Determination of photochemically-generated reactive oxygen species in natural water

Reactive oxygen species(ROS) can be produced by interactions between sunlight and light-absorbing substances in natural water environment.ROS may participate in the indirect photolysis of trace organic pollutants,therefore resulting in changes in their environmental fates and ecological risks in natural water systems.Bisphenol A(BPA),an endocrine-disrupting chemical,exits widely in natural waters.The photodegradation of BPA promoted by ROS(.OH,1O2,HO2./O2·-),which were produced on the excitation of ubiquito...     

Photodegradation of bisphenol A in Fe(Ⅲ)-oxalate complexes solution

The aqueous photodegradation of bisphenol A (BPA) in the presence of Fe(Ⅲ)-oxalate complexes (Fe(Ⅲ)-Ox), which are common compositions of natural water, was investigated in this study. BPA underwent rapid indirect photolysis in Fe(Ⅲ)-Ox solution under simulated solar irradiation, proceeding pseudo-first-order kinetics. The photolysis rate increased with decreasing pH or initial processes of Fe(Ⅲ)-Ox complexes and contributed to the photooxidation of BPA, were determined by molecular probe and electron spin resonance (ESR) methods with the steady-state concentration of 2.56 × 10-14 mol/L. Superoxide anion radical (O2.-) was consistructural analysis of the intermediate photoproducts of BPA in Fe(Ⅲ)-Ox complexes solution, the possible degradation pathways of of Fe(Ⅲ) may affect the environmental fate of BPA in natural water significantly.     

Effect of natural aquatic humic substances on the photodegradation of bisphenol A

The photochemical degradation of bisphenol A (BPA) was studied in the presence of natural humic substances from different origins under simulated solar irradiation. BPA underwent insignificant direct photolysis in neutral water, but rapid photosensitized degradation in four humic substances solutions via pseudo-first-order reaction occurred. The photo-degradation rate of BPA was insensitive to the different initial BPA concentrations and was inhibited in aerated solution compared with the deoxygenated medium. The reactive oxygen species (ROS) such as ·OH and ¹O₂ produced from excitation of humic substances under irradiation was determined from the quenching kinetic experiment using molecular probe. The five main intermediate photoproducts of BPA in Nordic lake fulvic acid (NOFA) were tentatively identified using gas chromatography/mass spectrometer (GC/MS). Based on the identification of ROS and the analysis of photoproduct formation, the possible phototransformation pathways of BPA were proposed, involving the direct photolysis due to the energy transfer from the triplet state humic substance (³HS*) to BPA molecules and hydroxyl radical addition and oxidation as well. Translated from Acta Scientiae Circumstantiae, 2005, 25(6): 816–820 [译自: 环境科学学报]     

Photodegradation of bisphenol A in Fe(Ⅲ)-oxalate complexes solution

Introduction B isphenol A (2, 2-bis (4-dihydroxydiphenyl) propane) (BPA ) is w idely used as a raw m aterial for polycarbonate and epoxy resins. In previous studies, the residue level of B PA w as detected to be at a rather high level in natural w ater en…     

天然水体腐殖质对双酚A光降解影响的研究

以中压汞灯模拟太阳光光源,研究了双酚A(BPA)在水体腐殖质中的光降解过程,探讨了不同来源的腐殖质、腐殖质浓度、BPA初始浓度、溶解氧等因素对BPA光解速率的影响,实验结果表明,BPA在纯水体系中直接光解很慢,但在腐殖质溶液中光解迅速,符合拟一级动力学反应,改变BPA初始浓度对BPA光解速率的影响不明显,增大溶解氧浓度会抑制BPA光解,通过活性氧分子探针鉴定了腐殖质吸收光辐射产生的羟基与单线态氧,利用GC-MS鉴定了双酚A在Nordic湖富里酸(NOFA)中的光敏化降解产物,推测出BPA敏化降解的可能历程为能量转移导致的直接光解、羟基加成和羟基氧化。     

