共存污染物对阿特拉津在天然沉积物上吸附的影响

实验研究了重金属和表面活性剂对阿特拉津在沉积物上吸附的影响.结果表明,Cu2 和Cd2 在低浓度时对阿特拉津吸附无影响或降低其吸附,高浓度时则能明显或轻微促进其吸附.在实验浓度范围内,与对照相比,表面活性剂十二烷基苯磺酸钠(SDBS)和十六烷基三甲基溴化铵(CTAB)抑制阿特拉津的吸附,而Span 20则在低浓度时(≤1mg·L-1)抑制阿特拉津的吸附,高浓度时(>1mg·L-1)促进其吸附.     

Voltammetric detection of trifluralin in tap water,fruit juice,and vegetable extracts in the presence of surfactants

This study describes a novel electrochemical method to determine the herbicide trifluralin in samples of water, fruit juice, and vegetable extracts in the presence of surfactants, using a glassy carbon electrode (GCE). In acidic media, trifluralin was irreversible on the glassy carbon electrode surface at ?0.5 V vs. Ag/AgCl. Surfactant presence on the electrode–solution interface modified current intensities and shifted the reduction peak potential of trifluralin. Different types of surfactant and their concentrations were investigated. The anionic surfactant significantly enhanced the peak current intensity of trifluralin. Under optimal analytical conditions, an analytical curve was obtained in the concentration range of 0.48–32.20 µM. The limits of detection and quantification were estimated at 0.031 and 0.104 µM, respectively. The method was successfully applied to quantify trifluralin in samples of water, orange and tomato juice, and green pepper, carrot, and onion extracts, with recovery rates of 97.9–102.1%. The results were in good agreement with those obtained using high-performance liquid chromatography, indicating that the proposed electrochemical method can be employed to quantify trifluralin in various types foods, with sensitivity, specificity, selectivity and reproducibility.     

Effervescence assisted dispersive liquid–liquid microextraction followed by microvolume UV-Vis spectrophotometric determination of surfactants in water

The novel and simple methods for the sensitive determination of cationic and anionic surfactants in water based on effervescence assisted dispersive liquid–liquid microextraction and microvolume UV-Vis spectrophotometry have been developed. The method involves ion-pair extraction of cationic and anionic surfactants with organic dyes (methyl orange and azure A, respectively) during the dispersion of extraction solvent (CHCl₃) by CO₂ bubbles which are formed by the injection of a mixture of the extraction solvent and proton donor solvent into the sample solution which contains carbonate-ions as effervescency agent. The analytical performance of the proposed procedure was compared with the conventional dispersive liquid–liquid microextraction. Appropriate experimental conditions for both methods were investigated. The absorbances of the colored extracts at wavelengths of 440 and 625 nm obey Beer's law within the range of 0.1–5.0 mg/L for both cationic and anionic surfactants. The limit of detection (LOD) obtained using the effervescence assisted extraction method was 30 µg/L for cationic and anionic surfactants. The proposed methods were successfully applied to determination of surfactants in water samples.     

水中阴离子表面活性剂的测量不确定度评定

简要介绍了测量不确定度的概念，运用《测量不确定度评定与表示》的技术规范，通过对阴离子表面活性剂的测定过程，分析了影响阴离子表面活性剂测量不确定度的因素，给出了相对标准不确定度分量，并具体阐明了测量不确定度的评定步骤，得出测量扩展不确定度的结果。     

典型表面活性剂对焦化污泥中富集多环芳烃的解吸

焦化废水中的多环芳烃(Polycyclic Aromatic Hydrocarbons,PAHs)由于其亲脂性极易转移至污泥相中,此过程成为微生物降解污泥中PAHs的传质受限步骤.基于表面活性剂解吸焦化污泥中富集的PAHs以利于微生物降解的构想,采用两种典型的表面活性剂—Triton X~(-1)00和十二烷基硫酸钠(Sodium Dodecyl Sulfate,SDS)来考察其对菲、芘和苯并[a]芘的增溶作用,对比了不同浓度的菲、芘和苯并[a]芘在焦化污泥上的吸附特征,探讨了表面活性剂对焦化污泥中富集多环芳烃的解吸行为.结果发现,表面活性剂对菲、芘和苯并[a]芘的增溶能力与三者的亲脂性存在负相关的关系,它们在焦化污泥上的吸附特征可用Freundlich等温吸附模型来描述,影响吸附容量的因素包括PAHs的亲脂性和焦化污泥的理化性质;SDS与Triton X~(-1)00共同作用时对芘和苯并[a]芘的增溶更明显;以两者混合质量计的1 g表面活性剂在16 d内可以解吸1.12mg的总PAHs.上述研究可以作为焦化污泥生物修复的增溶工艺中表面活性剂需求量计算的参考依据.     

