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用浸渍法在活性炭(AC)上负载氧化铈(CeO2)制备催化刺CeO2/AC催化臭氧氧化去除邻苯二甲酸二甲酯(DMP),考察了臭氧投加量,DMP初始浓度和溶液初始pH的影响.结果表明,CeO2/AC催化臭氧氧化去除DMP的最佳臭氧投加量为50mg/h,DMP初始浓度和溶液初始pH对CeO2/AC催化臭氧氧化DMP过程都有一定的影响.在DMP初始质量浓度为30 mg/L、溶液初始pH为5、臭氧投加量为50 mg/h、反应60 min时,CeO2/AC的加入(1.5g/L)有利于催化臭氧氧化DMP过程中总有机碳(TOC)的去除,TOC去除率由AC催化臭氧氧化的48%提高到68%.而单独臭氧氧化过程中的TOC去除率仅22%;且单独臭氧氧化与AC、CeO2/AC催化臭氧氧化DMP的矿化过程均符合二级反应动力学方程,CeO2/AC催化臭氧氧化DMP时TOC降解的二级反应动力学常数为0.0015L/(mg·min),分别是AC催化臭氧氧化的2.5倍和单独臭氧氧化的7.5倍. 相似文献
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沸石载体催化剂研制及其催化臭氧氧化染料废水的研究 总被引:1,自引:0,他引:1
以沸石为载体负载不同金属氧化物来制备催化剂,通过试验分析该催化剂催化臭氧氧化染料废水的效果及其影响因素。结果表明:(1)沸石对染料废水的吸附作用很小,总有机碳(TOC)去除率基本维持在3.2%左右,对于后期的试验可以忽略其影响。(2)以沸石作为载体制得的MnO2、Fe2O3、ZnO、CuO负载型催化剂(分别简写为MnO2/沸石、Fe2O3/沸石、ZnO/沸石、CuO/沸石),对臭氧氧化反应均有催化作用,其催化效果依次为MnO2/沸石Fe2O3/沸石ZnO/沸石CuO/沸石。同时,MnO2/沸石的重复使用率高。(3)MnO2/沸石催化臭氧氧化效率及重复使用率均优于以活性炭为载体的MnO2负载型催化剂。(4)臭氧氧化和MnO2/沸石催化臭氧氧化对染料的脱色率基本一致。MnO2/沸石催化臭氧氧化的TOC去除率比臭氧氧化提高较多,对染料废水有很好的处理效果。(5)以沸石为载体制得的负载型催化剂催化臭氧氧化实际染料废水的处理效果较好,具有较高的实用价值。 相似文献
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《环境工程学报》2016,(10)
考察了改性活性炭吸附-催化臭氧氧化对炼化RO浓水中有机污染物的降解效果。结果表明,花生壳经H_3PO_4活化后具有较好的比表面积及孔径结构,再经Cu~(2+)、Mn~(2+)、Fe~(3+)溶液负载改性,得到花生壳活性炭催化剂,其中Cu~(2+)改性后的活性炭具有最大的比表面积。将不同的改性活性炭与臭氧组合处理RO浓水,COD去除率显著提高,表现为CuAC≥Mn-ACFe-ACH_3PO_4-AC,偏碱性条件和提高活性炭投加量均利于活性炭吸附-催化臭氧氧化反应,且在30 min后COD去除率趋于平稳。当利用金属离子负载改性活性炭时,臭氧消耗率显著提高。其中,Cu-AC和Mn-AC吸附-催化臭氧氧化时臭氧的消耗率较高,COD去除率≥80%,出水COD60 mg·L~(-1),达到国家一级排放标准。 相似文献
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《环境工程学报》2016,(12)
研究比较了臭氧氧化(O3)、臭氧/活性炭氧化(O3/AC)、真空紫外/臭氧(VUV/O3)、真空紫外/臭氧/活性炭氧化(VUV/O3/AC)对甲基肼废水的处理效果,以甲基肼和COD去除率为指标,其中VUV/O3/AC最为有效。考察了活性炭投加量、臭氧投加量、初始pH值和活性炭使用次数等因素的影响。结果表明,反应最佳工艺条件为臭氧投加4.2 mg·min~(-1)、pH值为9.60、活性炭投加量为6 g·L~(-1)。反应60 min,甲基肼去除率可达99.3%,COD去除率可达75.7%。同时,探究了活性炭的重复使用效果,分析了反应过程的中间产物。 相似文献
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羟基氧化铁催化臭氧氧化去除水中阿特拉津 总被引:2,自引:0,他引:2
以实验室制备的羟基氧化铁(FeOOH)为催化剂,研究了其催化臭氧氧化去除水中痕量阿特拉津的效能,并对影响催化效果因素及降解机理进行了探讨。在本实验条件下,反应8 min时催化氧化阿特拉津的去除率比单独臭氧氧化高出63.2%,而FeOOH对阿特拉津的吸附量很小,结果表明,FeOOH对臭氧氧化水中的痕量阿特拉津具有明显的催化活性。探讨了催化剂投量、pH、阿特拉津初始浓度和重碳酸盐碱度对催化氧化阿特拉津的影响。催化剂最佳投量为150 mg/L,去除率随pH和阿特拉津初始浓度的增加而升高,重碳酸盐浓度为200 mg/L时催化作用受到明显抑制。通过研究叔丁醇对催化反应的影响间接推断了催化反应的机理,叔丁醇作为羟基自由基抑制剂有效地抑制了水中羟基自由基的生成和它对阿特拉津的氧化反应,间接证明这种催化作用遵循羟基自由基的反应机理。 相似文献
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《环境工程学报》2016,(7)
在常温常压下对MgO催化臭氧化降解苯酚的动力学进行了详细研究,考察了MgO加量、臭氧投加量、pH值、苯酚初始浓度和反应温度对催化臭氧化降解苯酚废水的反应速率常数k的影响,分析了多相催化臭氧化的反应活化能,构建了反应动力模型。结果表明,臭氧对苯酚的催化降解遵循表观拟一级反应动力学,且反应速率常数k随着MgO加量(20~80 mg·L~(-1))的增加而增大,在MgO加量为40 mg·L~(-1)时达到0.185 7 min~(-1);随着臭氧加量(0.54~5.5 mg·min~(-1))的增加,k从0.030 49 min~(-1)增大到0.217 77 min~(-1);随着溶液初始pH(1.7~10.15)的升高,k从0.087 75 min~(-1)增加到0.205 49 min~(-1);随着初始苯酚浓度(50~400 mg·L~(-1))的增加,k从0.253 68 min~(-1)降低到0.036 82 min~(-1);随着反应温度(10~50℃)的增加,k从0.120 62 min~(-1)增加到0.466 46 min~(-1)。证明了催化臭氧化降解苯酚的表观反应速率常数分别与催化剂加量、臭氧加量、pH和反应温度成正相关,与苯酚初始浓度则成负相关。反应活化能较低(Ea=2.616 7×104J·mol~(-1)),并且动力学模型计算数值与实际数据吻合良好(平均相对误差为8.9%)。 相似文献