DOM结构特征及其对17β-雌二醇光降解的影响

参照国际腐殖酸协会(IHSS)推荐的方法从滇池底泥提取出胡敏酸(HA)和富里酸(FA),以Sigma Aldrich胡敏酸(SAHA)为参照,利用元素分析、13C核磁共振和紫外-可见光谱对HA和FA的来源和结构进行了表征,并探讨了3种溶解性有机质(DOM)对17β-雌二醇(E2)光降解的影响.结果表明:HA、FA和SAHA具有相似的元素组成,3种腐殖酸的(N+O)/C值分别为0.50、0.82和0.55,与核磁共振13C谱分析的极性指数(0.32、0.42和0.33)一致.HA和FA来自于内源,具有较高的N含量和较多的缔合芳香结构,而SAHA是外源性有机质,具有更高的芳香度.低浓度的3种腐殖酸均能促进E2发生服从准一级动力学规律的光化学降解过程.E2在纯水中光降解速率为0.0071h-1,而在5mgC/L的HA、FA和SAHA作用下,E2光降解速率分别为0.0597、0.1178和0.2048h-1.3种腐殖酸促进E2光降解能力的差异主要是由含氧能团和芳香结构含量差异所致.活性氧分子探针鉴定显示HO?是腐殖酸体系受光照后产生的一种重要活性氧,其氧化降解E2的量占到了E2降解总量的70%左右.与低浓度腐殖酸相比,高浓度的3种腐殖酸均会对E2光降解产生抑制作用.     

亚磷酸盐在硝酸根溶液中的光氧化过程及影响因素

亚磷酸盐(HPO₃^2-,H₂PO₃^-,+3价)是磷生物地球化学循环中的还原态形式,其在水环境中的光氧化过程可能是亚磷酸盐转化的重要途径之一.以300W汞灯为光源,研究了环境浓度(1μmol/L)的亚磷酸盐在NO₃^-溶液中的光氧化过程,探讨了NO₃^-浓度、溶液pH值、环境中普遍存在的离子(Cl^-、SO₄^2-、HCO₃^-、Fe³⁺、Mn²⁺)及腐殖酸对亚磷酸盐光氧化过程的影响.结果表明,亚磷酸盐在NO₃^-溶液中的光氧化反应符合准一级动力学规律,当NO₃^-浓度由0增至120μmol/L时,其速率常数由0.020h^-1增至0.271h^-1;酸性溶液(pH = 4)有利于亚磷酸盐在硝酸根溶液中的光氧化,水环境中SO₄^2-及Cl^-对光氧化过程存在弱抑制,而HCO₃^-对光氧化过程产生较强的抑制作用.Fe³⁺促进了亚磷酸盐在NO₃^-溶液中光氧化过程,而Mn²⁺则是抑制作用.腐殖酸的加入对亚磷酸盐光氧化过程存在抑制作用.活性氧猝灭剂(异丙醇,叠氮化钠)的加入大大抑制了亚磷酸盐的光氧化过程,表明亚磷酸盐光氧化过程中,活性氧的产生对其光氧化起到关键作用.模拟太湖水样中亚磷酸盐的减少量与正磷酸盐的增加量一致,证明亚磷酸盐光氧化产物是正磷酸盐.     

Degradation of bisphenol-A using ultrasonic irradiation assisted by low-concentration hydrogen peroxide

This study investigated the degradation of bisphenol-A (BPA) by ultrasonic irradiation in the presence of different additives (H2O2,air bubbles and humic acid) under various operating conditions,i.e.,ultrasonic frequency,power intensity and power density.The results demonstrated that the BPA degradation followed pseudo first-order kinetics under different experimental conditions.The optimum power intensities were 0.9,1.8,and 3.0W/cm 2 at the frequencies of 400,670,and 800 kHz,respectively.At the fixed frequ...     

珠江水体中有机物分布、组成及与消毒副产物生成的关系

以珠江水体为研究对象,利用XAD树脂分离溶解性有机物(DOC)中的腐殖质及其他有机组分.考察了珠江中DOC的质量浓度、组成分布、SUVA254和三卤甲烷生成势(THMFP),并分析有机物的组成与三卤甲烷生成势(THMFP)之间的关系.结果表明,珠江水域在广东省内的DOC质量浓度为0.7～33.0 mg.L-1,THMFP为30.39～1 091.52μg.L-1,两者呈正比例线性相关.在空间分布上,各支流的DOC质量浓度和THMFP均沿下游方向逐渐增加,而腐殖质在DOC中所占的质量分数却沿下游方向逐渐递减.在加氯实验中,腐殖质是珠江中最主要的消毒副产物前驱物(产生了珠江中64.6%的三卤甲烷),其三卤甲烷生成活性(STHMFP)是其他有机组分的2倍以上.另一方面,SUVA254和腐殖质的质量分数呈正比例线性相关,说明SUVA254对珠江水中消毒副产物前驱物也有一定的指示作用.     

