光催化氧化处理有机废水

介绍了光催化氧化法的原理,对光催化氧化法处理有机废水的可行性进行了试验,探讨了ＣＯＤ随反应时间的变化规律及催化剂用量,温度、浓度的影响。试验表明,光催化氧化可降解象洗涤剂这样难降解的有机物,反应１２０ｍｉｎＣＯＤ去除率可达５０％以上。     

光催化-膜分离三相流化床循环反应装置处理酸性红B废水

耦合光催化氧化和有机膜分离技术，设计了一种新型光催化氧化-有机膜分离三相流化床循环反应装置（循环反应装置）；并对循环反应装置光催化降解酸性红B时的影响因素进行了研究。结果表明，减小膜出水通量和降低酸性红B废水浓度均有利于膜出水降解率的提高；循环反应装置中废水降解率随光催化反应器底部曝气量的增加而先增加再降低，膜分离器中废水降解率的波动则随曝气量的增加而总是在增大，其最佳曝气量为1．00m^3／h；光催化反应器中多光源布置有利于循环反应装置的稳定运行；循环反应装置可有效地处理酸性红B废水。     

电助光催化氧化过程中羟基自由基（OH·）的定量分析

电助光催化氧化技术是一种增强型的光催化氧化技术,应用前景广阔.对电助光催化氧化过程中产生的羟基自由基(OH·)进行定量分析对进一步探讨电场辅助作用机理十分重要.以对氯苯甲酸为探针化合物对电助光催化氧化过程中的OH·进行定量分析,发现电助光催化氧化过程中的OH·浓度是普通光催化氧化过程的2倍.对苯甲酰胺进行电助光催化氧化降解试验,求得了苯甲酰胺与羟基自由基的二级反应动力学常数.研究还对电场辅助作用机理进行了分析.     

提高固定膜光催化氧化净化器性能关键因素的研究

简单介绍了影响光催化氧化有机物反应速度的五个因素，通过分析找出影响光催化氧化有机物反应速度的主要因素，必须同时考虑反应内Ｅ（ｒ）和Ｓ（ｒ）相互综合因素对反应器自由基产生率的影响；通过实验方法找出对应不同功率光源的光催化载体最优半径τｏｐｔ具体数值，是提高固定模光催化氧化净水器性能的关键，如果是把固定化催化膜载体布置在半径τｏｐｄ的圆周上，就能充分利用光源的光能，在反应器有限的空间结构内使得适当强度     

二氧化钛纳米管光催化降解水中百草枯

二氧化钛纳米管被用于光催化氧化水体中的百草枯,对光催化反应条件、常见Fe3+离子的干扰情况和百草枯光催化降解动力学规律进行了研究。结果表明,浓度为25 mg/L的百草枯溶液,在二氧化钛纳米管(TNT)1.0 g/L,H2O20.5 mL/50 mL,pH=5.0的最优光催化氧化条件下,经过30 min反应可以被100%从水体中去除,表现出非常高的光催化降解效率;动力学方程拟合表明,百草枯光催化氧化反应符合拟一级动力学规律,动力学方程为ln(C0/C)=1.0267t-0.1282,反应速率常数K为1.0267 h-1;双氧水存在时常见的Fe3+能够进一步提高百草枯光催化降解率;该光催化反应体系对低浓度百草枯废水有很好的处理效果,预示着光催化氧化技术适合地表或地下水体中百草枯的去除。     

高浓度难降解有机废水的催化氧化技术及其进展

根据催化剂的激活因子不同，本文将催化氧化法分为湿式催化氧化法（WCO）、光催化氧化法（PCO）和电催化氧化法（ECO）三种，并阐述了各自的反应机理及应用研究状况，提出了今后需要加强的研究方向。     

TiO2光催化脱除NOx的研究进展

利用TiO2的光催化效应脱除大气污染物是近十年来国内外学术界的研究热点之一。本文对TiO2光催化脱除NOx方面的研究工作进行了综述,郑重论述了光催化氧化反应及光催化还原反应脱除NOx的反应机理及影响因素,并对应用前景作了展望。     

TiO2光催化脱除NOx的研究进展

利用TiO2的光催化效应脱除大气污染物是近十年来国内外学术界的研究热点之一.本文对TiO2光催化脱除NOx方面的研究工作进行了综述,着重论述了光催化氧化反应及光催化还原反应脱除NOx的反应机理及影响因素,并对应用前景作出展望.     

