超声波-光催化氧化降解邻氯苯酚的研究

对超声波一光催化氧化降解邻氯苯酚(2-cp)进行了研究．探讨了溶液初始pH、TiO2投加量、H2O2投加量和溶液初始浓度对2-cp降解率的影响。并对几种不同处理方法降解2-cp的结果进行了对比。结果表明,超声波和紫外光的协同效果明显,在相同的反应时间内,超声波能够明显提高光催化降解2-cp的降解率。超声波和紫外光连用,具有良好的工业应用前景。     

超声波—光催化联合降解苯酚废水研究

超声降解和光催化降解均为自由基历程的高级氧化技术，同时，超声空化能够改善传质效果，因此，二者耦合能否产生协同效果是值得研究的，本文考察了苯酚溶液的超声降解、光降解、光催化降解、超声-光催化降解以及温度对光降解和光催化降解的影响，结果表明，40kHz,0.4W/cm^2的超声波对苯酚没有明显的降解作用，而对光催化降解只有轻微的促进作用。光降解和光催化降解的过程曲线显著不同，但温度对二者均有显著的促进作用。     

超声波-光催化联合降解苯酚废水研究

超声降解和光催化降解均为自由基历程的高级氧化技术,同时,超声空化能够改善传质效果,因此,二者耦合能否产生协同效果是值得研究的。本文考察了苯酚溶液的超声降解、光降解、光催化降解、超声-光催化降解以及温度对光降解和光催化降解的影响。结果表明,40kHz,0.4w/cm2的超声波对苯酚没有明显的降解作用,而对光催化降解只有轻微的促进作用。光降解和光催化降解的过程曲线显著不同,但温度对二者均有显著的促进作用。     

TiO2光催化降解水中苯酚的试验研究

以悬浆态TiO2为光催化剂，在紫外光催化反应器中，进行了苯酚溶液的动态光催化降解性能的研究，考察了TiO2用量、TiO2焙烧温度、溶液pH值以及循环流量对苯酚光催化降解的影响。结果表明，TiO2用量1．0g／L，TiO2焙烧温度450℃，循环流量20L／h，紫外光照反应5h，苯酚去除率为71．2％。     

超声波／纳米铁协同降解氯代苯酚的试验

通过间歇试验对超声波／纳米铁协同降解氯代苯酚（CPs）废水进行了研究，结果表明，超声波／纳米铁协同对CPs的降解率明显高于单纯超声波和单纯纳米铁的降解率；协同体系、单纯超声波和单纯纳米铁降解CPs均符合准一级反应动力学，协同体系的降解速率较单纯超声波提高了5．1-5．6倍，较单纯纳米铁提高了17．7～21倍，并且比它们的几何迭加值高4倍以上；氯代苯酚降解的准一级速率常数和降解率满足以下规律：PEP〉2，4，5-TCP〉2，4-DCP〉3-CP；探讨了混合废水的降解：在混合废水体系中，结构易裂解的优先降解，然后为浓度高的优先降解。     

超声波和零价铁联用对氯代苯酚脱氯降解作用的研究

采用超声波和零价铁联用对氯代有机物3氯苯酚(CP)、2,4-二氯苯酚(DCP)和2,4,6-三氯苯酚(TCP)模拟废水进行了脱氯处理研究。以单因素法, 考察了铁粉初始投加量、溶液的初始浓度、超声波功率和溶液的pH值等因素对氯代酚降解的影响,并探讨了降解反应动力学。结果表明,超声波和零价铁联用对氯酚具有显著的降解效果,当水样初始浓度为25 mg/L,溶液pH呈弱酸性,超声波功率为200 W时,氯代酚的脱氯效率达到最大值。降解反应符合准一级反应,CP、DCP和TCP的反应速率常数分别0.0613 h^-1、0.374 h^-1和0.197 h^-1。     

超声波/纳米铁协同降解氯代苯酚的试验

通过间歇试验对超声波/纳米铁协同降解氯代苯酚(CPs)废水进行了研究,结果表明,超声波/纳米铁协同对CPs的降解率明显高于单纯超声波和单纯纳米铁的降解率;协同体系、单纯超声波和单纯纳米铁降解CPs均符合准一级反应动力学,协同体系的降解速率较单纯超声波提高了5.1~5.6倍,较单纯纳米铁提高了17.7~21倍,并且比它们的几何迭加值高4倍以上;氯代苯酚降解的准一级速率常数和降解率满足以下规律:PCP>2,4,5-TCP>2,4-DCP>3-CP;探讨了混合废水的降解:在混合废水体系中,结构易裂解的优先降解,然后为浓度高的优先降解。     