防晒剂对氨基苯甲酸在硝酸根溶液中的光解研究

以氙灯为模拟太阳光光源,研究了防晒剂分子对氨基苯甲酸（PABA）在硝酸根溶液中的光解,探讨了pH值、硝酸根离子的浓度和天然水体中广泛存在的腐殖质浓度对防晒剂PABA光解速率的影响.结果表明,PABA在硝酸根溶液中的光解反应符合一级动力学规律,PABA的光化学反应速率随硝酸根离子浓度的提高显著增大,其速率常数可由0.00...     

Effect of competing solutes on arsenic(V) adsorption using iron and aluminum oxides

The study focused on the effect of several typical competing solutes on removal of arsenic with Fe2O3 and Al2O3. The test results indicate that chloride, nitrate and sulfate did not have detectable effects, and that selenium(IV) (Se(IV)) and vanadium(V) (V(V)) show slight effects on the adsorption of As(V) with Fe2O3. The results also showed that adsorption of As(V) on Al2O3 was not affected by chloride and nitrate anions, but slightly by Se(IV) and V(V) ions. Unlike the adsorption of As(V) with Fe2O3, that with Fe2O3 was affected by the presence of sulfate in water solutions. Both phosphate and silica have significant adverse effects on the adsorption of As(V) adsorption with Fe2O3 and Al2O3. Compared to the other tested anions, phosphate anion was found to be the most prominent solute affecting the As(V) adsorption with Fe2O3 and Al2O3. In general, Fe2O3 has a better performance than Al2O3 in removal of As(V) within a water environment where multi competing solutes are present.     

K+对Fe(Ⅵ)生成的稳定促进作用和机理研究

研究了在生成高铁酸盐反应过程中K⁺对Fe(Ⅵ)的稳定促进作用和机理.结果表明,当反应温度大于50℃时,K⁺比Na⁺更有利于高铁酸盐的生成.K⁺促进高铁酸盐溶液生成的最佳反应温度为65℃.在生成高铁酸盐反应过程中,增加K⁺浓度能提高高铁酸盐的产率,并且随着硝酸铁投加量的增加,K⁺影响显著.在硝酸铁投加量为85 g/L时,采用4.4 mol/L KOH制备的Fe(Ⅵ)浓度为0.05 mol/L;加入2 mol/L K⁺后,Fe(Ⅵ)浓度增加到0.15 mol/L.K⁺对高铁酸盐溶液生成浓度的影响在硝酸铁投加量大于75 g/L,反应温度低于55℃,ClO^-浓度低于1.16 mol/L时较为显著.K⁺在一定程度上可替代部分碱度,降低OH^-用量.在反应过程中K⁺能包裹在FeO^2-₄周围,减少Fe³⁺与FeO^2-₄接触,从而减缓Fe³⁺对FeO^2-₄的催化分解作用;同时K⁺能与FeO^2-₄生成K₂FeO₄晶体沉淀析出,降低溶液中FeO^2-₄浓度,Fe(Ⅵ)分解速率减缓,稳定性增加,Fe(Ⅵ)生成浓度增加.     

邻苯二甲酸二丁酯对短裸甲藻活性氧自由基的影响

为揭示邻苯二甲酸二丁酯(dibutyl phthalate,DBP)对短裸甲藻(Gymnodinium breve)的抑制机制,采用荧光探针法和比色法研究了DBP对短裸甲藻活性氧(reactive oxygen species,ROS)、羟自由基.OH和过氧化氢H2O2含量以及超氧阴离子自由基O.2-产生速率的影响,同时观察了电子传递链抑制剂对DBP诱导ROS能力的影响.结果表明DBP诱导了短裸甲藻ROS的积累.随浓度的增大,DBP促进了.OH、H2O2的积累,如3 mg.L-1的DBP处理组,培养至48 h时.OH出现一个极大峰值33U.mL-1,约为对照组的2.4倍;H2 O2含量培养至72 h出现最大值,约为250 nmol.(107 cells)-1,约为对照组的5倍;但是DBP对O.2-产生速率的影响并没有显示出规律性.电子传递链选择性抑制实验表明DBP可能影响了藻细胞线粒体和细胞膜2个位点上电子传递,使.OH、H2O2含量和O.2-产生速率受到了不同的影响,最终诱导了短裸甲藻总ROS的积累.可见,DBP导致ROS的过量积累是其抑制藻细胞生长的主要机制.本研究结果对揭示化感物质抑制藻类的机制提供了科学依据.     

