溶液中阴离子和腐殖酸对UV/H2O2降解2,4-二氯酚的影响

研究了UV/H2O2工艺对2,4-二氯酚(2,4-DCP)的去除效果和水中阴离子、腐殖酸对该工艺降解2,4-DCP的影响.结果表明:UV/H2O2工艺可以有效地去除水中2,4-DCP,光降解过程符合一级反应动力学模型;在H2O2投加量为8 mg/L、1个30 W低压汞灯照射下,2,4-DCP在蒸馏水和自来水中反应速率常数分别为0.023 2、0.016 2 min-1;NO-3、Cl-、HCO-3对2,4-DCP光降解有抑制作用,当3种阴离子摩尔浓度为0.5、10.0、20.0 mmol/L时,对2,4-DCP光降解的抑制程度为HCO-3＞NO-3＞Cl-;腐殖酸在低浓度时,促进光降解反应进行,在高浓度时,2,4-DCP的光降解受到抑制.自来水中的反应速率常数低于蒸馏水中的反应速率常数是由于水中多种阴离子和腐殖酸影响的结果.     

UV/H2O2工艺降解水中双酚A影响因素的研究

研究了UV/H2O2工艺对双酚A(BPA)的降解效果及影响田素.结果表明,UV/H2O2工艺可以有效降解水体中BPA,降解过程符合一级反应动力学模型;紫外光强对BPA的降解速度影响较小;H2O2浓度对BPA的降解具有促进和抑制的双重作用;BPA初始浓度对BPA降解没有影响;在酸性条件下,有利于BPA降解;NO-3、Cl-、HCO-3对BPA降解有抑制作用;当HCO-3、NO-3、Cl-摩尔浓度均为5mmol/L时,对BPA降解的抑制程度为HCO-3>NO-3>Cl-.腐殖酸在低浓度时,促进BPA降解反应进行;在高浓度时,BPA的降解受到抑制.     

无机离子及天然有机物对纤维负载Fe~0还原溴酸盐的影响

为了考察水中存在的NO-3、PO3-4、SO2-4、HCO-3和Cl-几种阴离子及天然有机物腐殖酸HA对纤维负载Fe0还原溴酸盐的影响,实验以接枝丙烯酸(AA)的聚丙烯(PP)纤维为载体,采用配位技术和液相还原法制备出了纤维负载Fe0(PP-g-AA-Fe0)材料,对纤维负载Fe0还原溴酸盐的反应效能进行了研究。结果表明,NO-3存在会与Br O-3产生竞争使还原反应速率有所降低,但这种竞争没有影响Br O-3完全被还原去除;PO3-4、SO2-4和HA存在对Br O-3还原反应影响不大,表观反应速率常数较单纯Br O-3还原体系略有增加,未出现文献报道中所说的明显抑制现象;HCO-3、Cl-的存在明显促进了纤维负载Fe0对Br O-3的还原。     

UV/H2O2工艺降解环丙沙星的研究

采用UV/H2O2工艺去除水体中的喹诺酮类抗生素环丙沙星（CIP）。考察了溶液pH值、H2O2投加量以及水体基质对环丙沙星降解效率的影响,分析了降解产物的生成情况。研究表明,环丙沙星的降解符合拟一级反应动力学模型。降解速率受溶液pH值的影响,酸性及中性条件,有利于环丙沙星的降解。H2O2投加量的增大,使得降解速率逐渐增大,但速率增幅逐渐变缓;最佳H2O2/环丙沙星摩尔比为2 000。实际水体中存在的NOM、NO3-,促进了单独UV作用下,环丙沙星的降解。水体中的.OH焠灭剂,抑制了UV/H2O2联合作用下,环丙沙星的降解;实际水体中的光解速率常数低于超纯水中的光解速率常数。GC-MS分析表明,UV/H2O2工艺,使环丙沙星氧化降解生成氨基乙酸、丙二酸、丙三醇和对苯二甲酸等小分子有机物。     

