可渗透反应复合电极法对铬(Ⅵ)污染土壤的电动修复

将Fe0、沸石等活性材料附着在电极上构成可渗透反应复合电极,以Cr(Ⅵ)污染土壤为处理对象,对电动修复过程中可渗透反应复合电极法对土壤pH的控制、Cr的去除效果以及形态变化进行了研究.结果表明,添加可渗透反应材料的复合电极法比单一电极法无论在土壤pH控制还是Cr的去除方面都有明显的改善和提高,其中以在阳极同时添加Fe0和沸石效果最为显著.在施加2 V.cm-1的直流电压,运行5 d后,相比在阳极单纯添加沸石或Fe0可渗透反应层,添加"Fe0+沸石"反应层能在最大程度上减小阳极土壤pH值的波动,可将土壤pH值控制在5.5～8.5范围内,土壤中任意位置Cr(Ⅵ)的去除率可提高到97%以上,土壤中残留的Cr(Ⅲ)更少,可渗透反应层对Cr的截留量可分别提高8倍和1.8倍,并将98%的Cr(Ⅵ)转化为低毒的Cr(Ⅲ).研究结果为开发具有实用意义的可渗透反应复合电极修复技术提供了理论依据.     

新型电极体系电解处理高浓度酸性TNT废水的研究

通过大量试验研究了电解处理TNT废水的条件,尤其是筛选、制备了多种电极材料,在三维电极体系,低电流、短时间条件下电解处理TNT的去除率达到95%以上,pH值提高至6以上,大大节省了能源,为火炸药工业酸性TNT废水的处理提供了一种新型有效的处理方法.用本方法对实际工业"黄水"进行电解处理,获得了较为满意的效果.     

铁和铝氧化物涂层砂的过滤与吸附性能评价

总结性地对3种不同氧化物涂层砂和未涂层砂的表面特性、过滤和吸附性能进行了比较与分析,明确了适用范围。改性滤料的高温加热和碱性沉积两种制备方法中,涂铁宜选前者,涂铝宜用后者。涂层砂的比表面积增大,吸附容量增加,使石英砂表面电荷的带电性质改变,有利于水中杂质的去除。涂铁砂适合于除氟和除砷及除有机物;涂铝砂适合于除浊、除有机物和除锌。     

掺硼金刚石薄膜电极在水处理中应用的研究进展

掺硼金刚石(BDD)薄膜电极作为一种新型的电极材料,在水溶液中电解时具有较宽的电位窗口,在浓酸浓碱中具有很好的耐腐蚀性,其表面不易吸附污染物,与它的同素异构体电极及其他普通电极相比,具有更好的化学、物理性能,从而表现出潜在的功能,近年来被科研人员用于废水处理,并取得了很好的处理效果,对近期BDD薄膜电极的制备、在污水处理中的应用及其进展进行了总结与讨论.     

Different behaviours in the solubilization of polycyclic aromatic hydrocarbons in water induced by mixed surfactant solutions

Water solubility of polycyclic aromatic hydrocarbons (PAHs), viz, naphthalene and phenanthrene, in micellar solutions at 25 °C was investigated, using two series of different binary mixtures of anionic and nonionic surfactants. Tween 80 and Brij-35 were used as nonionic surfactants whereas fatty acids or amphiphilic cyclodextrins (Mod-β-CD) synthesized in our laboratory were used as anionic ones. Solubilization capacity has been quantified in terms of the molar solubilization ratio and the micelle-water partition coefficient, using UV-visible spectrophotometry. Anionic surfactants exhibited less solubilization capacity than nonionics. The mixtures between Tween 80 and Mod-β-CD did not show synergism to increase the solubilization of PAHs. On the other hand, the mixtures formed by Tween 80 and fatty acids at all mole fractions studied produced higher enhancements of the solubility of naphthalene than the individual surfactants. The critical micellar concentration of the mixtures of Tween 80/sodium laurate was determined by surface tension measurements and spectrofluorimetry using pyrene as probe. The system is characterized by a negative interaction parameter (β) indicating attractive interactions between both surfactants in the range of the compositions studied.     

