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121.
In this study, a series of CuMgAl layered double oxides (CuMgAl-LDOs) were obtained via calcination of CuMgAl layered double hy-droxides (CuMgAl-LDHs) synthesised via a co-precipitation method. The results show that CuMgAl-LDO can be prepared using an optimal Cu:Mg:Al molar ratio of 3:3:2, NaOH:Na2CO3 molar ratio of 2:1, and calcination temperature of 600 °C. CuMgAl-LDO is a char-acteristic of mesoporous material with a lamellar structure and large specific surface area. The removal efficiency of sulfameter (SMD) based on CuMgAl-LDO/persulfate (PS) can reach>98%over a wide range of initial SMD concentrations (5–20 mg L-1). The best removal efficiency of 99.49%was achieved within 120 min using 10 mg L-1 SMD, 0.3 g L-1 CuMgAl-LDO, and 0.7 mmol L-1 PS. Kinetic analysis showed that the degradation of SMD was in accordance with a quasi-first-order kinetic model. The stability of the CuMgAl-LDO catalyst was verified by the high SMD removal efficiency (> 97% within 120 min) observed after five recycling tests and low copper ion leaching concentration (0.89 mg L-1), which is below drinking water quality standard of 1.3 mg L-1 permittable in the U.S. Radical scavenging experiments suggest that SO·4- is the primary active species participating in the CuMgAl-LDO/PS system. Moreover, our mechanistic investigations based on the radical scavenging tests and X-ray photoelectron spectroscopy (XPS) results indicate that Cu(II)–Cu(III)–Cu(II) circulation is responsible for activating PS in the degradation of SMD and the degradation pathway for SMD was deduced. Accordingly, the results presented in this work demonstrate that CuMgAl-LDO may be an efficient and stable catalyst for the activation of PS during the degradation of organic pollutants. ? 2020, Institute of Process Engineering, Chinese Academy of Sciences. Publishing services by Elsevier B.V. on behalf of KeAi Communi-cations Co., Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). 相似文献
122.
Christian Brandt Rudi Van Eldik 《Atmospheric environment (Oxford, England : 1994)》1997,31(24):4247-4249
The iron(III)-catalyzed autoxidation of sulfur(IV)-oxides results in the formation of two different oxidation products of sulfur(IV): dithionate, S2O62−, and sulfate, SO42−. The yield of these reaction products depends on the experimental conditions. Under the studied conditions ([Fe(III)] : [SIV)] = 1:10, pH = 2–4) dithionate is the minor reaction product. The formation of dithionate is influenced by the initial pH but not by the initial O2 concentration. The presence of CO2+, Mn2+, and Ni2+ have no influence on the yield of dithionate, whereas in the presence of Cr3+ less and, in the presence of Cu2+, no dithionate is formed. 相似文献
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124.
以置于多孔陶瓷膜中的CuBr2受热分解所释放的Br2为氧化剂,利用膜催化装置对Hg0氧化效率进行研究,并设计反应-就地检测一体化装置,避免下游气体管壁效应对实验结果带来的影响.结果表明,MnO x/α-Al2O3催化膜对CuBr2分解所产生Br2的释放有较好的"缓释"作用.Hg0和Br2在催化膜表面的吸附和反应可用Langmuir-Hinshelwood机制描述.Hg0氧化效率随Br2浓度增大而升高,但在达到一定浓度后,Hg0和Br2的吸附速率及两者在催化膜表面的反应速率成为限速因素.473~573 K时Hg0氧化效率变化较稳定.烟气中SO2对Hg0氧化有一定抑制作用,NO无明显影响. 相似文献
125.
Fe-MCM-41催化臭氧氧化间甲酚废水 总被引:2,自引:1,他引:1
首次应用Fe-MCM-41催化臭氧氧化间甲酚废水.研究了铁的掺杂质量分数、催化剂质量浓度和底物质量浓度对间甲酚转化率和TOC去除率的影响,并采用XRD、H2-TPR、穆斯堡尔谱、BET对催化剂的结构性质进行表征.结果表明,铁的掺杂质量分数对Fe-MCM-41在催化臭氧氧化间甲酚中的活性具有较大影响,最佳掺杂质量分数为4.4%.随着铁掺杂质量分数的提高,介孔分子筛的结晶度减弱,介孔结构晶面间距减小,比表面积、孔容、平均孔径整体上呈下降趋势,Fe在介孔分子筛表面仅以γ-Fe2O3形式存在,且催化剂具有良好的铁磁性和稳定性.臭氧在反应中既有直接氧化作用也有间接氧化作用,且二者比近似为1∶1.在模型废水原始p H值条件下,使用Fe掺杂质量分数为4.4%的催化剂,当间甲酚初始质量浓度为500mg·L-1,催化剂质量浓度为0.1 g·L-1时,30 min内间甲酚转化率为100%,TOC去除率为26.8%. 相似文献
126.