二氧化钛光催化氧化研究进展

光催化氧化是日益引起重视的污染治理的新技术。对国内外有关水中污染物的光催化氧化过程的研究结果进行了总结,讨论了该过程所涉及的反应机理,催化剂备及提高催化活性的方法,并提出了光催化氧化法今后的研究方向。     

光催化臭氧氧化法在废水处理中的研究进展

光催化臭氧氧化法作为一种有效的废水处理技术,对难降解的有机废水,具有良好的降解功效。文中分析了UV/O3/Fe2＋、UV/O3/Fe3＋和UV/O3/H2O2体系的反应机理,介绍了光催化臭氧氧化法在废水处理中的应用情况,指出了光催化臭氧氧化法存在的问题和展望。     

Study on the photocatalytic reduction of dichromate and photocatalytic oxidation of dichlorvos

In this paper, dichromate and dichlorvos are selected as the deputies of inorganic and organic pollutants, respectively, and TiO2/beads is used as a photocatalyst. The effects of various parameters, such as the amount of the photocatalyst, H2O2 concentration, metal ions, anions, pH value, and organic compounds on the photocatalytic reduction of dichromate and photocatalytic oxidation of dichlorvos are studied. From the studies, the differences of the parameters effect on the photocatalytic degradation of organic and inorganic pollutants are obtained. The results show that the optimum amount of the photocatalyst used is 6.0 g cm(-3) for the photocatalytic reactions. With the addition of a small amount of H2O2, the photocatalytic reduction of dichromate is inhibited while the photocatalytic oxidation of dichlorvos is accelerated. With the addition of trace amounts of Fe3+ or Cu2+, both the reactions are accelerated, and with the addition of Zn2+ and Na+, no obvious effects on the reactions are observed. Acidic solution is favorable for the photocatalytic reduction of dichromate; and acidic and alkaline solutions are favorable for the photocatalytic oxidation of dichlorvos. Adding SO4(2-), the photocatalytic oxidation is accelerated and adding Cl- the reaction is inhibited; and with the addition of trace amounts of SO4(2-), Cl- and NO3-, no obvious effects on the photocatalytic reduction of dichromate are observed. With the addition of methanol and toluene, the photocatalytic reduction of dichromate is accelerated, and the photocatalytic oxidation of dichlorvos is inhibited. The possible roles of the additives on the reactions are also discussed.     

Ecotoxic Effect of Photocatalytic Active Nanoparticles (TiO2) on Algae and Daphnids (8 pp)

Background, Aim and Scope Due to their large potential for manifold applications, the use of nanoparticles is of increasing importance. As large amounts of nanoparticles may reach the environment voluntarily or by accident, attention should be paid on the potential impacts on the environment. First studies on potential environmental effects of photocatalytic TiO2 nanoparticles have been performed on the basis of widely accepted, standardized test systems which originally had been developed for the characterization of chemicals. The methods were adapted to the special requirements of testing photocatalytic nanoparticles. Materials and Methods: Suspensions of two different nanoparticles were illuminated to induce their photocatalytic activity. For testing, the growth inhibition test with the green alga Desmodesmus subspicatus and the immobilization test with the daphnid Daphnia magna were selected and performed following the relevant guidelines (algae: ISO 8692, OECD 201, DIN 38412-33; daphnids: ISO 6341, OECD 202, DIN 38412-30). The guidelines were adapted to meet the special requirements for testing photocatalytic nanoparticles. Results: The results indicate that it is principally possible to determine the ecotoxicity of nanoparticles. It was shown that nanoparticles may have ecotoxicological effects which depend on the nature of the particles. Both products tested differ in their toxicity. Product 1 shows a clear concentration-effect curve in the test with algae (EC50: 44 mg/L). It could be proven that the observed toxicity was not caused by accompanying contaminants, since the toxic effect was comparable for the cleaned and the commercially available product. For product 2, no toxic effects were determined (maximum concentration: 50 mg/L). In the tests with daphnids, toxicity was observed for both products, although the concentration effect-curves were less pronounced. The two products differed in their toxicity; moreover, there was a difference in the toxicity of illuminated and non-illuminated products. Discussion: Both products differ in size and crystalline form, so that these parameters are assumed to contribute to the different toxicities. The concentration-effect curves for daphnids, which are less-pronounced than the curves obtained for algae, may be due to the different test organisms and/or the differing test designs. The increased toxicity of pre-illuminated particles in the tests with daphnids demonstrates that the photocatalytic activity of nanoparticles lasts for a period of time. Conclusions: The following conclusions can be drawn from the test results: (I) It is principally possible to determine the ecotoxicity of (photocatalytic) nanoparticles. Therefore, they can be assessed using methods comparable to the procedures applied for assessing soluble chemicals. - (II) Nanoparticles may exert ecotoxicological effects, which depend on the specific nanoparticle. - (III) Comparable to traditional chemicals, the ecotoxicity depends on the test organisms and their physiology. - (IV) The photocatalytic activity of nanoparticles lasts for a relevant period of time. Therefore, pre-illumination may be sufficient to detect a photocatalytic activity even by using test organisms which are not suitable for application in the pre-illumination-phase. Recommendations and Perspectives: First results are presented which indicate that the topic 'ecotoxicity and environmental effects of nanoparticles' should not be neglected. In testing photocatalytic nanoparticles, there are still many topics that need clarification or improvement, such as the cause for an observed toxicity, the improvement of the test design, the elaboration of a test battery and an assessment strategy. On the basis of optimized test systems, it will be possible to test nanoparticles systematically. If a potential risk by specific photocatalytic particles is known, a risk-benefit analysis can be performed and, if required, risk reducing measures can be taken.     

