MnO2催化KMnO4氧化降解酚类化合物

研究了MnO2强化KMnO4氧化降解酚类化合物的效能与机制.在假一级动力学实验条件下(KMnO4初始浓度是目标有机物初始浓度的10倍),考察了KMnO4对酚类化合物(2-氯酚和4-氯酚)的氧化降解规律.发现在KMnO4氧化降解酚类化合物过程中存在着明显的自催化现象,即原位产生的胶体MnO2可以促进KMnO4对有机物的氧化降解.实验进一步考察了MnO2浓度、粒径大小和溶液pH对MnO2催化KMnO4氧化降解酚类化合物的影响.结果表明,外加胶体MnO2和颗粒MnO2都可以催化KMnO4氧化降解酚类化合物,而且假一级动力学常数(K)随着MnO2浓度(30～180μmol·L-1)的增加呈线性增加;与胶体MnO2相比,颗粒MnO2的催化能力较弱;随着溶液pH的增加,MnO2催化能力逐渐减弱.实验中还发现外加MnO2能够催化KMnO4氧化降解2-硝基酚(单独MnO2和KMnO4均不能将其氧化),但对于二甲基亚砜(其不具有与金属离子络合配位的能力)则没有催化作用.由此推测MnO2催化KMnO4氧化降解有机物的作用机制可能为表面吸附络合催化,即吸附在MnO2表面形成的络合物比存在于溶液中的有机物本身更易被KMnO4氧化.     

Material conversion from paper sludge ash in NaOH solution to synthesize adsorbent for removal of Pb^2＋, NH^4＋ and PO4^3- from aqueous solution

Material conversion from paper sludge ash (PSA) in NaOH solution was attempted to synthesize the adsorbent for removal of inorganic pollutants, such as Pb2+, NH4 + and PO4 3?? from aqueous solution. PSA of 0.5 g was added into 10 mL of 3 mol/L NaOH solution, and then heated at 80, 120, and 160°C for 6–48 hr to obtain the product. PSA mainly composed of two crystalline phases, gehlenite (Ca2Al2SiO7) and anorthite (CaAl2Si2O8), and amorphous phase. Hydroxysodalite (Na6Al6Si6O24 8H2O) was formed at 80°C, and anorthite dissolved, whereas gehlenite remained una ected. Katoite (Ca3Al2SiO4(OH)8) was formed over 120°C, and hydroxycancrinite (Na8(OH)2Al6Si6O24 2H2O) was formed at 160°C, due to the dissolution of both gehlenite and anorthite. Specific surface areas of the products were almost same and were higher than that of raw ash. Cation exchange capacities (CECs) of the products were also higher than that of raw ash, and CEC obtained at lower temperature was higher. Removal abilities of products for Pb2+, NH4 +, and PO4 3?? were higher than that of raw ash.With increasing reaction temperature, the removal e ciencies of Pb2+ and NH4 + decreased due to the decrease of CEC of the product, while removal e ciency for PO4 3?? was almost same. The concentrations of Si and Al in the solution and the crystalline phases in the solid during the reaction explain the formation of the product phases at each temperature.     

Residue and persistence of insecticide l-(2-chlorobenzoyl)-3-(4-chlorophenyl)urea in C hinese cabbage and soils in the Northern China

The residue and persistence of the insect growth regulator 1-(2-(chlorobenzoyl)-3-(4-chlorophenyl)urga(CCU)in Chinese cabbage and soil in the field were studied in Northern China during 1988-1989．The degradation of CCU in soils was also studied under laboratory conditions．The CCU was found to be unstable in Chmese cabbage and soil in field．The half-life ofCCU was 13.2-14.0 days in Chinese cabbage and 8.8-27.0 days in soil,respectively．Three ppm as the maximum residue level for CCU in Chinese cabbage and 21 days as the preharvest interval for the vegetable treated with CCU were recommendced．     

针铁矿、磁铁矿和石膏对2,4-二氯苯酚厌氧降解的影响

2,4-二氯苯酚(2,4-dichlorophenol,2,4-DCP)常用于农药生产,在水体和土壤中广泛分布,具有难降解、高毒性的特点.通过模拟自然过程,在厌氧反应体系中投加铁氧化物和硫酸盐矿物,重点考察了不同矿物对2,4-DCP降解的影响.结果发现,厌氧体系中针铁矿、磁铁矿和石膏对2,4-DCP均没有明显的吸附作用;质量衡算结果表明所有反应体系中仅发生2,4-DCP向4-氯苯酚(4-chlorophenol,4-CP)的转化;与无外加碳源组相比,乙酸钠的加入使得2,4-DCP的还原脱氯反应速率增大一倍.分析表明针铁矿和磁铁矿加入可刺激脱氯功能菌的生长或活性,进而提高微生物的电子传递能力和2,4-DCP的降解速率;石膏加入强烈抑制脱氯功能菌的生长或活性,进而抑制2,4-DCP的降解.研究结果对认识难生化降解卤代酚在厌氧环境中的迁移转化及环境工程中此类物质的处理具有潜在意义.     

