共查询到20条相似文献,搜索用时 46 毫秒
1.
为推动铁屑在治理受硝基酚类化合物污染土壤中的实际应用,常温(25±1℃)常压下,利用不同前处理方式处理的铁屑、还原铁粉对土壤中的对硝基苯酚(p-NP)进行了还原降解研究;分析了土壤部分理化性质对p-NP还原效果的影响;并对反应时间、铁屑用量和土壤含水量3个人工易控因素作了最优化选择。结果表明:铁屑和铁粉对p-NP还原降解效果影响的大小顺序为:酸洗铁屑还原铁粉水洗铁屑碱洗铁屑;适中的土壤含水量、偏酸性的土壤初始pH值及较高的土壤有机质含量均可显著提高铁屑对p-NP的还原率;正交实验结果显示反应时间对p-NP还原效果影响最大,铁屑用量次之,土壤含水量最小;处理1.5 g p-NP浓度约为1.3×10-5mol/g的模拟污染土壤的反应最优化条件为:酸洗铁屑用量26 mg,土壤含水量0.35 mL,反应时间130 m in,还原率可达到96.4%。 相似文献
2.
通过HNO3、H2O2、NaOH对活性炭进行浸渍改性,采用BET、SEM、Boehm、FT-IR对改性前后的活性炭进行表征,研究了改性前后的活性炭在不同反应体系对DMP的降解效果和动力学,探讨了微波诱导改性前后的活性炭催化降解DMP的机理。结果表明,3种改性活性炭的BET比表面积、总孔容、微孔孔容和平均孔径均有所增加。HNO3、H2O2改性后表面酸性基团增加、碱性基团减少,而NaOH改性呈现相反的理化特征变化。活性炭理化特征的变化可能与化学改性剂溶液的酸碱性、氧化还原性有关。微波诱导改性前后的活性炭催化体系对DMP的降解率大于单独吸附或单纯微波辐射体系,且均符合一级反应动力学。在微波诱导改性前后的活性炭催化体系中,改性前后的活性炭通过表面吸附-微波诱导氧化协同作用极大地提高了对DMP的降解率。 相似文献
3.
4.
铁屑过滤+H202预处理难降解染料废水的研究 总被引:6,自引:0,他引:6
介绍了铁屑过滤 H2O2预处理难降解染料废水实验研究结果。采用铁屑过滤微电解法预处理难降解染料废水,当进水pH为4,停留时间为8min时,出水BOD5/COD较原水提高0.2—0.3;若在铁屑过滤进水中加入H202(30%)8%。投加量,可使废水可生化性得到显著改善,有利于后续采用生化法处理。 相似文献
5.
偶氮染料是印染工艺中应用最广泛的一类染料,目前染料废水脱色是污水处理难题。亚铁混凝处理染料废水过程中可能存在亚铁的还原作用,本实验制备了比溶解态亚铁更具还原反应活性的亚铁羟基络合物(ferrous hydroxycomplex,FHC),以5种不同类型的水溶性偶氮染料为目标污染物,研究FHC还原水溶性偶氮染料的脱色性能。实验结果表明,FHC对活性艳红X-3B、酸性大红GR和阳离子红X-GRL有较好的还原脱色效果,仅投加含铁89.6 mg/L的FHC,染料脱色率达到90%以上,继续增大FHC投加量可以完全脱色;中性枣红GRL的FHC还原脱色效果较差,需加入313.6 mg/L的FHC才能达到90%以上脱色率;134.4 mg/L的FHC能够将直接耐酸大红4BS完全脱色,但其脱色主要以混凝沉淀为主;溶液pH对FHC的还原性能产生重要影响,FHC还原染料脱色的适宜的pH值范围为4~10。该研究为亲水性染料脱色提供了一种新的技术,也为FHC运用于印染废水脱色提供了理论基础。 相似文献
6.
通过微波辐照活性炭与废铁屑的混合物处理橡胶促进剂生产废水。考察了炭铁混合物投加量、炭铁质量比、废水初始pH值、微波功率和微波辐照时间等对废水COD去除率的影响。结果表明,工艺的最佳参数为:炭铁混合物投加量65 g/L,炭铁质量比2∶1,微波功率200 W,微波辐照5 min,此条件下的废水COD去除率为76%;反应的表观过程近似符合一级动力学规律,动力学方程为:ln(C0/C)=0.1012t+0.8887,速率常数k=0.1012 min-1,半衰期t1/2=6.85 min;橡胶促进剂生产废水的微波辐照活性炭/铁屑处理工艺比单纯微波辐照及活性炭/铁屑处理工艺有明显的优越性。 相似文献
7.
