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391.
392.
电化学方法生成羟基自由基及其在酸性铬蓝降解脱色中的应用1) 总被引:26,自引:3,他引:23
在电解槽中,以Na2SO4为支持电解质,多孔石墨电极为阴极,金属铁为阳极,在10mA·cm-2的阴极电流密度下,电解生成的过氧化氢与阳极溶解的Fe2+进行反应,生成羟基自由基(Fenton试剂),进而对有机染料进行氧化反应,使其不饱和双键断裂,从而达到有机染料降解、脱色的目的,在生成Fentonn试剂的反应中,Fe2+被氧化为 Fe3+,生成的 Fe3+在阴极得电子后重新被还原为Fe2+,因此,在电解槽中 Fe2+起着催化剂的作用.COD的去除率大于80%,脱色率达100%.脱色速率的测定表明其为一级反应,反应速度常数k等于l.98 × 10-4s-1. 相似文献
393.
Adsorption and degradation of sulfosulfuron in soils 总被引:3,自引:0,他引:3
Adsorption of sulfosulfuron was studied in two soils (topsoil from Alfisol and Inceptisol). The adsorption of sulfosulfuron
was greater in topsoil collected from Alfisol than in Inceptisol. The soil sorption coefficient K and the soil organic carbon sorption coefficient K
oc are the basic parameters used for describing the environmental fate of the herbicides. In topsoil the calculated K values
from Alfisol was 4.43 and in topsoil from Inceptisol was 2.00. K
c values were 6.06 in topsoil from Alfisol and 3.33 in topsoil from Inceptisol. The K
oc values were 886.36 in topsoil from Alfisol and 770.26 in topsoil from Inceptisol. Field experimental plots with no previous
history of sulfosulfuron were selected and studied the degradation of sulfosulfuron in the topsoil collected from Alfisol
and Inceptisol. The half-life of sulfosulfuron in topsoil from Alfisol: T
1− 3.97 days and T
2− 4.54 days; topsoil from Inceptisol: T
1 − 4.68 days and T
2 − 5.52 days. The degradation of sulfosulfuron followed first-order kinetics. The persistence of sulfosulfuron was found relatively
longer in the Inceptisol than in Alfisol. The combination of degradation data (t
1/2 – soil) and organic carbon based sorption (K
oc) data of herbicides have been used to assess the pesticide environmental impact in soils through Gustafson Ubiquity Score
(GUS). The GUS values were found to be 0.69 in topsoil from Alfisol and 0.83 in Inceptisol. 相似文献
394.
395.
TiO2光催化-微滤膜分离深度净化亚甲基蓝印染废水 总被引:1,自引:1,他引:0
采用悬浮式TiO2光催化膜反应器深度净化纺织工业园区含亚甲基蓝印染废水经生物处理二级出水,利用中空纤维微滤膜进行催化剂截留分离,研究催化剂投加量、运行时间、溶解氧、搅拌方式对出水水质及膜通量的影响。结果表明:光催化会消耗体系溶解氧,鼓风曝气搅拌可同时为系统供氧,优于机械搅拌;该耦合体系的催化剂最佳投加量为1 g/L,经光催化氧化-膜组合工艺处理后水质优于GB 4287-1992《纺织染整工业污染物排放标准》的I级标准,符合建设部颁布的《生活杂用水水质标准》(CJ/T 48-1999)。 相似文献
396.
Rubem S. Oliveira Jr. Diego G. Alonso William C. Koskinen Sharon K. Papiernik 《Journal of environmental science and health. Part. B》2013,48(12):1049-1057
Sorption and desorption of aminocyclopyrachlor (6-amino-5-chloro-2-cyclopropylpyrimidine-4-carboxylic acid) were compared to that of the structurally similar herbicide picloram (4-amino-3,5,6-trichloro-2-pyridinecarboxylic acid) in three soils of differing origin and composition to determine if picloram data is representative of aminocyclopyrachlor behavior in soil. Aminocyclopyrachlor and picloram batch sorption data fit the Freundlich equation and was independent of concentration for aminocyclopyrachlor (1/n = 1), but not for picloram (1/n = 0.80–0.90). Freundlich sorption coefficients (K f) for aminocyclopyrachlor were lowest in the eroded and depositional Minnesota soils (0.04 and 0.12 μmol (1–1/n) L1/n kg?1) and the highest in Molokai soil (0.31 μmol (1–1/n) L1/n kg?1). For picloram, K f was lower in the eroded (0.28 μmol (1–1/n) L1/n kg?1) as compared to the depositional Minnesota soil (0.75 μmol (1–1/n) L1/n kg?1). Comparing soil to soil, K f for picloram was consistently higher than those found for aminocyclopyrachlor. Desorption of aminocyclopyrachlor and picloram was hysteretic on all three soils. With regard to the theoretical leaching potential based on groundwater ubiquity score (GUS), leaching potential of both herbicides was considered to be similar. Aminocyclopyrachlor would be ranked as leacher in all three soils if t1/2 was > 12.7 days. To be ranked as non-leacher in all three soils, aminocyclopyrachlor t1/2 would have to be <3.3 days. Calculated half-life that would rank picloram as leacher was calculated to be ~15.6 d. Using the current information for aminocycloprachlor, or using picloram data as representative of aminocycloprachlor behavior, scientists can now more accurately predict the potential for offsite transport of aminocycloprachlor. 相似文献
397.