Fe2+-PDS调理-水平电场脱水工艺对疏浚底泥脱水性能的影响

针对高含水率疏浚底泥限制其后续处置的问题,应用Fe²⁺-过二硫酸盐（PDS）调理-水平电场脱水（HED）工艺处理底泥样品,研究响应曲面法对Fe²⁺-PDS调理-HED工艺操作参数（Fe²⁺及PDS的投加量、电压、通电时间）的优化,分析调理过程底泥形貌及性质的变化以及工艺各阶段（调理、重力沉降、电脱水）底泥水分及有机组分的沿程变化。结果表明：1）Fe²⁺和PDS调理底泥时,最佳投加量分别为4和10 mg/g（以TSS计）,HED阶段最佳通电时间为80 min,最佳电压为45 V,在上述参数下,脱水底泥含水率由原泥的88.55%降至55.15%。2）在调理阶段,底泥结合水含量由0.44 g/g（以干固体计,全文同）降至0.28 g/g,胞外聚合物（EPS）中蛋白质和多糖总量增加,黏液层（Slime）中蛋白质类物质和可溶性微生物副产物荧光强度降低,紧密附着层（TB-EPS）中总荧光强度增至12.40×10⁷ AU·nm²;在HED阶段,电场作用导致底泥有机物的进一步释放从阴极流出,阴极区EPS各层中的可溶性微生物副产物荧光强度显著增加。3）调理过程产生的硫酸根自由基（SO₄ ⁻·）能够氧化破解底泥中的微生物细胞并将内含物释放至EPS中,同时改变底泥的水分分布与EPS组分特征,原位产生的Fe（Ⅲ）通过絮凝作用改变了底泥的絮体结构,从而有利于底泥脱水性能的提升。

     

Effect of Fe（Ⅲ） on the bromate reduction by humic substances in aqueous solution

Humic substances are ubiquitous redox-active organic compounds of environment. In this study, experiments were conducted to determine the reduction capacity of humic acid in the man-ix of bromate and Fe（Ⅲ） solutions and the role of Fe（Ⅲ） in this redox process. The results showed that the humic acid regenerated Fe（Ⅱ） and reduced bromate abiotically. The addition of Fe（Ⅲ） could accelerate the bromate reduction rate by forming humic acid-Fe（Ⅲ） complexes. Iron species acts as electron mediator and catalyst for the bromate reduction by humic acid, in which humic acid transfers electrons to the complexed Fe（Ⅲ） to form Fe（Ⅱ）, and the regenerated Fe（Ⅱ） donate the electrons to bromate. The kinetics study on bromate reduction further indicated that bromate reduction by humic acid-Fe（Ⅲ） complexes is pH dependent. The rate decreased by 2-fold with the increase in solution pH by one unit. The reduction capacity of Aldrich humic acid was observed to be lower than that of humic acid or natural organic matter of Suwanne River, indicating that such redox process is expected to occur in the environment.     

腐殖质NAFA溶液中的扑热息痛光解研究

以中压汞灯为光源模拟阳光,研究了扑热息痛（ACT）在腐殖质NAFA中的光解行为,探讨了不同浓度的腐殖质、ACT、硝酸钠、碳酸氢钠、二价铁离子和pH值对ACT光解的影响,采用GC/MS技术鉴定了ACT的光解产物,并探讨其在腐殖质体系中可能的光解途径。研究结果表明,增加水体中的腐殖质、硝酸钠、二价铁离子浓度和pH值会促进ACT的光解,而增加水体中的ACT和碳酸氢钠浓度则会抑制ACT的光解。     

Degradation of Reactive Yellow 86 with photo-Fenton process driven by solar light