V/Ce共掺杂TiO2光催化降解甲醛的实验研究

采用溶胶-凝胶法制备了不掺杂、V掺杂、Ce掺杂、V/Ce共掺杂纳米TiO2光催化剂,并将其分别负载于瓷砖上,利用X射线衍射分析（XRD）和扫描电镜分析（SEM）技术对薄膜样品的结构和形貌进行了表征。通过对甲醛的降解实验评价光催化剂的光催化活性。实验结果表明,光催化剂的负载量、共掺杂离子的掺杂量、掺杂配比、煅烧温度影响纳米TiO2的光催化活性。V/Ce共掺杂TiO2光催化剂产生了协同效应,其光催化活性优于纯TiO2和单掺杂TiO2样品。     

Highly active photocatalytic coatings prepared by a low-temperature method

Photocatalytic properties of titanium (IV) oxide (TiO₂) in anatase form can be used for various purposes, including photocatalytic purification of water. For such an application, suspended or fixed photocatalytic reactors are used. Those with fixed phase seem to be preferred due to some advantages, one of which is the avoidance of photocatalyst filtration. To avoid leaching and exfoliation of the fixed phase, an immobilization procedure leading to a good adhesion of a catalyst to a substrate is crucial. Within this work, we present physical and photocatalytic characterization results of five commercially available TiO₂ photocatalysts (P25, P90, PC500, KRONOClean 7000, VPC-10) and one pigment (Hombitan LO-CR-S-M), which were successfully immobilized on glass slides by a “sol suspension” procedure. Different mechanical tests and characterization methods were used to evaluate the stability and morphology of the layers. Evaluation of photocatalytic activity was done by tests under UVA and UV–vis irradiation, using a method based on the detection of the fluorescent oxidation product of terephthalic acid (TPA), i.e., hydroxyterephthalic acid (HTPA). Aeroxide® P90 incorporated into the silica-titania binder was the most photocatalytically active layer and, unlike the others, showed significant increase of photocatalytic activity through the entire range of tested UVA irradiation intensities (2.3 mW/cm²–6.1 mW/cm²). The high mechanical stability of some photocatalytic layers allows using them in water photocatalytic purification reactions.     

光电催化氧化法降解藻毒素MCLR

使用DSA阳极,对光电催化氧化降解藻毒素MCLR的效能及其影响因素进行了研究。结果表明,电极表面的TiO2在光催化氧化降解MCLR的过程中发挥了明显的光催化作用。在光降解、电催化氧化、光催化氧化和光电催化氧化4个过程中,光电催化氧化对MCLR和TOC的去除率最高,分别可达100%和13%,并且光电催化氧化的去除率大于光催化氧化和电催化氧化之和,表明后两者的耦合过程产生了一定的协同作用。辐照光源和电流密度存在最佳匹配条件,分别为UVC辐照、电流密度10 mA/cm2和UVA辐照、电流密度1.0 mA/cm2,此条件下光电协同作用最显著。在光电催化氧化过程中,随极板间距增大而出现的去除率下降取决于电催化过程,而不是光催化过程;光电催化氧化MCLR的去除率随其初始浓度增加而减小。     

