Cu2O光催化降解水中对硝基苯酚的研究

用CuCl水解法制备Cu2O粉末，用透射电镜(TEM)和X衍射(XRD)对Cu2O粒子进行了表征。在仿太阳光源的照射下，研究了Cu2O对水中难降解有机污染物对硝基苯酚的光催化降解效果。结果表明，在8h内，对硝基苯酚几乎完全降解。在催化剂用量为0．2g时，对浓度为22．4mg／L的200mL对硝基苯酚溶液有良好的降解效果。降解反应符合一级反应动力学。     

La掺杂SnO2/Ti电极电催化降解邻硝基苯酚

采用凝胶一溶胶法制备了La掺杂SnO2/Ti电极并用于邻硝基苯酚废水的电解研究.分析了电流密度、电极距离、溶液初始pH对邻硝基苯酚电解效果的影响,确定了最佳电解条件.结果表明,La/Sn(摩尔比)为0.03,热处理温度为450℃下制备的La掺杂SnO2/Ti电极对邻硝基苯酚的降解效果最好.当电流密度为20 mA/cm2,电极距离为2 cm,溶液初始pH为6～7时,电解180 min后的邻硝基苯酚的降解率可达95.1%.利用液相色谱和离子色谱检测了邻硝基苯酚电解产物,并初步分析了邻硝基苯酚的降解途径.     

超声波/零价铁降解对硝基苯胺的试验研究

对在超声波、零价铁和超声波/零价铁(U/Fe0)等体系中对硝基苯胺的降解规律进行了研究。研究结果表明,对硝基苯胺在超声波作用下,降解规律符合一级反应动力学模型,但超声波对高浓度的对硝基苯胺降解效果较差。在U/Fe0体系中,超声波和零价铁对降解对硝基苯胺具有协同作用,对硝基苯胺降解速率显著提高。降解机理显示,对硝基苯胺在零价铁表面上发生原电池反应,被还原为对苯二胺,在超声波作用下进一步降解。在U/Fe0体系中添加Cu2+,形成Fe/Cu原电池,可进一步促进对硝基苯胺的降解速率,降解效率优于铸铁屑形成的Fe/C原电池。     

Fenton氧化水中间氯硝基苯的动力学与机制研究

结合Fenton氧化反应动力学模型研究了Fenton氧化水中间氯硝基苯(m-ClNB)的影响因素和降解机制.结果表明:(1)反应初始pH、H2O2浓度、Fe2+浓度、污染物初始浓度和反应温度对m-ClNB的降解均有明显影响.在反应初始pH为3.5、m-ClNB初始摩尔浓度为0.444mmol/L、H2O2摩尔浓度为21.55mmol/L、Fe2+摩尔浓度为0.054mmol/L、反应温度为(25土1)℃的条件下,m-ClNB的去除效果较好.(2)建立了Fenton氧化m-ClNB的准一级反应动力学模型,且m-ClNB的降解与该模型拟合良好.基于不同反应温度时的准一级反应速率常数(kap),得到了m-ClNB降解的阿累尼乌斯公式,且活化能为36.51kJ/mol.(3)气相色谱(GC)/质谱(MS)和高效液相色谱(HPLC)/MS分析表明,Fenton氧化m-ClNB的主要产物有4-氯-2-硝基苯酚及其同分异构体、羟基乙酸、草酸、丁二酸、丙二酸、6-氯己酸、乙醛酸、2,2-二羟基丙二酸和2-乙基丙二酸等.     

负载型TiO2固定相光催化降解含酚废水的试验研究

以20W紫外灯为光源,研究了将TiO2粉末负载在硅胶颗粒上,对含酚废水进行光催化降解.由试验得出光催化反应过程中的工艺条件,在此基础上添加H2O2、Fe3+、Cu2+,反应1 h后,苯酚的降解率达95%以上.     

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p H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p H=2时的降解速率高于其他p H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。     

Cu~(2+)助芬顿法处理高浓度邻苯二甲酸二甲酯废水

Cu2+可以与H2O2发生类Fenton反应,用Fenton法处理同时含有难降解有机物和Cu2+的工业废水时,Cu2+对于Fenton氧化难降解有机物的反应具有促进作用。本实验在高浓度邻苯二甲酸二甲酯(DMP)和Cu2+组成的模拟工业废水中投加Fenton试剂(Fe2++H2O2),利用Cu2+辅助Fe2+催化Fenton反应氧化难降解有机物。通过正交实验,优选反应条件,并进行单因素实验,分析不同Cu2+浓度、初始H2O2浓度、H2O2∶Fe2+(摩尔比)、pH及温度对DMP去除率的影响,以确定最佳的反应条件,并对反应机理进行了初步探讨。当Cu2+浓度为10 mg/L、DMP浓度为250 mg/L、初始H2O2的浓度为499.5 mg/L、H2O2∶Fe2+的摩尔比为4∶1、温度为20℃时,DMP的去除率最高可达到98.67%。本研究为类芬顿法处理难降解有机物和重金属离子共存的复杂工业废水奠定了基础。     