The decolorization of Reactive Yellow 86(RY 86),one of reactive azo dyes,was investigated in the presence of Fenton reagent under solar light irradiation.The decolorization rate was strongly influenced by pH,initial concentrations of H 2 O 2 and Fe(II),and so on.An initial concentration of 40 mg/L was decolored more than 90% after 20 min under optimum conditions.The activation energy of the solar photo-Fenton reaction was 1.50 kJ/mol for RY 86 in the temperature range of 10-60°C.In the kinetic study,the rate constant of RY 86 with OH· radicals could be estimated to be 1.7 × 10 10 L/(mol·sec).The decolorization efficiency of RY 86 under solar light irradiation was comparable to the artificial light irradiation.The decrease of TOC as a result of mineralization of RY 86 was observed during photo-Fenton process.The rate of RY 86 mineralization was about 83% under UV irradiation after 24 hr.The formation of chloride,sulfate,nitrate and ammonium ions as end-products was observed during the photocatalytic process.The decomposition of RY 86 gave two kinds of intermediate products.The degradation mechanism of RY 86 was proposed on the base of the identified intermediates.     

Mo掺杂FeS2非均相Fenton催化剂的制备及催化性能研究

为提高FeS₂活化H₂O₂降解有机物的性能,本研究通过引入多价金属钼(Mo)制备得到Mo掺杂的FeS₂催化剂(FeS2@Mo),并用于催化降解水中双酚A (BPA).通过扫描电子显微镜(SEM)、透射电子显微镜(TEM)、X射线光电子能谱(XPS)、X射线衍射(XRD)对样品形貌和结构组成等进行表征.研究了H₂O₂浓度、FeS₂@Mo投加量、初始pH等条件对BPA降解效果的影响.结果表明：(1)Mo掺杂的FeS₂呈现花瓣形球体,尺寸500～1 000 nm.(2)在条件为5 mmol/L H₂O₂、100 mg/L FeS₂@Mo、pH=3.5时降解效果最优,且在该条件下反应10 min时BPA的降解率可达99.1%.(3)淬灭试验和电子顺磁共振(EPR)试验的结果表明,该体系中的活性物种包括羟基自由基(·OH)、单线态氧(¹...     

超滤去除水中内分泌干扰物（BPA）的效果和影响因素

采用终端超滤工艺去除饮用水中内分泌干扰物双酚A（BPA）,主要考察了BPA初始浓度、膜截留相对分子质量、pH、离子强度和有机物对BPA去除效果的影响.结果表明,超滤对饮用水中BPA具有良好的去除效果.当BPA的初始浓度在100～600μg/L范围内,截留相对分子质量2?000～10?000的超滤膜对BPA的去除率均在92.0%以上.溶液的pH值接近BPA的pK_a（9.6～11.3）时,BPA去除率明显降低.离子强度对去除率的影响较小.溶液中的腐殖酸对超滤去除BPA的影响较小.试验证实,吸附是超滤去除疏水性BPA分子的主要机理.     

Effect of competing solutes on arsenic（Ⅴ） adsorption using iron and aluminum oxides

The study focused on the effect of several typical competing solutes on removal of arsenic with Fe_2O_3 and AL_2O_3.The test results indicate that chloride,nitrate and sulfate did not have detectable effects,and that selenium(Ⅳ)(Se(Ⅳ))and vanadium(Ⅴ)(V(Ⅴ)) showed slight effects on the adsorption of As(Ⅴ)with Fe_2O_3.The results also showed that adsorption of As(Ⅴ)on AL_2O_3 was not affected by chloride and nitrate anions,but slightly by Se(Ⅳ)and V(Ⅴ)ions.Unlike the adsorption of As(Ⅴ)with Fe_2O_3,that with Fe_2O_3 was affected by the presence of sulfate in water solutions.Both phosphate and silica have significant adverse effects on the adsorption of As(Ⅴ)adsorption with Fe_2O_3 and Al_2O_3.Compared to the other tested anions,phosphate anion was found to be the most prominent solute affecting the As(Ⅴ)adsorption with Fe_2O_3 and Al_2O_3.In general,Fe_2O_3 has a better performance than Al_2O_3 in removal of As(Ⅴ)within a water environment where multi competing solutes are present.