N原子杂化石墨烯高效活化过一硫酸盐降解RBk5染料废水 总被引:6,自引:4,他引:2
过硫酸盐高级氧化技术使用过程中,活化剂的大量流失与其环境二次危害是影响该技术应用的主要限制因素.针对这一问题本研究采用改进的Hummers法结合水热法制备环境友好型的N原子掺杂石墨烯作为催化剂,活化过一硫酸盐(PMS)产生硫酸根自由基(SO4-·)和羟基自由基(·OH)降解活性黑5(RBk5)染料.利用傅立叶红外光谱,X-射线光电子能谱,拉曼光谱和透射电子显微镜对N原子掺杂石墨烯进行表征.对催化剂催化性能进行研究,考察了初始p H、催化剂投加量和PMS投加量等因素对降解过程的影响.结果表明,N元素掺杂能够有效提升石墨烯材料的PMS催化活性,且活性受N掺杂比例影响较大;废水的初始p H对降解效率无明显影响.催化剂投加量为1. 5 g·L-1,PMS投加量为0. 3 g·L-1的条件下,反应25min后RBk5染料废水的降解率可达到99%以上,反应过程符合一级反应动力学.自由基猝灭实验显示,N掺杂石墨烯/PMS体系降解RBk5为表面反应,SO4-·和·OH为降解RBk5的主要自由基.循环实验证明催化剂稳定性能良好. 相似文献
127.
128.
The visible light photo-Fenton-like catalytic performance of BiFeO3 nanoparticles was investigated using Methyl Violet (MV), Rhodamine B (RhB) and phenol as probes. Under optimum conditions, the pseudo first-order rate constant (k) was determined to be 2.21×10-2, 5.56×10-2 and 2.01×10-2 min-1 for the degradation of MV (30 μmol/L), RhB (10 μmol/L) and phenol (3 mmol/L), respectively, in the BiFeO3-H2O2-visible light (Vis) system. The introduction of visible light irradiation increased the k values of MV, RhB and phenol degradation 3.47, 1.95 and 2.07 times in comparison with those in dark. Generally, the k values in the BiFeO3-H2O2-Vis system were accelerated by increasing BiFeO3 load and H2O2 concentration, but decreased with increasing initial pollutant concentration. To further enhance the degradation of pollutants at high concentrations, BiFeO3 was modified with the addition of surface modifiers. The addition of ethylenediamineteraacetic acid (EDTA, 0.4 mmol/L) increased the k value of MV degradation (60 μmol/L) from 1.01×10-2 min-1 in the BiFeO3-H2O2-Vis system to 1.30 min-1 in the EDTA-BiFeO3-H2O2-Vis system by a factor of 128. This suggests that in situ surface modification can enable BiFeO3 nano-particles to be a promising visible light photo-Fenton-like catalyst for the degradation of organic pollutants. 相似文献
129.
Water treatment is the key to coping with the conflict between people’s increasing demand for water and the world-wide water shortage. Owing to their unique and tunable structural, physical, and chemical properties, carbon nanotubes (CNTs) have exhibited great potentials in water treatment. This review makes an attempt to provide an overview of potential solutions to various environmental challenges by using CNTs as adsorbents, catalysts or catalyst support, membranes, and electrodes. The merits of incorporating CNT to conventional water-treatment material are emphasized, and the remaining challenges are discussed. 相似文献
130.
活性炭催化过硫酸钠降解金橙G动力学 总被引:2,自引:1,他引:1
采用颗粒活性炭(granular active carbon,GAC)催化过硫酸钠(sodium persulfate,PDS)产生具有强氧化性的硫酸根自由基,以偶氮染料金橙G(orange G,OG)为目标污染物,研究了其降解过程及动力学.结果表明,GAC/PDS体系能通过氧化作用有效地去除金橙G,其中氧化降解速率主要与PDS投量、GAC投加量、溶液的初始浓度及反应温度有关,升高温度和GAC投量可以显著地加快OG的降解.且在初始浓度为0.050~0.125 mmol·L-1、pH值为5.0、n(PDS)/n(OG)为10/1~160/1、GAC投量为0.1~1.6 g·L-1、温度为298~338 K的实验范围内,反应的氧化降解符合一级动力学模型且与实验值吻合良好.另外还对GAC重复使用之后的催化效果进行了初步考察. 相似文献