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《环境污染与防治》2017,(10)
采用浸渍法制备负载铁锰氧化物的活性炭催化剂,并用其催化臭氧氧化处理邻苯二甲酸二甲酯(DMP)废水。利用响应面法(RSM)对催化臭氧氧化处理的工艺参数进行优化,以DMP废水的COD去除率为响应值,初始pH、催化剂投加量和臭氧通量的水平编码为自变量,建立了COD去除率与3个自变量的二次多项式回归方程。结果表明,二次多项式回归方程的F为15.660,P0.000 1,相关系数R2为0.933 7,说明该模型可以较好地模拟催化臭氧氧化处理DMP废水的效果。优化得到最佳的工艺参数为臭氧通量5.0L/min、催化剂投加量25.0g、初始pH=4.8,在此条件下处理60min后,DMP废水的COD去除率平均值为82.1%,与预测值84.3%接近。 相似文献
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将Fe3+负载在活性炭上制得载铁催化剂Fe/AC,并研究了该催化剂对邻苯二甲酸二甲酯(DMP)的催化降解性能。通过正交实验和单因素实验,探讨了催化剂投加量、H2O2投加量、溶液pH值和反应温度对水中DMP降解率的影响,同时对DMP矿化度进行了分析。实验结果表明,制得的载铁催化剂具有较高的催化活性;降解效果的影响顺序是反应温度催化剂投加量H2O2投加量溶液pH值;在反应温度为80℃、催化剂投加量为4 g/L、H2O2投加量为20 mL/L和溶液pH值为3的条件下反应120 min后,质量浓度为10 mg/L的DMP降解率最高可达97.73%;在优化的实验条件下反应150 min,DMP矿化度可达62.73%;催化剂反复使用5次仍具有较好的催化活性,DMP降解率仍可达到77%以上;反应过程中溶液Fe3+浓度的变化维持在1.07 mg/L左右,且可推测催化降解DMP主要是由非均相和均相催化氧化反应共同作用的。 相似文献
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Heterogeneous and homogeneous catalytic ozonation of benzothiazole promoted by activated carbon: kinetic approach 总被引:5,自引:0,他引:5
Ozone oxidation combined with activated carbon adsorption (O(3)/AC) has recently started to be developed as a single process for water and wastewater treatment. While a number of aspects of aqueous ozone decomposition are well understood, the importance and relationship between aqueous ozone decomposition and organic contaminant degradation in the presence of activated carbon is still not clear. This study focuses on determining the contribution of homogeneous and heterogeneous reactions to organic contaminants removal in O(3)/AC system. Benzothiazole (BT) was selected as a target organic pollutant due to its environmental concern. A reactor system based on a differential circular flow reactor composed by a 19 cm(3) activated carbon fixed bed column and 1 dm(3) storage tank was used. Ozone was produced from pure and dry oxygen using an Ozocav ozone generator rated at 5 g O(3)h(-1). Experimental results show that BT removal rate was proportional to activated carbon dosage. Activated carbon surface contribution to BT oxidation reactions with ozone, increased with pH in absence of radical scavengers. The radical reaction contribution within the pH range 2-11 accounted for 67-83% for BT removal in O(3)/AC simultaneous treatment. Results suggest that at pH higher than the pH of the point of zero charge of the activated carbon dissociated acid groups such as carboxylic acid anhydrides and carboxylic acids present on activated carbon surface could be responsible for the observed increase in the ozone decomposition reaction rate. A simplified mechanism and a kinetic scheme representing the contribution of homogeneous and heterogeneous reactions on BT ozonation in the presence of activated carbon is proposed. 相似文献