北京市燕山地区大气颗粒物中NO3－和SO42－浓度变化规律及其与O3

用ＫＢ－１２０型大气颗粒采样器采样,离子色谱法分析其中水溶性无机阴离子组分。结果表明,北京市燕山石油化工区大气颗粒物中和浓度随季节变化显著,夏季和平均浓度分别为９．４０μｇ／ｍ３和２８．２２μｇ／ｍ３;秋季分别为４．１２μｇ／ｍ３和３．８０μｇ／ｍ３。     

Enhanced adsorption of Methylene Blue from aqueous solution by chitosan-g-poly （acrylic acid）/vermiculite hydrogel composites

A series of chitosan-g-poly (acrylic acid)/vermiculite hydrogel composites were synthesized and used as adsorbents for the investigation of the e ect of process parameters such as vermiculite content, pH of dye solution, contact time, initial concentration of dye solution, temperature, ionic strength and concentration of surfactant sodium dodecyl sulfate on the removal of Methylene Blue (MB) from aqueous solution. The results showed that the adsorption capacity for dye increased with increasing pH, contact time and initial dye concentration, but decreased with increasing temperature, ionic strength and sodium dodecyl sulfate concentration in the present of the surfactant. The adsorption kinetics of MB onto the hydrogel composite followed pseudo second-order kinetics and the adsorption equilibrium data obeyed Langmuir isotherm. By introducing 10 wt.% vermiculite into chitosan-g-poly (acrylic acid) polymeric network, the obtaining hydrogel composite showed the highest adsorption capacity for MB, and then could be regarded as a potential adsorbent for cationic dye removal in a wastewater treatment process.     

UV协同ClO2去除三氯生及其降解产物的研究

采用UV/Cl O2工艺对三氯生(TCS)的去除进行了研究,考察了初始p H、Cl O2投加量、TCS初始浓度、腐殖酸(HA)在UV/Cl O2联用工艺中对TCS降解的影响.研究表明,UV/Cl O2工艺可以有效去除TCS且具有协同作用,光强为6.5μW·cm-2、Cl O2投加量为0.5 mg·L-1和TCS浓度为300μg·L-1时,单独UV和Cl O2在1 min内对TCS的去除分别为5.23%和84.93%,UV/Cl O2联用工艺TCS在1 min内去除可达到99.13%.实验范围内(p H 6~9)随着p H的增大TCS去除率从99.4%升到99.63%;增大Cl O2投加量可以提高TCS的去除,Cl O2投加量从0.5~1.5 mg·L-1时TCS去除率由98.1%提高到99.89%;TCS初始浓度与去除率呈负相关,初始浓度从100~500μg·L-1时TCS去除率由99.98%下降到94.39%;低浓度的腐殖酸有利于TCS的去除,高浓度的腐殖酸则相反.GC/MS对TCS的UV、Cl O2和UV/Cl O2的降解产物分析表明,TCS的主要降解产物包括2,4-二氯苯酚(2,4-DCP)、2,7-二氯代二苯并-对-二英(2,7-DCDD)等.     

脉冲电晕放电降解CH2Cl2的初步研究

对高压脉冲电晕放电降解ＣＨ２Ｃｌ２进行初步研究,比较了正负脉冲电晕降解的活性,正脉冲电晕优于负脉冲电晕。探讨了脉冲形成电容Ｃｐ之值及反应器的电晕线材料对降解反应活性的影响。为进一步提高室温下ＣＨ２Ｃｌ２的降解,在反应器中加入ＢａＴｉＯ３为催化剂,在高压脉冲电场下,ＢａＴｉＯ３受激产生局部电晕,增强了电晕放电流性,提高了反应活性,ＣＨ２Ｃｌ２的转化率达９０％以上。     

气相色谱法测定水中CHCl3、CCl4 影响因素

为了准确的测定水中污染物CHCl_3和CCl_4浓度,采用顶空气相色谱法检测水中CHCl_3和CCl_4,讨论了实验环境、实验用水、采样容器等影响因素,达到准确测定的目的。测定CHCl_3浓度在1.00~10.00μg/L、CCl_4浓度在0.50~5.00μg/L范围内线性良好,测定样品中CHCl_3含量的相对标准偏差为0.44%~3.87%,CCl_4测定的相对标准偏差为0.94%~3.79%。     

PO43-和柠檬酸对稀土元素在小麦体内积累和分异的影响

基于营养液培养,添加外源稀土和ICP-MS分析技术,研究了无机配体PO₄^3-(Pi)及有机配体柠檬酸(Cit)对小麦器官中稀土元素积累和分异的影响.结果表明,不同Pi水平对小麦根中的稀土总含量(∑REE)影响较小,但显著降低叶中∑REE含量;而不同Cit水平对小麦根、叶中∑REE含量都有明显降低作用.对照植物(无Pi、Cit添加)中,稀土元素在小麦根中具有中稀土(MREE)富集及M-型四重效应分布特征,叶中有重稀土(HREE)富集及W-型四重效应分布特征.不同Pi处理对四重效应无明显作用,但进一步加强HREE在小麦叶片中的富集.添加柠檬酸使对照植物根和叶中的分异有逐渐减弱的趋势,在高浓度处理时(Cit≥150μmol·L^-),小麦根和叶中出现轻稀土(LREE)富集.