超声波／零价铁降解对硝基苯胺的试验研究

对在超声波、零价铁和超声波／零价铁(U／Fe^0)等体系中对硝基苯胺的降解规律进行了研究。研究结果表明。对硝基苯胺在超声波作用下，降解规律符合一级反应动力学模型，但超声波对高浓度的对硝基苯胺降解效果较差。在U／Fe^0体系中，超声波和零价铁对降解对硝基苯胺具有协同作用，对硝基苯胺降解速率显著提高。降解机理显示，对硝基苯胺在零价铁表面上发生原电池反应，被还原为对苯二胺，在超声波作用下进一步降解。在U／Fe^0体系中添加Cu^2 ，形成Fe／Cu原电池，可进一步促进对硝基苯胺的降解速率，降解效率优于铸铁屑形成的Fe／C原电池。     

微波辅助光催化降解水中酚的研究

利用改装的家用微波炉和自制的无电极灯(EDL)试验了5种酚在水溶液中的微波辅助光催化降解效果.结果表明,反应30 min,微波辅助光催化作用(MW/EDL/TiO2)能去除80%以上的苯酚、间硝基苯酚、对氯苯酚和对甲酚,相应溶液的总有机碳(TOC)均减少70%以上,2-萘酚的去除率为59%,溶液TOC减少54%;微波(MW或MW/TiO2)作用对酚的去除率有一定贡献;对上述5种酚的微波辅助光催化反应动力学进行了初步研究,发现均符合准一级动力学方程.     

硝基苯酚类的快速吸附与降解

以对硝基苯酚(PNP)和邻硝基苯酚(ONP)为主要研究对象,采用粉末活性炭和Fenton试剂快速吸附与降解PNP和ONP溶液,使其浓度降至生活饮用水准许浓度(分别为0.02 mg/L和0.06 mg/L)以下,并比较2种物质的处理效果,为硝基苯酚的水体污染治理和废水处理中的深度降解提供依据。结果表明,用粉末活性炭吸附浓度为1 mg/L和4 mg/L的PNP溶液60 min后,浓度低于0.02 mg/L,长时间跟踪监测,污染物浓度仍控制在0.02 mg/L以下,在pH<6时,粉末活性炭吸附PNP的效果较好;用Fenton试剂处理浓度为10 mg/L的PNP溶液70 min后,可完全降解PNP。粉末活性炭吸附12 mg/L的ONP溶液时,效率高于吸附PNP;Fenton试剂处理浓度为12 mg/L的ONP时,与PNP的处理效果相当。     

Photocatalytic degradation of p-nitrophenol using biologically synthesized ZnO nanoparticles

Environmental Science and Pollution Research - The present work deals with the photocatalytic degradation of p-nitrophenol as it is a United States Environmental Protection Agency-listed priority...     

Glutathione as a matrix for the synthesis of CdS nanocrystallites

GSH-capped CdS nanocrystallites were synthesized by reacting Cd(II)-GSH with aqueous sodium sulfide using specific initial sulfide/Cd(II) ratios. Spectroscopic analyses of fractions obtained from a size exclusion column showed varying absorption spectra indicating a significant dispersion in size-distribution of nanocrystallites at lower sulfide/Cd(II) ratios. However, size distribution of the nanocrystallites was narrower at initial sulfide/Cd(II) ratios that exceeded 1.0. An ethanol precipitation procedure was used to remove free Cd(II)-GSH complexes and selectively isolate GSH-capped nanocrystallites in a very narrow size range. Size exclusion chromatography indicated similar chemical compositions and overlapping spectral profiles of ethanol-precipitated samples suggesting apparent uniformity in both the size and the cap content. All of the GSH-capped CdS nanocrystallites with varying cap contents degraded p-nitrophenol upon irradiation at 366 nm. However, photocatalytic degradation of p-nitrophenol was significantly higher in samples with higher sulfide/Cd ratio and less capping material. The addition of H2O2 enhanced levels of photo-oxidation of p-nitrophenol.     

铈离子光催化降解茜素绿的性能和机理

主要研究了简单铈离子（Ce3＋）在紫外光（uv）的作用下对蒽醌染料茜素绿（AG）的光催化降解效果和反应机理。结果表明，UV／Ce3＋体系能够有效降解AG，初始反应速率随AG浓度的倒数值和Ce3＋浓度的增加而线性增加，随初始溶液pH的增加先降低后增加，在酸性条件下有很高的TOC去除率。荧光探针实验表明，反应过程中可以产生·OH自由基。UV／Ce3＋体系对其他类型染料和对硝基苯酚都有较好的降解效果。     

Isolation of a selected microbial consortium capable of degrading methyl parathion and p-nitrophenol from a contaminated soil site