Mechanisms and chemistry of dye adsorption on manganese oxides-modified diatomite

The investigations into structural changes which occur during adsorbent modification and the adsorption mechanisms are essential for an effective design of adsorption systems. Manganese oxides were impregnated onto diatomite to form the type known as δ-birnessite. Initial investigations established the effectiveness of manganese oxides-modified diatomite (MOMD) to remove basic and reactive dyes from aqueous solution. The adsorption capacity of MOMD for methylene blue (MB), hydrolysed reactive black (RB) and hydrolysed reactive yellow (RY) was 320, 419, and 204 mg/g, respectively. Various analytical techniques were used to characterise the structure and the mechanisms of the dye adsorption process onto MOMD such as Fourier transform infrared (FTIR), X-ray diffraction (XRD) and atomic absorption spectrometry (A.A.). A small shift to higher values of the d-spacing of dye/MOMD was observed indicating that a small amount of the dye molecules were intercalated in the MOMD structure and other molecules were adsorbed on the external surface of MOMD. Two mechanisms of dye adsorption onto MOMD were proposed; intercalation of the dye in the octahedral layers and adsorption of the dye on the MOMD external surface. Moreover, the results demonstrated that the MOMD structure was changed upon insertion of MB and RY with an obvious decrease in the intensity of the second main peak of the MOMD X-ray pattern.     

Photoelectrocatalytic degradation of recalcitrant organic pollutants using TiO2 film electrodes: an overview

Photoelectrocatalytic (PEC) technology involved applying an electrical bias to a TiO₂ film electrode, has been widely applied to the degradation of refractory organic pollutants, owing to its high degradation efficiency. This paper reviews recent developments in the PEC degradation of recalcitrant organic contaminants using a TiO₂ film electrode. The preparation and application of various TiO₂ film electrodes have been investigated, as well as the parameters that influence PEC activity such as the crystal structure, the film thickness and substrate material, the applied electrical bias, the solution pH and conductivity. The improvement of PEC activity by doping the TiO₂ film electrode with metal and non-metal ions has been discussed. The mechanism and kinetics for the PEC degradation of organic pollutants have also been highlighted.     

Electrochemical oxidation of benzene on boron-doped diamond electrodes

This work presents an electrochemical investigation of the benzene oxidation process in aqueous solution on boron-doped diamond (BDD) electrodes. Additionally, in order to determine the main products generated during the oxidation process, electrolysis and high performance liquid chromatography experiments were carried out. The complete degradation of this compound was performed aiming to a further application in waste water treatment. The cyclic voltammetry studies indicate that benzene is irreversibly oxidized in acid medium (H₂SO₄ 0.5 M) on the BDD electrode surface at 2.0 V versus Ag/AgCl in a diffusion controlled process. During the cycling, other products are generated, and a pair of peaks was observed that can be associated with the oxi-reduction of anyone of the following species: hydroquinone, benzoquinone, resorcinol or catechol. The electrolysis experiments were carried out at 2.4 and 2.5 V on the BDD electrode surface in a solution containing 1 × 10⁻² M of benzene (below the saturation concentration in aqueous solution), for 3 and 5 h, respectively. The main products measured were: hydroquinone, resorcinol, p-benzoquinone, catechol and phenol. The complete electrochemical benzene degradation was performed in the electrolysis experiments using a rotating BDD disc electrode (2.5 V for 5 h) and the main products detected were all measured at concentrations lower than 10⁻⁵ M in this condition. The boron-doped diamond electrode had proved to be a valuable tool for the electrochemical degradation of the benzene, a very stable chemical compound.     

丽江市古城区污水处理厂扩建工程的启动调试及运行

丽江市污水处理厂扩建工程处理规模为1万m3/d,采用了改良型ICEAS工艺。该污水处理系统的启动调试内容,包括调试前的准备工作以及活性污泥的培养与驯化。活性污泥培养驯化历时50 d左右,活性污泥絮体基本形成,生物相基本稳定,处理效果显著,出水各项指标达标。在进水BOD低营养源不足的不利条件下,成功完成了该污水处理厂的启动调试和活性污泥培养驯化,对指导污水厂的调试运行有着重要的意义。     

改性天然高分子絮凝剂的研究与应用现状展望

改性天然高分子絮凝剂因具有原料来源广泛、价值低廉、无毒、易于生物降解、无二次污染等优点，受到了国内外众多研究工作者的重视和开发应用。本文扼要的介绍了国内近年来的改性天然高分子絮凝剂方面的研究和应用情况，对其前景进行了展望，并就我国今后在此方面的研究工作提出了一些建议。