碳纳米管/二氧化钛/壳聚糖催化薄膜光催化活性及苯降解机理

通过X-射线衍射仪(XRD)、扫描电镜(SEM)、透射电镜(TEM)和紫外可见光漫反射谱(UV-vis)对碳纳米管/二氧化钛/壳聚糖复合薄膜的晶体结构和形貌进行表征,以室内空气典型污染物气相苯为模型反应物,研究碳纳米管/二氧化钛/壳聚糖催化薄膜的光催化活性及其对苯的光降解机理。结果表明,制备的碳纳米管/二氧化钛/壳聚糖催化薄膜所具有的良好催化活性归功于碳纳米管、二氧化钛和壳聚糖三者的协调效应;气相苯光降解产生的主要中间产物是乙酸乙酯和十一烷,以及少量的丙烯醛、4-羰基-甲基-苯乙酮、十二烷烃、2,4,-二叔丁基苯酚、二十一烷烃。根据红外光谱分析与GC/MS分析结果,进一步提出了气相苯的降解机理过程。     

Gadolinium nanoparticle-decorated multiwalled carbon nanotube/titania nanocomposites for degradation of methylene blue in water under simulated solar light

Gadolinium oxide nanoparticles of diameters <5 nm were uniformly decorated on the surfaces of multiwalled carbon nanotubes which were subsequently used as templates to fabricate gadolinium oxide nanoparticle-decorated multiwalled carbon nanotube/titania nanocomposites. The prepared nanocomposites were evaluated for the photocatalytic degradation of methylene blue under simulated solar light irradiation. Higher photocatalytic activity was observed for the gadolinium oxide-decorated multiwalled carbon nanotube-based nanocomposites compared to the neat multiwalled carbon nanotube/titania nanocomposite and commercial titania. This improvement in photocatalytic activity was ascribed to the gadolinium oxide nanoparticles supported at the interface of the carbon nanotubes and titania resulting in efficient electron transfer between the two components of the composite. Total organic carbon (TOC) analysis revealed a higher degree of complete mineralisation of methylene blue (80.0 % TOC removal) which minimise the possible formation of toxic by-products. The photocatalyst could be re-used for five times, reaching a maximum degradation efficiency of 85.9 % after the five cycles. The proposed photocatalytic degradation mechanism is outlined herein.     

The spinning disc reactor--studies on a novel TiO2 photocatalytic reactor

A new type of photocatalytic reactor, the spinning disc reactor (SDR), was used to degrade aqueous solutions of 4-chlorophenol and salicylic acid. The efficiency of the photocatalytic process depends on the type of UV source used. Lamps supplying shorter wavelength UV radiation are more efficient than those whose emissions lay mainly in the near UV region. The method used to coat the disc of the SDR does not meet its operational requirements. The characteristics of the turbulent liquid films produced in the SDR reduce the influence of mass transfer over the overall photocatalytic process.     

多能场协同紫外光催化降解甲基橙的实验研究

以甲基橙为模拟废水,负载型纳米TiO2为光催化剂,在自制的多能场组合反应器中,初步研究了电场和超声场协同紫外光催化降解水中甲基橙的特点和规律。结果表明,在偏置电场电压为20 v,超声场声频为21.33 kHz、声强为0.375 W/cm2,紫外光波长为366 nm,功耗为O.25 W/mL,TiO2催化降解负荷为1.25 mL/cm2的条件下,对浓度为4 mg/L的甲基橙溶液分别处理30 min和90 min,脱色率分别可达91.67％和95.36％;比单一紫外光催化降解脱色率分别提高86.59％和86.79％。     

Study on the photocatalytic degradation of glyphosate by TiO(2) photocatalyst

In this paper, the photocatalytic degradation of glyphosate selected as the deputy of organic pollutant in aqueous solution with TiO(2) powder as a photocatalyst has been studied. The effects of various parameters, such as the amount of the photocatalyst, illumination time, initial pH value, electron acceptors, metal ions, and anions on the photocatalytic degradation of glyphosate were investigated. From the studies, the best condition for the effect of the parameters on the photocatalytic degradation of glyphosate was obtained. The results show that the optimum amount of the photocatalyst used is 6.0 g l(-1) for the photocatalytic reactions. The photodegradation efficiency of glyphosate increases with the increase of the illumination time. With the addition of Fe(3+), Cu(2+), H(2)O(2), K(2)S(2)O(8) or KBrO(3), the photocatalytic degradation of glyphosate is accelerated. However, with the addition of Na(+), K(+), Mg(2+), Ca(2+), Zn(2+), Co(2+) and Ni(2+), or with the addition of trace amounts of Cl(-), Br(-), SO(4)(2-), there are no obvious effects on the reactions. Acidic or alkaline mediums are favorable for the photocatalytic degradation of glyphosate. The possible roles of the additives on the reactions and the possible mechanisms of effect were discussed.