微电解—芬顿氧化工艺预处理高浓度松香改性酚醛树脂生产废水

为了降低松香改性酚醛树脂生产废水的COD并改善其可生化性,采用微电解—芬顿氧化工艺对该废水进行预处理。研究了pH、微电解反应时间、曝气、双氧水投加量等对微电解和芬顿氧化处理效果的影响,考察了COD去除率和BOD₅/COD值的变化趋势。实验结果表明：曝气条件下,调节废水pH为4、进行2次微电解、微电解反应时间各2.0 h时,废水的COD去除率为38%,BOD₅/COD值提高为0.18;再投加7.5%（w）的双氧水,废水的COD去除率为65.3%,BOD₅/COD值为0.37。采用微电解—芬顿氧化的预处理工艺,不仅有效去除了废水的COD,而且显著改善了废水的可生化性。     

Remediation of 2,4-dichlorophenol-contaminated groundwater using nano-sized CaO2 in a two-dimensional scale tank

• Nano CaO₂ is evaluated as a remediation agent for 2,4-DCP contaminated groundwater. • 2,4-DCP degradation mechanism by different Fe²⁺ concentration was proposed. • 2,4-DCP was not degraded in the system for solution pH>10. • The 2,4-DCP degradation area is inconsistent with the nano CaO₂ distribution area. This study evaluates the applicability of nano-sized calcium peroxide (CaO₂) as a source of H₂O₂ to remediate 2,4-dichlorophenol (2,4-DCP) contaminated groundwater via the advanced oxidation process (AOP). First, the effect and mechanism of 2,4-DCP degradation by CaO₂ at different Fe concentrations were studied (Fenton reaction). We found that at high Fe concentrations, 2,4-DCP almost completely degrades via primarily the oxidation of •OH within 5 h. At low Fe concentrations, the degradation rate of 2,4-DCP decreased rapidly. The main mechanism was the combined action of •OH and O₂^•−. Without Fe, the 2,4-DCP degradation reached 13.6% in 213 h, primarily via the heterogeneous reaction on the surface of CaO₂. Besides, 2,4-DCP degradation was significantly affected by solution pH. When the solution pH was>10, the degradation was almost completely inhibited. Thus, we adopted a two-dimensional water tank experiment to study the remediation efficiency CaO₂ on the water sample. We noticed that the degradation took place mainly in regions of pH<10 (i.e., CaO₂ distribution area), both upstream and downstream of the tank. After 28 days of treatment, the average 2,4-DCP degradation level was ≈36.5%. Given the inadequacy of the results, we recommend that groundwater remediation using nano CaO₂: (1) a buffer solution should be added to retard the rapid increase in pH, and (2) the nano CaO₂ should be injected copiously in batches to reduce CaO₂ deposition.     

阴阳极成对耦合紫外光辅助电催化降解毒死蜱

以空气扩散阴极、纯铂阳极和紫外灯构建了阴阳极成对耦合紫外光辅助电催化的体系,并系统地研究了电流密度、阳极SO42-浓度以及毒死蜱初始浓度对毒死蜱降解效果的影响.结果表明,当阴极/阳极的电流密度为45/450 mA·cm^-2,阳极SO42-浓度为1.0 mol·L^-1,毒死蜱初始浓度为25 mg·L^-1时,反应60 min后毒死蜱降解率可达99%.对阴极产物的红外分析结果表明,毒死蜱降解后结构中的吡啶环和PS被破坏,产生亚硝氮和正磷酸盐,毒性得到减弱.通过对比阴阳极成对耦合紫外光复合体系与阴极耦合紫外光复合体系、阳极耦合紫外光复合体系的电流效率,发现阴阳极成对耦合紫外光复合体系的电流效率是阴极耦合紫外光复合体系的2倍,是阳极耦合紫外光复合体系的4倍.     

US/UV-Fenton体系处理高浓度罗丹明B特性研究

以罗丹明B为目标污染物,探索US/UV-Fenton体系对高浓度染料的降解规律.首先对比了Fenton、US-Fenton、UV-Fenton以及US/UV-Fenton体系降解RB的效果,通过建立反应动力学方程,发现各体系反应均符合伪一级动力学,进而分析US/UV-Fenton体系之间的协同因子.考察了初始溶液pH值、H₂O₂的投加量、H₂O₂与Fe²⁺摩尔比、反应时间和超声功率5个因素对US/UV-Fenton体系降解污染物的影响.结果表明,在最佳条件下罗丹明B溶液脱色率为99.9%,COD_Cr和TOC去除率分别为91.2%和61.85%,废水可生化性（BOD₅/COD值）由0.277提高至0.503.最后根据反应规律,分析了US/UV-Fenton体系的反应机制,深度探讨了体系之间的协同促进作用.     

