三相流化床光催化反应器降解水中酸性大红

以钛酸铋纳米粉体为光催化剂,采用三相内循环流化床光催化反应器对酸性大红染料废水进行了处理,研究了制备钛酸铋时铋与钛物质的量比n(Bi):n(Ti)、光催化剂投加量以及废水的pH值对酸性大红去除率的影响.结果表明,n(Bi):n(Ti)=12:1,废水的pH=3,催化剂投加量为0.10 g/L,流量为10 L/h时,连续运行3 h后,酸性大红的去除率可达92.0%.处理水量增大时,经过两级处理,酸性大红染料的总去除率仍可达到94.4%.     

纳米TiO2光催化降解酸性粒子元青溶液的研究

对纳米 Ti O2 光催化氧化法降解酸性粒子元青溶液进行了试验研究。结果表明 ,反应符合一级反应 ,反应速率常数为2 .9× 10 - 3min- 1。确立的最佳工艺条件 :催化剂的用量为 4.0 g·L- 1 ,溶液的 p H为 6.3 8,空气的体积流量为 12 0 m L· min- 1 ,在此最佳工艺条件下 ,酸性粒子元青的降解率达到 92 .3 %。且测得反应的表现活化能 Ea为 -17.9k J· mol- 1 。     

旋转盘反应器光催化降解苯酚废水动力学

采用旋转盘反应器(SDR)降解苯酚废水,对苯酚初始浓度、溶液pH值、H2O2的添加对其光催化降解动力学的影响进行了研究。结果表明,SDR内的光催化降解动力学特征符合一级反应动力学规律。苯酚初始浓度越低,反应速率常数k值越大;溶液pH=2时的降解速率高于其他pH值;H2O2的协同作用使苯酚的降解速率明显提高,其速率常数k值为未添加H2O2时的78倍。     

可见光下H2La2Ti3O10／TiO2光催化降解有机染料的研究

通过固相反应、离子交换、粒子插入等一系列反应合成一种层状纳米光催化复合材料H2La2Ti3O10／TiO2。可见光照射下，对选定的染料模型——甲基橙溶液(20mg／L)、汽巴克隆黄(100mg／L)、依利尼尔红(100mg／L)溶液做光降解实验。结果表明，在可见光照射下，H2La2Ti3O10／TiO2均能对溶液中甲基橙、汽巴克隆黄、依利尼尔红有效降解，光照30min后，其对溶液中甲基橙、汽巴克隆黄、依利尼尔红的降解率分别可达60．4％、60．7％和72．0％，而标准TiO2(P-25)仅为6．2％、10．6％和12．3％。     

内循环管式光催化反应器降解水中喹啉的动力学研究

采用内循环管式光催化反应器,考察不同的温度、有机物底物浓度、光照强度、曝气强度等因素对水中喹啉的降解效果影响,在此基础上进行降解动力学研究。实验结果表明:温度、喹啉初始浓度、光照强度、曝气强度等因素与喹啉的催化降解呈现良好的相关关系,喹啉的表观吸附平衡常数为0.0244 L/mg,溶解氧表观吸附平衡常数为2.11,反应活化能为16.734 kJ/mol,光照强度修正指数为0.525。     

新型管状光催化反应器降解VOCs特性

以一种新型折流式管状光催化反应器为研究对象,选择甲醛、苯和甲苯为目标污染物,以紫外光源、催化剂负载量和反应器内循环流量为关键影响因素,利用非密闭型环境舱,分析了反应器降解室内VOCs特性。结果表明,在254 nm和365 nm紫外光源照射下,VOCs的总衰减系数随初始浓度的增加而增大,且254 nm紫外光源照射下的总衰减系数更大。365 nm紫外光源照射时,VOCs的反应有效度随催化剂负载量的增加而增大;254 nm紫外光源照射时,反应有效度受催化剂负载量变化的影响很小。VOCs的转化率随循环流量的增加而增大,而反应速率受循环流量的影响较小;相同的循环流量下,转化率和反应速率均随着VOCs初始浓度增加而增大。由于增设肋片,折流式管状反应器比传统无肋片管状反应器的洁净空气量提升60%,且反应有效度更接近0.5,说明前者的传质-反应速率更加匹配,降解性能明显更优。     

可见光下 H2La2Ti3O10/TiO2光催化降解有机染料的研究

通过固相反应、离子交换、粒子插入等一系列反应合成一种层状纳米光催化复合材料H2La2Ti3O10/TiO2.可见光照射下,对选定的染料模型--甲基橙溶液(20 mg/L)、汽巴克隆黄(100mg/L)、依利尼尔红(100 mg/L)溶液做光降解实验.结果表明,在可见光照射下,H2La2Ti3O10/TiO2均能对溶液中甲基橙、汽巴克隆黄、依利尼尔红有效降解,光照30min后,其对溶液中甲基橙、汽巴克隆黄、依利尼尔红的降解率分别可达60.4%、60.7%和72.0%,而标准TiO2(P-25)仅为6.2%、10.6%和12.3%.     