A bacterial consortium with the ability to degrade methyl parathion and p-nitrophenol, using these compounds as the only carbon source, was obtained by selective enrichment in a medium with methyl parathion. Samples were taken from Moravia, Medellin; an area that is highly contaminated, owing to the fact that it was used as a garbage dump from 1974 to 1982. Acinetobacter sp, Pseudomonas putida, Bacillus sp, Pseudomonas aeruginosa Citrobacter freundii, Stenotrophomonas sp, Flavobacterium sp, Proteus vulgaris, Pseudomonas sp, Acinetobacter sp, Klebsiella sp and Proteus sp were the microorganisms identified within the consortium. In culture, the consortium was able to degrade 150 mg L?1 of methyl-parathion and p-nitrophenol in 120 h, but after adding glucose or peptone to the culture, the time of degradation decreased to 24 h. In soil, the consortium was also able to degrade 150 mg L?1 of methyl parathion in 120 h at different depths and also managed to decrease the toxicity.     

铈离子光催化降解茜素绿的性能和机理简

主要研究了简单铈离子（Ce³⁺）在紫外光（UV）的作用下对蒽醌染料茜素绿（AG）的光催化降解效果和反应机理。结果表明，UV/Ce³⁺体系能够有效降解AG，初始反应速率随AG浓度的倒数值和Ce³⁺浓度的增加而线性增加，随初始溶液pH的增加先降低后增加，在酸性条件下有很高的TOC去除率。荧光探针实验表明，反应过程中可以产生·OH自由基。UV/Ce³⁺体系对其他类型染料和对硝基苯酚都有较好的降解效果。     

以两种酚类有机物为基质的微生物燃料电池产电特性

以城市污水处理厂的厌氧污泥为接种微生物,在外电阻为1900Ω下,采用双室微生物燃料电池(MFC)分别对以难降解的有毒有机物2,4-二氯苯酚(DCP),对硝基苯酚(PNP),对硝基苯酚和2,4-二氯苯酚为基质时进行有机物降解和产电性能的研究。实验结果表明以DCP(50 mg/L)为单一基质时,MFC的运行周期长达225 h左右,负载两端的最大电压值达393.7 mV,库仑效率为13.73%;而以PNP和DCP为混合基质时,PNP明显促进DCP的降解,使得DCP的去除率高达64.52%,同时PNP的去除率也达到94.47%。实验最终表明,MFC能够以2,4-二氯苯酚和对硝基苯酚为基质,在实现DCP和PNP降解的同时可稳定高效地向外输出电能。     

Photochemical behavior of parathion in the presence of humic acids from different origins

This paper reports the effect of ultraviolet radiation on the degradation of pesticide ethyl parathion in the presence of humic acids. Ethyl parathion was completely degraded in 300 min using an artificial lamp of 7.41 x 10(-10) einstein/s. Humic acid from peat did not influence the photochemical rate (k = 8.92 x 10(-3) min). However, in the presence of aquatic humic acid, the photochemical rate was higher (11.5 x 10(-3) min). The analytical determinations show the presence of p-nitrophenol and aminophenol in the reaction medium during the photochemical experiments. The kinetic of degradation in all experiments obeyed a first-order reaction pattern.     

Effect of copper on the adsorption of p-nitrophenol onto soils

The effect of copper on adsorption of p-nitrophenol on two typical Chinese soils was investigated using a batch-equilibration method. Adsorption experiments were carried out when both copper and p-nitrophenol were adsorbed simultaneously, and when copper was previously adsorbed on soils. It was observed that adsorption of p-nitrophenol decreased with increasing copper concentrations thereby indicating a competition between copper and p-nitrophenol for occupying the adsorption sites on soils. Moisture increased the hydrated sphere and the acidity of water surrounding the cation, which further reduced the adsorption of p-nitrophenol. Fourier transform infrared spectroscopy study provided the direct evidence for the coordination of p-nitrophenol sorbed by soils with metal cation in n-hexane system. It was observed that the perturbations included a red shift of the nu(asym) (NO) band, a concomitant blue-shift of the nu(sym) (NO) band and a blue-shift of C-N band when compared with the infrared spectra obtained from water solution.     

Mineralization of p-nitrophenol by a new isolate Arthrobacter sp. Y1

Arthrobacter sp. Y1, capable of metabolizing p-nitrophenol (PNP) as the sole carbon, nitrogen and energy source was isolated from activated sludge. The bacterium could tolerate concentrations of PNP up to 600 mg L(- 1), and degradation of PNP was achieved within 120 h of incubation. PNP and its metabolites were analyzed by high performance liquid chromatography (HPLC). The metabolite formed indicated that the organism followed the 4-nitrocathechol (4-NC) pathway for metabolism of this compound. The relevant degrading-enzyme was extracellular. Addition of other carbon source (glucose 0 approximately 30 g L(- 1)) led to accelerated degradation. If the glucose concentration exceeded 30 g L(- 1), however, degradation was repressed. Spectrophotometry assay of the nitrite and genotoxic study showed that strain Y1 could detoxify PNP. Therefore, the present study may provide a basis for the development of the bioremediation strategies to remedy the pollutants in the environment.