羟基自由基和水合电子降解对叔丁基酚的研究

采用电子束辐照水溶液的方法产生水合电子（e_aq^-）,研究了e_aq^-与对叔丁基酚（4-t-BP）的反应,结果表明还原性的e_aq^-不能降解4-t-BP.同时,采用254nm紫外光辐照H₂O₂来产生羟基自由基（·OH）,研究了UV//H₂O₂体系对4-t-BP的降解效果,考察了4-t-BP初始浓度,H₂O₂的添加浓度,溶液初始pH值等因素对反应的影响,结果表明4-t-BP初始浓度越低,H₂O₂的浓度越高,则越有利于反应的进行;溶液pH=6时是反应的最佳pH值.采用HPLC结合GC-MS的分析方法对反应的中间产物进行了定性分析,得出对叔丁基邻苯二酚,对叔丁基酚二聚体和对苯二酚等3种主要中间产物,归纳总结了4-t-BP与·OH的反应路径.     

苯醌类与苯醌亚胺类在日光/Fenton体系中的光敏性

基于苯酚降解中间产物（苯醌）、酸性甲基橙的目标化合物,研究了苯醌类与苯醌亚胺类在光/Fenton体系中的降解特性,分析了苯醌及酸性甲基橙的光敏特性,测定了光敏剂存在的情况下日光/Fenton和UV/Fenton体系中·OH的产量.结果表明,苯醌类光解,由于其光敏性好,能促进日光体系产生更多的·OH,日光/Fenton法好于UV/Fenton法.苯醌亚胺类降解,浓度较低时,UV/Fenton法好,浓度较高时,日光/Fenton法好,造成这种现象的主要原因是苯醌亚胺类光敏性一般,浓度低时日光体系中·OH的产量少于紫外体系,但苯醌亚胺类降解过程中有苯醌类生成,苯醌类的光敏性比苯醌亚胺类好,苯醌亚胺类浓度越高,其降解产物中苯醌类越多,进而导致日光体系中¹O₂、O₂^-·和·OH的产量多于紫外体系.     

A photolysis coefficient for characterizing the response of aqueous constituents to photolysis

UV photolysis and UV based advanced oxidation processes (AOPs) are gaining more and more attention for drinking water treatment. Quantum yield (ø) and molar absorption coefficient (ε) are the two critical parameters measuring the effectiveness of photolysis of a compound. The product of the two was proposed as a fundamental measure of a constituent’s amenability to transformation by photolysis. It was shown that this product, named the photolysis coefficient, k _p , can be determined using standard bench tests and captures the properties that govern a constituent’s transformation when exposed to light. The development showed the photolysis coefficient to be equally useful for microbiological, inorganic and organic constituents. Values of k _p calculated by the authors based on quantum yield and molar absorption coefficient data from the literature were summarized. Photolysis coefficients among microorganisms ranged from 8500 to more than 600000 and are far higher than for inorganic and organic compounds, which varied over a range of approximately 10 to 1000 and are much less sensitive to UV photolysis than the microorganisms.     

Effects of water quality on the coagulation performances of humic acids irradiated with UV light

The presence of humic acid in drinking water treatment has received significant attention in recent years because of its adverse effects on the removal of many pollutants in coagulation. In this paper, the effects of water quality including pH, turbidity, alkalinity, and hardness on the removal of humic acid were investigated in a UV light hybridized coagulation process. Our results suggested that UV light radiation could effectively improve the removal rate of humic acid in coagulation under both neutral and basic conditions, and the variations of the selected water quality parameters had little adverse effect on the function of UV light. After UV light radiation, the removal rate of the nitro-humic acid (NHA) increased from 20% to 60% in coagulation, and increased further to 75% and 85% for the raw waters with 10.0 NTU kaolin and 100 mg·L^-1 hardness, respectively. In addition to NHA, the removal rates of the humic acid extracted from peat coal (PHA) and the humic acid provided by Japan metals and chemicals company (JHA) in coagulation were also improved, both in the range of 80%–90% after undergoing UV light radiation. By changing the radiation location from prior to coagulation to the flocculation process, similar experimental results were obtained. The formation of positive charged sites after UV light radiation was considered to be the primary factor that led to an enhanced removal of the humic acid in coagulation.     

UV/H2O2氧化微囊藻毒素-LR的动力学模型

介绍了一种UV/H2O2光氧化体系降解微囊藻毒素MC-LR的动力学模型.根据UV光分解、H2O2和·OH氧化MC-LR的反应以及稳态近似法,导出了MC-LR降解的动力学方程.解释了体系中H2O2、HO-2、CO23-、HCO-3等对降解MC-LR动力学的影响.实验结果表明,在一定的光强和H2O2浓度情况下,由于反应产生的CO23-、HCO-3和HO-2等离子的影响,UV/H2O2光氧化MC-LR的过程只能近似用准一级动力学方程描述.     

UV/H2O2光化学氧化降解对氯苯酚废水的反应动力学

研究了UV/H₂O₂体系降解对氯苯酚废水的过程及动力学结果表明,反应降解速率与双氧水加入量、污染物初始浓度及载气种类有关.在双氧水理论投加量一半的情况下,通入氧气或空气,总酚的降解率可达到96%,COD_Cr去除率接近50%.反应体系加入载气,显著影响污染物的去除率.在本实验中,总酚降解为拟一级反应.