BiOBr掺杂TiO2纳米管阵列光催化降解水中微量双酚A的性能及机理

针对光催化降解水中微量双酚A存在的可见光利用率低、载流子复合效率高和催化剂回收难等问题,本研究采用阳极氧化法和循环浸渍法在钛片上原位制备了BiOBr/TiO₂纳米管阵列(BiOBr/TNTAs)复合光催化剂,使用SEM、XRD和XPS等分析方法对催化剂的形貌和结构进行了表征。结果表明,片层状的BiOBr均匀负载在TNTAs表面,形成了稳定的异质结结构。BiOBr/TNTAs在可见光下对水中微量双酚A的去除率和矿化率明显高于TNTAs,且表现出优异的光催化稳定性。水体中共存的各种阴离子和腐殖酸等会通过竞争活性位点或作为自由基清除剂影响双酚A的去除效果。自由基淬灭结果表明,·OH和h⁺是BiOBr/TNTAs光催化降解双酚A的主要活性物种。光催化活性增强主要归因于BiOBr和TNTAs间p-n异质结的形成,可有效拓展TNTAs的光谱响应范围,从而提高光生电子-空穴的分离效率。     

TiO2薄膜光催化降解双酚A的研究

采用sol-gel法制备TiO2薄膜。以该薄膜为催化剂，研究了在H2O2存在的条件下，对内分泌干扰物质双酚A的光催化降解反应。分别讨论了pH值、H2O2的加入量、双酚A的初始浓度以及光照时间对降解反应的影响。结果表明，在pH=4，30mg／L的H2O2中对初始浓度为50mg／L的双酚A溶液光照180min有较好的降解效果。     

光催化反应器的研究进展

介绍了国内外近年来有关多相光催化反应中光催化反应器设计与研究的进展情况,按催化剂在反应中存在的形式分类论述了各种反应器的结构原理和主要特点,以及光反应器设计中存在的问题和今后的研究方向。     

光纤传导可见光降解亚甲基蓝

针对浓度大、色度高的印染废水难以处理的情况,选用加入光纤的光催化体系进行研究。采用溶胶凝胶法制备了Ag+/TiO2粉体光催化剂,用固体紫外可见光谱、X射线衍射对其进行表征。选用亚甲基蓝溶液作为目标降解物,评价了Ag+/TiO2在可见光下的光催化活性。分别考察了加入石英芯侧光光纤与塑料侧光光纤反应体系下,催化剂量、光纤数量、光照强度和pH值等因素对亚甲基蓝降解实验的影响。结果表明,选用20 mg/L的亚甲基蓝,采用催化剂量为11.67 g/L,500根侧光光纤,300 W的外部光源,pH值约为11时,光催化降解效果最佳,均能达到90%以上。     

ZnIn2S4可见光催化降解水中的双氯芬酸

通过水热法制备了可见光下响应的光催化剂ZnIn2S4,研究了水中痕量医药类物质双氯芬酸的光解和光催化降解效果与降解途径,同时对催化剂进行了扫描电镜、X射线衍射、紫外可见漫反射、氮吸附和羟基自由基捕获的测试。结果表明,ZnIn2S4的比表面积为91.3 m2·g-1,且在可见光照射下具有良好光催化性能。以卤钨灯模拟太阳光,在双氯芬酸初始浓度100 μg·L-1,ZnIn2S4投加浓度10 mg·L-1条件下反应5 h可降解水中98%的双氯芬酸。卤钨灯直接光解5 h可降解91%的双氯芬酸。光解和光催化反应均符合假一级反应动力学,光催化反应速率是光解反应速率的1.5倍。双氯芬酸光解过程中主要发生光环化反应,生成了2-（1-氯-9H-咔吧唑-8-基）-乙酸;光催化过程则主要通过羟基自由基氧化降解双氯芬酸,中间产物主要有1-氯-8-甲基-9H-咔吧唑及2,6-二氯-N-邻甲苯基苯胺。     

Photocatalytic degradation of phenol by visible light-responsive iron-doped TiO2 and spontaneous sedimentation of the TiO2 particles