采用SBR装置,对应用微波诱导活性炭纤维催化氧化实现污泥减量进行了研究。结果表明,在微波功率为800W,微波辐照时间为50s,每克SS加入0.19g活性炭纤维条件下,微波诱导活性炭纤维催化氧化污泥的分解率明显高于单独微波消解处理。将微波诱导处理后的污泥返回到处理系统中,随着被微波诱导处理的污泥占反应器内污泥的比例(污泥处理比例)的增大,污泥表观产率系数随之减小,污泥减量也越明显;污泥处理比例为5%(体积分数,下同)、10%、15%时,与对照系统相比,处理系统污泥减量分别为24.3%、43.6%、62.2%;随着污泥处理比例的增大,处理系统出水溶解性COD(SCOD)呈升高趋势,但系统仍能保持其生物处理能力,SCOD去除率在85%以上。处理系统和对照系统的氨氮降解速率常数及污泥耗氧速率相差不大,处理系统的硝化能力及污泥活性基本没有受到微波诱导催化氧化作用的影响。 相似文献
8.
采用双频超声协同H2O2降解酸性绿20染料废水,考察超声功率密度、染料初始浓度和pH、饱和气体及H2O2投加量等因素对酸性绿20降解效果的影响,结果表明,在给定实验条件下,双频降解效果优于单频超声波,且降解率随超声功率密度的增大而增大。酸性条件有利于酸性绿20的降解,当染料废水初始pH=4可取得最佳的降解效果;酸性绿20的降解效率随染料初始浓度的增大而降低,其优化初始浓度为40 mg/L。在反应体系中通入空气并投加H2O2,可取得最佳的降解效果。在优化实验条件下, 采用双频超声协同H2O2降解5 h,酸性绿20的色度和TOC去除率分别为94.6%和36.3%;分析降解前后的紫外可见光谱图可知,酸性绿20并非完全被降解为CO2和H2O,而是生成一些小分子有机中间体。 相似文献
9.
10.
通过浸渍法制备了CuO/AC作为微波催化剂,并采用XRD、FT-IR进行表征分析。考察了CuO担载量,微波催化剂用量、微波功率、辐照时间、pH值等因素对苯酚废水去除率的影响。结果表明,在微波功率600 W条件下,使用3 g CuO担载量0.5%的CuO/AC催化剂处理100 mL初始浓度为500 mg/L的苯酚模拟废水,反应18 min,去除率可达99.42%,相应TOC去除率为90.4%。通过添加不同氧化基团清除剂的实验发现,反应过程中产生了羟基自由基(·OH)。而添加大量H2O2或持续鼓入O2并不能有效提高苯酚的去除率。同时,还对微波催化氧化降解苯酚废水进行了动力学分析,发现其符合一级动力学方程模型,并得出表观速度常数随微波功率密度增加而增大的关系。 相似文献
11.
The reducing degradation kinetics of five azo dyes, Acid orange II, Acid orange IV, Acid orange GG, Acid red 3B and Orange I, by zero-valent iron powder in aqueous solution were studied. It showed that the degradation is a two-step reaction, with the first step being reversible. Solution acidity and iron surface area are the factors greatly influencing the degradation rates, and with increasing of acidity and iron surface area, the degradation rates increase. 相似文献
12.
Acid azo dye degradation by free and immobilized horseradish peroxidase (HRP) catalyzed process 总被引:7,自引:0,他引:7
Acid azo (Acid Black 10 BX) dye removal by plant based peroxidase catalyzed reaction was investigated. Horseradish peroxidase (HRP) was extracted from horseradish roots and its performance was evaluated in both free and immobilized form. HRP showed its ability to degrade the dye in aqueous phase. Studies are further carried out to understand the process parameters such as aqueous phase pH, H2O2 dose, dye and enzyme concentrations during enzyme-mediated dye degradation process. Experimental data revealed that dye (substrate) concentration, aqueous phase pH, enzyme and H2O2 dose play a significant role on the overall enzyme-mediated reaction. Acrylamide gel immobilized HRP showed effective performance compared to free HRP and alginate entrapped HRP. Alginate entrapped HRP showed inferior performance over the free enzyme due to the consequence of non-availability of the enzyme to the dye molecule due to polymeric immobilization. Standard plating studies performed with Pseudomonas putida showed enhanced degradation of HRP catalyzed dye compared to control. 相似文献
13.