《Journal of environmental science and health. Part. B》2013,48(4):603-612
Abstract The fumigant 1,3-dichloropropene (1,3-D) is considered a major replacement to methyl bromide, which is to be phased out of use in the United States by 2005. The main purpose of this study was to evaluate soil–water partitioning of 1,3-D in two California agricultural soils (Salinas clay loam and Arlington sandy loam). The partition coefficients (K d and K f ) were determined by directly measuring the concentration of 1,3-D in the solid phase (C s ) and aqueous phase (C w ) after batch equilibration. In the Salinas clay loam, the K f of cis-1,3-D in adsorption and desorption isotherms was 0.47 and 0.54, respectively, with respective values of 0.39 and 0.49 for trans-1,3-D. This slight hysteric effect suggests that a different range of forces are involved in the adsorption and desorption process. Since n was near unity in the Freundlich equation, the Freundlich isotherms can also be approximated using the liner isotherm. At 25°C, the K d of the 1,3-D isomers in both soils ranged from 0.46 to 0.56, and the K oc (organic matter partition coefficient) ranged from 58 to 70. The relatively low K d values and a K oc that falls within the range of 50–150, suggests that 1,3-D is weakly sorbed and highly mobile in these soils. Understanding the sorption behavior of 1,3-D in soil is important when developing fumigation practices to reduce the movement of 1,3-D to the air and groundwater. 相似文献
398.
Fenton法制备污泥基活性炭及其性能表征 总被引:1,自引:0,他引:1
污泥基活性炭孔隙率低下是污泥资源化利用的主要制约因素,而Fenton法预处理污泥,可有效改善活性炭性质。通过考察H2O2投加量、H2O2/Fe2+、活化pH以及炭化条件等参数,确定了最佳污泥基活性炭制备条件:H2O2投加量为5%(质量分数),H2O2/Fe2+为5∶1(质量比),活化pH为3,活化时间为2.0h,污泥含固率为1.0%(质量分数),炭化温度为600℃,炭化时间为2.0h,炭化升温速率为10℃/min。此时,得到的污泥基活性炭吸附碘值为340mg/g,比表面积为353.563m2/g,孔容积为0.238cm3/g,微孔容积为0.095cm3/g。该活性炭对阳离子和阴离子染料(亚甲基蓝和甲基橙)具有良好的吸附性能,结果表明,对亚甲基蓝和甲基橙的吸附更符合Langmuir方程,且其饱和吸附量分别为71.53、57.73mg/g。对吸附动力学的拟合结果表明,该吸附更符合二级动力学方程。 相似文献
399.
The fate and transport of antibiotics in natural water systems is controlled in part by interactions with nanometer (10−9 m) metal oxide particles. Experiments were performed by mixing solutions of ampicillin (AMP), a common, penicillin-class human and veterinary antibiotic, with 25 nm-TiO2 (anatase) nanoparticles at different pH conditions. Both sorption and degradation of AMP were observed in the AMP-nanoparticle solutions. For AMP concentrations from ∼3 μM to 2.9 mM the overall AMP removal from solution can be described by linear isotherms with removal coefficients (Kr) of 3028 (±267) L kg−1 at pH 2, 11,533 (±823) L kg−1 at pH 4, 12,712 (±672) L kg−1 at pH 6, and 1941 (±342) L kg−1 at pH 8. Mass spectral analysis of AMP solutions after removal of the solid nanoparticles yielded ions that indicate the presence of peniclloic acid, penilloic acid and related de-ammoniated by-products as possible compounds resulting from the degradation of AMP at the TiO2 surface. 相似文献
400.
Effect of biochar amendment on sorption and leaching of nitrate, ammonium, and phosphate in a sandy soil 总被引:38,自引:0,他引:38
When applied to soils, it is unclear whether and how biochar can affect soil nutrients. This has implications both to the availability of nutrients to plants or microbes, as well as to the question of whether biochar soil amendment may enhance or reduce the leaching of nutrients. In this work, a range of laboratory experiments were conducted to determine the effect of biochar amendment on sorption and leaching of nitrate, ammonium, and phosphate in a sandy soil. A total of thirteen biochars were tested in laboratory sorption experiments and most of them showed little/no ability to sorb nitrate or phosphate. However, nine biochars could remove ammonium from aqueous solution. Biochars made from Brazilian pepperwood and peanut hull at 600 °C (PH600 and BP600, respectively) were used in a column leaching experiment to assess their ability to hold nutrients in a sandy soil. The BP600 biochar effectively reduced the total amount of nitrate, ammonium, and phosphate in the leachates by 34.0%, 34.7%, and 20.6%, respectively, relative to the soil alone. The PH600 biochar also reduced the leaching of nitrate and ammonium by 34% and 14%, respectively, but caused additional phosphate release from the soil columns. These results indicate that the effect of biochar on the leaching of agricultural nutrients in soils is not uniform and varies by biochar and nutrient type. Therefore, the nutrient sorption characteristics of a biochar should be studied prior to its use in a particular soil amendment project. 相似文献