VUV/UV/Cl2工艺去除饮用水中的乐果

乐果是常规饮用水处理技术难以去除的一种典型有机磷农药。为了能够控制并去除饮用水中的农药残留,达到进一步净化水质的目的,建立了降解动力学模型,采用模拟降解饮用水中乐果的方法,对比了乐果在紫外(UV)、氯(Cl2)、紫外/氯(UV/Cl2)、真空紫外/紫外(VUV/UV)和真空紫外/紫外/氯(VUV/UV/Cl2)5种工艺下的去除效果,并考察了乐果初始浓度、Cl2投加量、溶液p H、水中共存天然有机物(NOM)和无机阴离子(N O_3~-、Cl-、HCO_3~-、SO_4~(2-))对VUV/UV/Cl2工艺降解乐果的影响。结果表明:VUV/UV/Cl2对乐果的降解效率最高,乐果的去除率随其初始浓度的增加而减小;适当增加Cl2投加量,可提高乐果的降解效率;提高p H有利于乐果的降解;NOM对乐果的降解有一定的抑制作用;水中共存无机阴离子NO_3~-、Cl-和HCO_3~-可以捕获反应体系中的强氧化性羟基自由基(HO·),对乐果的降解起到抑制作用,而SO_4~(2-)因其捕获HO·的速率很低,无抑制作用。     

酸根离子对铝板电絮凝处理含镍废水的影响

电絮凝是去除废水中重金属离子的有效技术。本研究考察了常见酸根离子SO2-4、Cl-、NO-3和H2PO-2对铝板电絮凝除Ni2+的影响。结果表明,SO2-4、Cl-、NO-3均有利于Ni2+的去除,其中由于NO-3的还原可提高铝阳极溶解效率,因此,当其浓度从0.0186增至0.186 mol/L时,反应30 min后Ni2+去除率从77.9%升至99.8%。H2PO-2会降低絮体絮凝活性并钝化电极,从而显著降低Ni2+去除率,其浓度从0.0186 mol/L增至0.372 mol/L,反应60 min后Ni2+去除率从91.7%降至30.5%。另外,对各阴离子存在下溶解态铝絮体聚合度以及电解过程pH的检测,进一步揭示这4种离子对电絮凝影响机制。     

酸性红R在UV-蒙脱土KSF-H_2O_2体系中光降解行为研究

以紫外杀菌灯(波长为254nm)为光源,研究了酸性红R在由蒙脱土KSF和H2O2组成的类Fenton体系中的光降解行为,研究了反应体系pH、H2O2浓度对偶氮染料酸性红R光催化降解的影响,分析了酸性红R的光降解动力学规律。结果表明:对于100mg/L的酸性红R,在pH为3.0、66mg/L的H2O2和质量浓度为1g/L的蒙脱土条件下,在UV/类Fenton体系可以获得较高的反应速率,经50min的光照,酸性红R的光降解率为87.2%;而在类Fenton体系中的光降解率只有56%左右,可见UV对类Fenton体系有明显的协同作用;酸性红R的光降解动力学规律符合Langmuir-Hinshelwood方程,反应速率常数为1.82mg/(L·min)。     

UV/H2O2/草酸铁络合物光降解邻苯二甲酸二丁酯研究

研究了邻苯二甲酸二丁酯(DBP)在UV/H2O2/草酸铁络合物体系中的光降解.结果表明,UV/H2O2/草酸铁络合物能有效地光解DBP;在pH值为4时,DBP光解速率最快,中性和碱性条件下光解效率降低;DBP的光解速率随H2O2浓度的升高而增大,但H2O2浓度较大时,其对·OH的清除作用使DBP的光解速率减慢;[Fe3 ]/[C2O42]＜1/10,DBP光解速率随Fe3 浓度增大明显提高,[Fe3 ]/[C2O42]＞1/10时,引起DBP光解速率的增加不明显.     

TiO2光催化降解水中土霉素的动力学研究

环境中抗生素的出现及其引起的危害正受到越来越多的关注。以高压汞灯为光源，选用较为广泛的抗生素土霉素（OTC）为处理对象。考察了初始质量浓度、反应过程中光照、催化剂投加量、溶液起始pH、溶液中DOM和NO^-₃对光催化降解的影响，研究了其光降解动力学。结果表明，TiO₂光催化氧化法能够有效去除水中半微量的OTC，OTC的光降解过程符合一级反应动力学模型；UV/TiO₂联用工艺对TOC也有很好的去除效果，反应90 min，TOC去除率可达74%；OTC的初始浓度从30 mg/L增大到90 mg/L，反应速率从0.0619 min^-1降低到0.0130 min^-1；随着光催化剂投加量的增大，光降解速率常数先增大后减小；增加溶液的pH值，速率常数逐渐减小；溶液中的DOM和NO^-₃也可以影响光降解效率。     

