化物及铜锰尖晶石固溶物等活性相的存在促进了甲苯的催化氧化,锐钛矿型TiO2较高的电子迁移速率与催化剂孔径的增大均有助于甲苯的氧化降解.     

Photocatalytic degradation of carbofuran in TiO2 aqueous solution：Kinetics using design of experiments and mechanism by HPLC/MS/MS

The photocatalytic degradation kinetics of carbofuran was optimized by central composite design based on response surface methodology for the first time. Three variables, TiO2 concentration, initial pH value and the concentration of carbofuran, were selected to determine the dependence of degradation efficiencies on independent variables. Response surface methodology modeling results indicated that the degradation efficiency of carbofuran was highly affected by the initial pH value and the concentration of carbofuran. Then nine degradation intermediates were detected by HPLC/MS/MS. The Frontier Electron Densities of carbofuran were calculated to predict the active sites on carbofuran attacked by hydroxyl radicals and photoholes. Point charges were used to elucidate the chemisorption pattern on TiO2 catalysts during the photocatalytic process. By combining the experimental results and calculation data, the photocatalytic degradation pathways of carbofuran were proposed, including the addition of hydroxyl radicals and the cleavage of the carbamate side chain.     

Transformations of particles, metal elements and natural organic matter in different water treatment processes

Characterizing natural organic matter （NOM）, particles and elements in different water treatment processes can give a useful information to optimize water treatment operations. In this article, transformations of particles, metal elements and NOM in a pilot-scale water treatment plant were investigated by laser light granularity system, particle counter, glass-fiber membrane filtration, inductively coupled plasma-optical emission spectroscopy, ultra filtration and resin absorbents fractionation. The results showed that particles, NOM and trihalomethane formation precursors were removed synergistically by sequential treatment of different processes. Preozonation markedly changed the polarity and molecular weight of NOM, and it could be conducive to the following coagulation process through destabilizing particles and colloids; mid-ozonation enhanced the subsequent granular activated carbon （GAC） filtration process by decreasing molecular weight of organic matters. Coagulation-flotation and GAC were more efficient in removing fixed suspended solids and larger particles; while sand-filtration was more efficient in removing volatile suspended solids and smaller particles. Flotation performed better than sedimentation in terms of particle and NOM removal. The type of coagulant could greatly affect the performance of coagulation-flotation. Pre-hydrolyzed composite coagulant （HPAC） was superior to FeCl3 concerning the removals of hydrophobic dissolved organic carbon and volatile suspended solids. The leakages of flocs from sand-filtration and microorganisms from GAC should be mitigated to ensure the reliability of the whole treatment system.     

中心组合设计优化S-Cr-TiO2催化剂光降解工艺条件

在确定的温度和光照条件下,采用中心组合设计法研究了固相反应法合成的硫与铬共掺杂二氧化钛(S-Cr-TiO2)光催化剂与水溶苯胺蓝(ANB)可见光降解过程中的三个作用因子:催化剂的浓度、水溶苯胺蓝水溶液的pH值及其初始浓度之间的相互作用关系,得到了影响因子与降解速率之间的回归方程及因素之间相互作用的响应面图.结果表明,S...     

石墨-活性炭纤维复合电极电吸附处理含盐废水的研究

高盐废水是目前水处理领域的难点,作为一种新型的除盐技术,电吸附技术具有众多优点.本文研究了一种新型碳基复合材料,石墨-活性炭纤维复合电极,并考察了其应用于电吸附的影响因素和除盐效果.在电压为1.6 V,停留时间为60min,极板间距为1 cm时电吸附装置的除盐效果最优.用其分别对精制棉黑液和叶绿素铜钠废水进行了处理.电极对数为8对时对经酸析处理后的精制棉黑液的电导率和COD的去除率分别达到58.8%和75.6%;电极对数为6~8时对叶绿素铜钠生产废水的电导率的去除率能超过50.0%,COD的去除率约为13.5%.