日光下黄砂负载TiO2降解邻氯苯酚水溶液

研究了以黄砂为载体,ＴｉＯ２为催化剂,以太阳光为光源对邻氯苯酚水溶液进行光催化降解的可行性。结果表明,锐钛型ＴｉＯ２邓邻氯苯酚有显著的光催化降解作用;ＴｉＯ２的催化活性在焙烧温度３００℃时最高。     

Fe/TiO2光催化降解水溶液中的4-氯苯酚

以TiO2-P25及FeC2O4为前驱物制备了Fe3 掺杂TiO2光催化剂--Fe/TiO2.X射线衍射结果表明,500 ℃煅烧温度下的Fe/TiO2主要是锐态矿晶型,当掺Fe3 量为0.5%(质量分数,下同)时,Fe3 以取代掺杂形式进入TiO2晶格,而当掺Fe3 量达5.0%时,则出现α-Fe2O3的特征衍射峰;900 ℃煅烧温度下的Fe/TiO2则均为金红石晶型,掺Fe3 量达2.0%～5.0%时,出现Fe2TiO5的特征衍射峰.4-氯苯酚的光催化实验结果表明,煅烧温度及Fe3 掺杂量对Fe/TiO2的光催化活性有显著影响,以煅烧温度500 ℃及掺Fe3 量0.5%的Fe/TiO2为光催化剂,反应80 min,4-氯苯酚的降解率达100%,总有机碳去除率约95%.     

ZnO光催化降解苯酚的试验研究

以ＺｎＯ作为光催化剂,在不同条件下光催化降解苯的实验结果表明,ＺｎＯ具有很高的光催化活性,４００ｍｌ５ｍｇ／Ｌ的苯酚水溶液光催化１５分钟,去除率即可达到１００％。苯的降解符合一级动力学反应,且初始浓度对表现一级速率常数影响很大。     

Degradation of 2-chlorophenol via a hydrogenotrophic biofilm under different reductive conditions

This research studies the 2-chlorophenol (2-CP) degradation by the hydrogenotrophic biofilm cultivated in three silicone-tube membrane bioreactors under the conditions of denitrification (DN), sulfate-reduction (DS) and dechlorination (DC). Experimental results showed that after acclimation for more than four months with 2-CP, the respective 2-CP removal efficiency was 95% in DN, 94% in DS and 95% in DC reactors, under the condition of influent 2-CP 25 mg/l with hydraulic retention time (HRT) of 15 h. The metabolic pathway of 2-CP was different in different reactors. The 2-CP was thought to be utilized as carbon and energy source in DN and DS reactors, while the dechlorination occurred in the DC reactor in lack of nitrate and sulfate. The pH dramatically affected the 2-CP degradation in all reactors. Experimental results showed that the optimal pH range was around 6+/-0.2 in DN, 7+/-0.2 in DS, and 5.8-7.2 in DC reactors. Both nitrate and sulfate inhibited the 2-CP dechlorination, but the inhibition levels were different. Nitrate completely inhibited the dechlorination at once, while sulfate took a longer time to reach complete inhibition, only after the bacteria were adapted to the sulfate-reducing condition. Both inhibitions were accomplished by taking the place of 2-CP as electron acceptors. H2 served as an electron donor for dechlorination of 2-CP. The dechlorination was apparently stopped when lacking H2 and another pathway was responsible for the 2-CP degradation.     

Degradation of 4-chlorophenol by microwave irradiation enhanced advanced oxidation processes

In this work the synergistic effects of several microwave assisted advanced oxidation processes (MW/AOPs) were studied for the degradation of 4-chlorophenol (4-CP). The efficiencies of the degradation of 4-CP in dilute aqueous solution for a variety of AOPs with or without MW irradiation were compared. The results showed that the synergistic effects between MW and H2O2, UV/H2O2, TiO2 photocatalytic oxidation (PCO) resulted in a high degradation efficiency for 4-CP. The potential of MW/AOPs for treatment of industrial wastewater is discussed.     

固定化微生物法处理对氯苯酚废水的研究

采用聚乙烯醇(PVA)-硼酸法制作固定化活性污泥小球,用正交试验确定降解对氯苯酚的固定化活性污泥的最优化条件.从温度、浓度和pH 3方面比较了固定化活性污泥和游离活性污泥对对氯苯酚降解效果的影响.研究表明:固定化活性污泥降解对氯苯酚的最适宜温度为25～35℃,最适pH为6～8;固定化活性污泥对对氯苯酚的降解速度大于游离活性污泥.     