N-doped NaTaO3 compounds (NaTaO3−xNx) with nano-cubic morphology were successfully synthesized by one-step hydrothermal method and Methyl Orange (MO) was used as a model dye to evaluate their photocatalytic efficiency under visible-light irradiation. The as-prepared NaTaO3−xNx samples were characterized by various techniques, such as X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM) and UV-vis diffuse reflectance spectra and GC-MS. The results indicate that NaTaO3−xNx displays a pure perovskite structure when the synthesis temperature is higher than 180 °C. Moreover, as observed by SEM images, the particles of resultant NaTaO3−xNx show cubic morphology with the edge length of 200-500 nm, which can be easily removed by filtration after photocatalytic reaction. Doping of N increases the photocatalytic activity of NaTaO3, and NaTaO2.953N0.047 shows the highest visible-light photocatalytic activity for the degradation of MO. Based on the experiment results, a possible mechanism of the photocatalysis over NaTaO3−xNx and the photodegradation pathway of MO were proposed. 相似文献
14.
铁炭微电解深度处理焦化废水的研究 总被引:19,自引:11,他引:19
采用曝气铁炭微电解工艺对焦化废水进行了深度处理.结果表明,在活性炭、铁屑和NaCl投加量分别为10 g/L、30 g/L和200 mg/L的条件下反应240 min,出水COD去除率在30%~40%;酸性条件可以进一步提高COD去除率;微电解可以去除原生化出水中的难降解有机物,出水物质的分子量主要集中于2000 Da以下,以脂类和烃类化合物为主;出水的可生化性有了大幅度提高,BOD5/COD由0.08增加到0.53.实验结果表明,铁炭微电解是深度处理焦化废水的一种有效工艺. 相似文献
15.
The aim of this study is to highlight the possibility of using powder magnetite adsorption-Fenton oxidation as a method for removal of azo dye acid red B (ARB) from water. The adsorption properties of magnetite powder towards ARB were studied. The oxidation of adsorbed ARB and regeneration of magnetite adsorbent at the same time by Fenton reagent (hydrogen peroxide [H2O2] + iron (II) [Fe2+]) in another treatment unit with a smaller volume was also investigated. The efficiency of Fenton oxidation of ARB was compared for the reaction carried out in solution and on magnetite. The magnetic separation method was used to recover magnetite after adsorption or regeneration. The results indicated that the adsorption rate was fast. The capacity was strongly dependent on pH and inorganic anions, and pH 3.8 was optimal for the adsorption of ARB. The adsorption can be described well using the Langmuir model. The oxidation was more efficient for ARB adsorbed on magnetite than in solution. The adsorption capacity of magnetite increased significantly after regeneration, which was the result of an increase in surface area of the adsorbent and change of elemental ratio (oxygen:iron [O:Fe]) on the surface. The maximum adsorption capacity for ARB was 32.4 mg/g adsorbent. 相似文献
16.
17.
18.
微波强化内电解处理活性艳红染料废水 总被引:2,自引:0,他引:2
提出了一种微波强化内电解处理染料废水的新方法,结果表明:微波不仅可以再生炭铁混合物,而且可以氧化分解活性炭吸附的染料;铁屑不仅与活性炭构成内电解作用,同时还可以促进微波再生活性炭;微波作用多次后炭铁混合物对废水的去除率仍能保持色度去除率99%、COD去除率64%;同时探讨了微波作用时间、微波作用次数、铁屑粒径、炭铁比例和pH值等因素对废水去除率的影响,并初步探讨了其反应机理。 相似文献
19.
Toxicity potentials are scaling factors used in life cycle assessment (LCA) indicating their relative importance in terms of potential toxic impacts. This paper presents the results of an uncertainty assessment of toxicity potentials for 181 substances that were calculated with the global nested multi-media fate, exposure and effects model USES-LCA. The variance in toxicity potentials resulting from choices in the modelling procedure was quantified by means of scenario analysis. A first scenario analysis showed to what extent potential impacts in the relatively short term are obscured by the inclusion of impacts on the very long term. Toxicity potentials representing potential impacts over time horizons of 20, 100 and 500 years were compared with toxicity potentials representing potential impacts over an infinite time horizon. Time horizon dependent differences up to 6.5 orders of magnitude were found for metal toxicity potentials, while for toxicity potentials of organic substances under study, differences remain within 0.5 orders of magnitude. The second scenario analysis addressed to what extent potential impacts on the continental scale are obscured by the inclusion of impacts on the global scale. Exclusion of potential impacts on the global scale changed the toxicity potentials of metals and volatile persistent halogenated organics up to 2.3 orders of magnitude. These scenario analyses also provide the basis for determining exports to future generations and outside the emission area. 相似文献