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Comparison of AC/O3-BAC and O3-BAC processes for removing organic pollutants in secondary effluent 总被引:2,自引:0,他引:2
AC (activated carbon)/O3-BAC (biological activated carbon) process was employed to treat secondary effluent and compared to O3-BAC process. The effects of ozone dosages and empty bed contact time (EBCT) in BAC on dissolved organic carbon (DOC) removal were investigated. The results showed that the presence of AC improved ozone utilization and biodegradability of the effluent. DOC removal increased with ozone dosage and EBCT in BAC, however, 3 mg l(-1) ozone dosage with 15 min oxidation time and 15 min EBCT in BAC were more economical and efficient. For DOC removal, AC/O3-BAC was more efficient than O3-BAC and its synergetic effect was more than that in O3-BAC process. The biomass of the subsequent BAC unit in AC/O3-BAC process was more than that in O3-BAC process and much more than that in BAC alone. Except for organic pollutants with molecular weight (MW) >10 kDa, those of other MW range were decomposed much more by AC/O3 process than by O3 process. GC/MS analysis showed that dibutyl phthalate, bis(2-ethylhexyl) phthalate, 4-bromo-3-chloroaniline, 2-propanone-ethylhydrazone and phenol derivatives were prevalent organic compounds in the secondary effluent. Some aromatic compounds, such as 4-bromo-3-chloroaniline and 2,4-dichloro-benzenamine disappeared after AC/O3 treatment. However, some small molecules were generated, after further biological treatment by BAC, the kinds and concentration of organic compounds were greatly reduced. 相似文献
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采用臭氧曝气法、粉末活性炭吸附法、颗粒活性炭过滤法、臭氧曝气-粉末活性炭吸附联用法、空气曝气-粉末活性炭吸附联用法对沼液中的氨气、硫化氢、吲哚、挥发酚类等主要致嗅物质的去除情况进行了研究,同时分析了不同方法对沼液中营养物质TN、DN、TP、DP等的影响。结果表明,采用粉末活性炭吸附法处理沼液,臭味物质的去除情况以及营养物质的保留效果最好,当粉末活性炭投加量为15 000 mg/L时,沼液中的硫化氢、吲哚、挥发酚已经完全去除,氨氮、氨气的去除率分别为11.42%、13.98%;DN、DP含量分别减少了10.46%、19.53%,但是TN、TP含量分别增加了6.26%、9.63%。 相似文献
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Ozonation of aniline promoted by activated carbon 总被引:1,自引:0,他引:1
The removal of aniline from aqueous solutions by simultaneous use of ozone and activated carbon was investigated at different solution pH. For comparative purposes, single ozonation and adsorption on activated carbon were carried out in the same experimental set-up. In order to evaluate the role of the activated carbon surface chemistry during ozonation, a commercial activated carbon, Norit GAC 1240 PLUS, was submitted to oxidation in the liquid phase with HNO(3). The texture and surface chemistry of the activated carbon samples were characterized. During ozonation, complete conversion of aniline was achieved after approximately 20 min, regardless of the presence of activated carbon. In all cases, several by-products were formed during