UV/TiO2薄膜体系光降解酞酸酯研究

采用自制玻璃负载TiO2薄膜,研究了UV-V is/TiO2以及UV/TiO2/H2O2体系对2种酞酸酯DBP和DEHP的光催化降解情况。研究结果表明,TiO2在暗处对酞酸酯没有降解作用;UV/TiO2体系能有效光降解DBP和DEHP,TiO2具有明显的光催化作用,增强因子分别为fDBP=2.06,fDEHP=1.53;在一定浓度范围内DBP在UV/TiO2体系中的降解速率与其初始浓度成负一级动力学关系;UV/TiO2/H2O2体系对DBP的光降解能力远大于UV/TiO2和UV/H2O2体系,H2O2能显著提高TiO2的光催化活性。     

Photooxidation of naphthalenesulfonic acids: comparison between processes based on O(3), O(3)/activated carbon and UV/H(2)O(2)

The aim of the present study was to analyze and compare the efficacy of UV photodegradation with that of different advanced oxidation processes (O(3), UV/H(2)O(2), O(3)/activated carbon) in the degradation of naphthalenesulfonic acids from aqueous solution and to investigate the kinetics and the mechanism involved in these processes. Results obtained showed that photodegradation with UV radiation (254 nm) of 1-naphthalenesulfonic, 1,5-naphthalendisulfonic and 1,3,6-naphthalentrisulfonic acids is not effective. Presence of duroquinone and 4-carboxybenzophenone during UV irradiation (308-410 nm) of the naphthalenesulfonic acids increased the photodegradation rate. Addition of H(2)O(2) during irradiation of naphthalenesulfonic acids accelerated their elimination, due to the generation of ()OH radicals in the medium. Comparison between UV photodegradation 254 m and the advanced oxidation processes (O(3), O(3)/activated carbon and UV/H(2)O(2)) showed the low-efficacy of the former in the degradation of these compounds from aqueous medium. Thus, among the systems studied, those based on the use of UV/H(2)O(2) and O(3)/activated carbon were the most effective in the oxidation of these contaminants from the medium. This is because of the high-reactivity of naphthalenesulfonic acids with the *OH radicals generated by these two systems. This was confirmed by the values of the reaction rate constant of *OH radicals with these compounds k(OH), obtained by competitive kinetics (5.7 x 10(9) M(-1) s(-1), 5.2 x 10(9) M(-1) s(-1) and 3.7 x 10(9) M(-1) s(-1) for NS, NDS and NTS, respectively).     

响应面法优化UV／H2O2光氧化法处理高浓度LAS废水

采用响应面法对UV／H2O2光氧化法处理高浓度LAS废水的工艺参数进行了系统研究。根据Box—BehnkenDesign（BBD）设计原理，以初始pH与H2O2投加量、反应时间和温度为主要影响因素，设计4因素3水平共29个实验点的实验方案，并建立了二次响应面拟合模型。方差分析表明，初始pH与H2O2投加量、反应时间和温度以及初始pH和H2O2投加量、H2O2投加量和温度之间的交互作用，对实验结果具有显著性影响。实验得到的光氧化高浓度LAS废水最佳工艺条件，pH为4．0，H2O2投加量为40mmol／L，反应时间为90min，温度为25℃，在此条件下，LAS的平均去除率为98．1％。     

Degradation of the pharmaceutical metronidazole via UV, Fenton and photo-Fenton processes

Degradation rates and removal efficiencies of Metronidazole using UV, UV/H2O2, H2O2/Fe2+, and UV/H2O2/Fe2+ were studied in de-ionized water. The four different oxidation processes were compared for the removal kinetics of the antimicrobial pharmaceutical Metronidazole. It was found that the degradation of Metronidazole by UV and UV/H2O2 exhibited pseudo-first order reaction kinetics. By applying H2O2/Fe2+, and UV/H2O2/Fe2+ the degradation kinetics followed a second order behavior. The quantum yields for direct photolysis, measured at 254 nm and 200-400 nm, were 0.0033 and 0.0080 mol E(-1), respectively. Increasing the concentrations of hydrogen peroxide promoted the oxidation rate by UV/ H2O2. Adding more ferrous ions enhanced the oxidation rate for the H2O2/Fe2+ and UV/H2O2/Fe2+ processes. The major advantages and disadvantages of each process and the complexity of comparing the various advanced oxidation processes on an equal basis are discussed.     