不同电极降解2-氯苯酚

采用电沉积法制备了4种钛基二氧化铅电极,并与商业化的钛基RuO2电极进行了对比。分别用XRD和阳极极化曲线对电极性能进行了表征,并以2-氯苯酚为目标污染物,考察了6种电极的电催化氧化性能。研究结果表明,以钛板为基体的系列电极的综合性能优于以钛网为基体的相应电极。以β-PbO2为活性外层的二氧化铅电极的综合性能优于以RuO2为活性外层的电极。6种电极对2-氯苯酚降解反应均遵循一级反应动力学规律。其中Ti/α-PbO2/β-PbO2电极析氧电位最高,电催化性能最好,对2-氯苯酚的去除率可达99.3%。     

零价铁/过硫酸钾降解对氯苯酚模拟废水

以对氯苯酚（4-CP）为目标污染物,研究了零价铁（ZVI）活化过硫酸钾（KPS）氧化降解4-CP模拟废水的影响因素,对照了单独零价铁、单独过硫酸钾和联合体系的降解性能,检测了降解过程的氯离子和TOC的变化。结果表明,在pH值为5,零价铁投加量为0.3 g·L-1,过硫酸钾浓度为1.6 mmol·L-1,常温条件时,4-CP的去除率10 min可达87%。对照实验表明,体系中4-CP的降解不是零价铁或者过硫酸钾单独作用,而是联合体系产生的自由基的作用,其中硫酸根自由基起主要作用。体系中氯离子浓度随反应进行提高较快而TOC的去除率低于降解率,说明氧化脱氯作用明显,4-CP没有完全矿化。     

Removal of 2-chlorophenol from water using rice-straw derived ash

Removal of 2-chlorophenol from water using rice-straw derived ash (RSDA) was evaluated in this study to compare with commercial activated carbon. RSDA was obtained by burning rice-straw at 400 °C and 700 °C for 1 h. This ash can provide a better adsorbent for 2-chlorophenol. The adsorption capacities of RSDA at 400 °C and 700 °C are 37 and 52 mg g?1 at pH 4, respectively, and decrease to 9.0 and 40 mg g?1 at pH 10. Adsorption of either neutral or anionic 2-cholorphenol by the RSDA are shown as L-shaped nonlinear isotherms, suggesting surface adsorption rather than partitioning is occurring. At higher-burning temperatures, the surface area, porosity, point of zero charge and aromaticity of the resultant RSDA increase, but the oxygen content and surface acidity decrease. The combined effects result in a higher 2-chlorophenol adsorption of RSDA at 700 °C, which shows a slight pH effect on the adsorption of 2-chlorophenol, due to the lower content of oxygen-containing functional groups. Oxygen-containing functional groups contribute to surface acidity and H-bonding sites for adsorbed water, which compromises the interaction between 2-chlorophenol and the adsorbents. Thus, it suggests that rice-straw derived carbon (RSDC) can be used as an effective low-cost substitute material for activated carbon for removal of chlorophenols from wastewater.     

活性炭纤维上4-氯酚及焦化废水尾水的O3催化氧化降解实验研究

选择YT-1000型活性炭纤维（ACF）作为催化剂,考察ACF与O₃协同作用催化降解水溶液中4-氯酚的最佳反应条件,并将该条件应用于焦化废水生物处理尾水中难降解有机污染物的催化氧化。ACF表面具有丰富的微孔结构,对4-氯酚有良好的吸附作用,在动力学上提高了其与O3反应的起始浓度,并且在ACF表面含氧、含氮等基团的催化作用下发生氧化反应,1 L浓度为100 mg/L的4-氯酚水样中投加2 g ACF反应6 min时,吸附作用对TOC的去除率为43.4%,而ACF协同O₃作用时的TOC去除率提高到72.5%,协同增效作用为67.1%;在选定的反应条件下,ACF协同O₃降解焦化废水生物处理尾水,60 min时的TOC与色度的去除率分别达到56.8%和96.3%。上述研究过程证明了吸附作用与催化作用的协同能有效降解生物过程不能降解的焦化废水中惰性有机污染物。     

Laboratory and field evidence of the photonitration of 4-chlorophenol to 2-nitro-4-chlorophenol and of the associated bicarbonate effect

Background, aim and scope  

Photochemical processes can decontaminate the aqueous environment from xenobiotics, but they also produce secondary pollutants. This paper presents field and laboratory evidence of the transformation of 4-chlorophenol (4CP) into 2-nitro-4-chlorophenol (2N4CP).