ozonation. Nitrobenzene, o- and p-aminophenol were the primary aromatic oxidation by-products identified. In terms of TOC removal, best results were achieved by the simultaneous use of ozone and activated carbon. Though there is a strong contribution of adsorption, a considerable synergetic effect between ozone and activated carbon is observed. In general, activated carbon promotes the reaction of ozonation enhancing the efficiency of this treatment process. The basic activated carbon presented greater activity in this process leading to higher mineralization rates. 相似文献
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With dimethyl phthalate as the model pollutant and Ru/Al(2)O(3) as catalyst, this paper systemically investigates the removal of total organic carbon (TOC) of system. Our results have confirmed that Ru/Al(2)O(3) can significantly increase the effect of ozonation. TOC removal in 120 min can reach 72% while only 24% with ozone alone. The optimal catalyst preparing condition was 0.1 wt% Ru content, 600 degrees C calcination temperature, 0.5-1.0mm particle diameter, which is characterized by a high surface area and a large population of surface active sites. The contrasting experiments of ozone alone, catalyst adsorption after ozonation, and catalytic ozonation confirmed that catalytic reaction was the most important process to TOC removal in system with Ru/Al(2)O(3) as catalyst. 相似文献
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Fe (III) supported on resin as effective catalyst for the heterogeneous oxidation of phenol in aqueous solution 总被引:4,自引:0,他引:4
FeIII supported on resin as an effective catalyst for oxidation was prepared and applied for the degradation of aqueous phenol. Phenol was selected as a model pollutant and the catalytic oxidation was carried out in a batch reactor using hydrogen peroxide as the oxidant. The influent factors on oxidation, such as catalyst dosage, H2O2 concentration, pH, and phenol concentration were examined by considering both phenol conversion and chemical oxygen demand (COD) removal. The FeIII-resin catalyst possesses a high oxidation activity for phenol degradation in aqueous solution. The experimental results of this study show that almost 100% phenol conversion and over 80% COD removal can be achieved with the FeIII-resin catalyst catalytic oxidation system. A series of prepared resin were investigated for improving the oxidation efficiency. It was found that the reaction temperature and initial pH in solution significantly affected both of phenol conversion and COD removal efficiency. The activity of the catalyst significantly decreased at high pH, which was similar to the Fenton-like reaction mechanism. Results in this study indicate that the FeIII-resin catalytic oxidation process is an efficient method for the treatment of phenolic wastewater. 相似文献