Photochemical degradation of 1,3-dinitrobenzene in aqueous solution in the presence of hydrogen peroxide

A study on the destruction of 1,3-dinitrobenzene (1,3-DNB) in aqueous solution was carried out under ultraviolet (UV) irradiation alone and UV irradiation in the presence of hydrogen peroxide (H2O2). The combination of UV and H2O2 is significantly effective in degrading 1,3-DNB in terms of initial reaction rate and the mineralization of organic carbons. The photodegradation process can be influenced in certain extent by increasing the content of H2O2 and the acidity of reaction matrices. It was found that a variety of phenolic intermediates and inorganic acid were formed via hydroxyl radicals attacking the parent compound. The UV/H2O2 oxidation of 1,3-DNB was characterized by pseudo-zero order reaction for the degradation of 1,3-DNB with a 20 times enhanced rate constant of 1.36 x 10(-7) Ms(-1) and the initial rate constant was dependent on the initial concentration of 1,3-DNB.     

Comparison of the degradation of p-hydroxybenzoic acid in aqueous solution by several oxidation processes

A comparative study is made of 12 methods of chemical oxidation applied to degrading p-hydroxybenzoic acid in aqueous solution. The oxidation processes tested were: UV, O3, UV/TiO2, O3/Fe2+, O3/H2O2, O3/UV, UV/H2O2, H2O2/Fe2+, H2O2/Fe2+/O3, UV/H2O2/O3, H2O2/Fe2+/UV and O3/UV/H2O2/Fe2+. The 12 processes were ranked by reactivity. In a kinetic study, the overall kinetic rate constant was split up into three components: direct oxidation by UV irradiation (photolysis), direct oxidation by ozone (ozonation), and oxidation by free radicals (mainly OH*).     

光催化降解水体异味物质2-MIB的机理

以水体异味物质2-甲基异莰醇(2-methylisoborneol,2-MIB)为研究对象,在紫外光(λ<380 nm)照射下,探讨TiO2(P25)对2-MIB的光催化降解特性及光化学作用机理。结果表明,UV/TiO2光催化体系可以有效去除水体异味物质2-MIB,紫外光照射60 min,对2-MIB的降解率达95%。同时研究了光催化降解体系介质pH,共存腐殖酸(HA)和过硫酸钾(K2S2O8)对UV/TiO2光催化体系降解2-MIB的影响,发现低浓度HA([HA]≤0.5 mg/L)可以提高2-MIB降解速率,当HA浓度高于0.5 mg/L,2-MIB降解反应受到抑制;同时当加入电子受体K2S2O8后,降解体系中活性物种羟基自由基(.OH)明显增加,提高了TiO2对2-MIB的降解能力。利用苯甲酸荧光光度法和POD-DPD显色法跟踪测定降解过程中羟基自由基(·OH)和过氧化氢(H2O2)的变化,表明光催化反应涉及·OH机理。     

光催化氧化深度处理电镀有机废水的工程化实验

采用光催化氧化联用技术对电镀有机废水进行深度处理工程化实验。探讨了uV、uV＋H2O3、uV＋H2O2＋TiO2、uV＋H2O2＋FeSO4、uV＋H2O2＋FeSO4＋TiO2、uV＋O3＋TiO2和uV＋03＋TiO2＋H2O2等体系对废水有机污染物去除率的影响。结果表明，相较于其他反应体系，uV＋O3＋TiO2＋H2O2体系具有更好的氧化效果，经碳滤处理后去除率达到90％以上，最终出水水质满足GB18918-20O2-级标准（A标准）的要求。实际运行项目偿还期5．33年，NPV〉0，内部收益率大于基准值10％。研究表明，uV＋O3＋TiO2＋H2O，体系能降低加药量，工作量及运行成本。可为电镀企业实际废水处理提供现实依据，为优化电镀废水的处理工艺提供参考。