Fe-doped TiO₂ was prepared by the calcination of Fe_xTiS₂ (x = 0, 0.002, 0.005, 0.008, 0.01) and characterized by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), and UV–visible diffuse reflectance spectra. All the Fe-doped TiO₂ were composed of an anatase crystal form and showed red shifts to a longer wavelength. The activity of the Fe-doped TiO₂ for the degradation of phenol was investigated by varying the iron content during UV (365 nm) and visible light (405 nm and 436 nm) irradiation. The degradation rate depended on the Fe content and the Fe-doped TiO₂ was responsive to the visible light as well as the elevated activity toward UV light. The molar ratio of 0.005 was the optimum for both the UV and visible light irradiations. The result was discussed on the basis of the balance of the excited electron–hole trap by the doped Fe³⁺ and their charge recombination on the doped Fe³⁺ level. The Fe-doped TiO₂ (x = 0.005) was more active than P25 TiO₂ under solar light irradiation. The suspended Fe-doped TiO₂ spontaneously precipitated once the stirring of the reaction mixture was terminated.     

Photocatalytic degradation of contaminants of concern with composite NF-TiO2 films under visible and solar light

This study reports the synthesis and characterization of composite nitrogen and fluorine co-doped titanium dioxide (NF-TiO₂) for the removal of contaminants of concern in wastewater under visible and solar light. Monodisperse anatase TiO₂ nanoparticles of different sizes and Evonik P25 were assembled to immobilized NF-TiO₂ by direct incorporation into the sol–gel or by the layer-by-layer technique. The composite films were characterized with X-ray diffraction, high-resolution transmission electron microscopy, environmental scanning electron microscopy, and porosimetry analysis. The photocatalytic degradation of atrazine, carbamazepine, and caffeine was evaluated in a synthetic water solution and in an effluent from a hybrid biological concentrator reactor (BCR). Minor aggregation and improved distribution of monodisperse titania particles was obtained with NF-TiO₂-monodisperse (10 and 50 nm) from the layer-by-layer technique than with NF-TiO₂?+?monodisperse TiO₂ (300 nm) directly incorporated into the sol. The photocatalysts synthesized with the layer-by-layer method achieved significantly higher degradation rates in contrast with NF-TiO₂-monodisperse titania (300 nm) and slightly faster values when compared with NF-TiO₂-P25. Using NF-TiO₂ layer-by-layer with monodisperse TiO₂ (50 nm) under solar light irradiation, the respective degradation rates in synthetic water and BCR effluent were 14.6 and 9.5?×?10^?3?min^?1 for caffeine, 12.5 and 9.0?×?10^?3?min^?1 for carbamazepine, and 10.9 and 5.8?×?10^?3?min^?1 for atrazine. These results suggest that the layer-by-layer technique is a promising method for the synthesis of composite TiO₂-based films compared to the direct addition of nanoparticles into the sol.     

复合型异质结催化剂AgI-BiOI/ZSM-5可见光催化氧化NO

采用液相浸渍沉淀法制备AgI-BiOI/ZSM-5异质结催化剂,通过X-射线衍射(XRD)、紫外-可见光漫反射光谱(DRS)、扫描电镜(SEM)和交流阻抗(EIS)等表征技术对样品进行表征分析,研究AgI-BiOI/ZSM-5催化剂在可见光条件(λ＞ 420 nm)下催化氧化NO的可行性及异质结催化剂的稳定性.研究结果表明,所制备的AgI-BiOI/ZSM-5催化剂在可见光下催化氧化NO的效率达到90％,表现出良好的催化活性,而且AgI-BiOI/ZSM-5在反复使用5次后其催化活性基本保持不变.EIS测试结果表明,AgI-BiOI/ZSM-5异质结的形成有利于光生电子和空穴的分离,从而提高了AgI-BiOI/ZSM-5的催化活性和稳定性.     

Photocatalytic degradation of dyes on a magnetically separated photocatalyst under visible and UV irradiation

A novel kind of magnetically separable photocatalyst of TiO2/SiO2/gamma-Fe2O3 (TSF) is prepared. Scanning tunnel microscope (STM) and X-ray diffractometer (XRD) were used to characterize the structure of the photocatalyst. In the TSF photocatalyst, a TiO2 shell is for photocatalysis, a gamma-Fe2O3 core as a carrier is for separation by the magnetic field and a SiO2 membrane between the TiO2 shell and the gamma-Fe2O3 core is used to weaken the adverse influence of gamma-Fe2O3 on the photocatalysis of TiO2. Three kinds of dyes, Fluoresein, Orange II and Red acid G, were used to examine the photocatalytic activity of TSF. Due to strong UV adsorption of the gamma-Fe2O3, the photocatalytic activity of TSF was lower than that of the pure TiO2. Deducting the light absorption of the gamma-Fe2O3 particles, the photocatalytic activity of TSF was found to be higher than that of the P25 under UV irradiation. On the other hand, the photocatalytic activity of TSF under visible irradiation was much lower than that of the P25 TiO2 even deducting the visible light absorption of the gamma-Fe2O3 particles. Differences in the photocatalytic mechanisms under UV and visible irradiation lead to the differences in the photodegradation characteristics of dyes on TSF. The recycled TSF exhibited a good repeatability of photocatalytic activity.     

CuO/TiO2-H2O2可见光催化亚甲基蓝脱色效果及影响因素研究

以水解法制备的锐钛矿型TiO2为载体,制备了CuO/TiO2型光催化剂.以亚甲基蓝为对象,在可见光照射下研究了H2O3加入量、pH值和催化剂投加量对脱色效果的影响,同时与改性前的TiO2催化剂进行了脱色效果的对比.结果表明亚甲基蓝在碱性条件下能较好脱色,H2O2用量和CuO/TiO2催化剂投加量分别为每1 000 mL反应液各加入10 mL和0.1 g时脱色最好;另外,TiO2催化剂也在碱性条件下能较好脱色,H2O2用量和催化剂投加量分别为每1 000 mL反应液各加入12.5 mL和0.1 g时脱色最好.最优条件下对比实验表明,CuO/TiO2型催化剂在可见光照射下具有很高的催化活性,亚甲基蓝2 h脱色率达到88%,远好于改性前的TiO2和Degussa P25催化剂.     

铜掺杂钒酸铋光催化降解橙黄II废水及其机理

针对大多数半导体可见光催化剂光生载流子容易复合、光催化活性受限制的问题,制备了Cu元素掺杂BiVO₄可见光催化剂,对BiVO₄结构进行修饰以提高其光催化活性。通过X射线衍射(XRD),扫描电子显微镜(SEM),透射电子显微镜(TEM),X射线能谱(XPS)和紫外-可见漫反射光谱(UV-vis)对其进行了表征,对Cu掺杂BiVO₄光催化剂的光催化活性和稳定性进行了检测。结果表明,制备的样品纯度较高,Cu掺杂后并未改变BiVO₄的晶体结构,部分Bi³⁺离子被Cu²⁺取代,从而提高了BiVO₄的可见光催化活性。Cu掺杂BiVO₄催化剂能够在可见LED光照射下,活化过一硫酸盐(PMS)进行光催化降解染料橙黄Ⅱ。当催化剂投加量为0.5 g·L⁻¹、过一硫酸盐投加量为0.6 mmol·L⁻¹,反应60 min后,Cu掺杂BiVO₄催化剂对橙黄Ⅱ的降解率最高。经过Cu掺杂后,光生电子和空穴的分离效率有所提高,增强了BiVO₄的光催化活性。Cu-BiVO₄光催化剂经5次重复使用后,对橙黄Ⅱ的降解效率仍然可以达到78.3%以上,其展现出优异的催化稳定性。     

The photocatalytic degradation of methylene blue by green semiconductor films that is induced by irradiation by a light-emitting diode and visible light

This study develops a low-energy rotating photocatalytic contactor (LE-RPC) that has Cu-doped TiO₂ films coated on stainless-steel rotating disks, to experimentally evaluate the efficiency of the degradation and decolorization of methylene blue (MB) under irradiation from different light sources (visible 430 nm, light-emitting diode [LED] 460 nm, and LED 525 nm). The production of hydroxyl radicals is also examined. The experimental results show that the photocatalytic activity of TiO₂ that is doped with Cu²⁺ is induced by illumination with visible light and an LED. More than 90% of methylene blue at a 10 mg/L concentration is degraded after illumination by visible light (430 nm) for 4 hr at 20 rpm. This study also demonstrates that the quantity of hydroxyl radicals produced is directly proportional to the light energy intensity. The greater the light energy intensity, the greater is the number of hydroxyl radicals produced.

Implications: The CuO-doped anatase TiO₂ powder was successfully synthesized in this study by a sol–gel method. The catalytic abilities of the stainless-steel film were enhanced in the visible light regions. This study has successfully modified the nano-photocatalytic materials to drop band gap and has also successfully fixed the nano-photocatalytic materials on a substratum to effectively treat dye wastewater in the range of visible light. The results can be useful to the development of a low-energy rotating photocatalytic contactor for decontamination purposes.     

Photocatalytic degradation of organic pollutants in water by N-doping ZnS with Zn vacancy: enhancement mechanism of visible light response and electron flow promotion

Environmental Science and Pollution Research - In order to improve the visible light response, N-doping ZnS (N-ZnS) nanospheres with Zn vacancy and porous surface were prepared by a simple one-pot...