几种表面活性剂洗脱修复苊污染黑土研究

采用批量平衡振荡法研究了几种阴离子和非离子表面活性剂在单一使用和混合使用条件下对苊污染黑土的洗脱作用及影响因素。结果表明:4种表面活性剂对苊洗脱率的大小顺序为SDBS>SDS>Triton X-100>Tween40,且浓度越大,洗脱效果越好。将SDBS和Triton X-100按一定质量比例混合后可大幅度提高苊的洗脱率,不同质量比的苊洗脱率大小顺序为1∶9>1∶3>9∶1>1∶1>3∶1。水土比为20∶1的条件下,SDBS对苊污染黑土洗脱能力最高,15∶1时次之,10∶1时最低。NaCl和MgCl_2在低浓度条件下即可大幅度降低SDBS对黑土中苊的洗脱率。菲-苊混合污染土壤中,菲的存在使表面活性剂对苊的洗脱率下降。     

Na2SO4改善阴离子表面活性剂湿润煤尘性能的研究

本从实验和理论两方面研究了硫酸钠（Na2SO4)改善阴离子表面活性剂溶液湿润煤尘的过程。结果表明,试验用的3种阴离子表面活性剂溶液添加Na2SO4后,对难湿润煤尘的湿润能力均有很大改善。对浓度较低的表面活性剂溶液,Na2SO4起的湿润作用更大。添加Na2SO4改善阴离子表面活性剂溶液湿润能力的主要原因有：（1）表面活性剂或添加Na2O4的表面活性剂复合物降低了水的表面张力;（2）煤尘表面的疏水晶格吸附表面活性剂产生亲水作用;（3）SO4^2-吸附在煤尘表面的亲水晶格上使其保持亲水性;（4）在煤尘疏水晶格上的表面活性剂分子密实填充作用改善其亲水性;（5）在已吸附有表面活性剂的煤尘表面上继续吸附表面活性剂形成半胶束,恢复其亲水性。当表面活性剂使溶液的表面张力降低到临界值以下时,溶液的表面张力对湿润能力不再起重要作用,此时起主导作用的因素是（2）和（3）,其次是（4）和（5）。由于用Na2SO4和低浓度的表面活性剂几乎可以达到单一高浓度表面活性剂的效果,而且Na2SO4的价格比各种表面活性剂的价格要低得多,用添加部分Na2SO4的方法减少表面活性剂的用量,可以大大节约湿润剂的成本。     

nTiO2在水中的分散沉降行为研究

nTiO2进入水环境后,其存在形态及环境行为主要受水环境因素影响.以P25 nTiO2为研究对象,通过改变nTiO2悬浊液的pH值、电解质和表面活性剂种类,分析了nTiO2的分散、团聚及沉降行为.结果表明,pH通过改变nTiO2颗粒的Zeta电位影响nTiO2在水中的稳定性,等电点附近nTiO2发生显著聚沉.nTiO2颗粒选择性吸附AlCl3、CaCl2、NaCl及Na2SO4电离产生的荷电离子,阳离子的吸附中和了TiO2颗粒表面的负电荷,导致颗粒急速聚沉;阴离子的吸附使颗粒间静电斥力增强,颗粒稳定存在于水中.不同类型的表面活性剂通过改变nTiO2颗粒表面性质,增强nTiO2颗粒在水中的稳定性.运用DLVO理论建立了nTiO2的势能方程,势能曲线拟合结果表明,水环境条件通过影响颗粒间势能大小影响nTiO2在水中的分散沉降行为.     

地面水中的非离子氨及其数学计算法

非离子氨的换算工作在我国才刚开始,由于存在不少问题,给标准执行中带来一定困难。本文从水化学实际出发,根据化学平衡原理,导出了水体中非离子氨分布系数(或百分率)的计算公式及其浓度的换算公式。既引入了水温,pH,还引入了离子强度,且介绍了两个水中离子强度的经验计算公式,使计算手续大为简化。本文提出的计算公式,不仅能满足淡水水体的需要,也能满足其它水体,如海水的需要。     

阴-非混合表面活性剂对DNAPLs的增溶作用

表面活性剂增溶修复是一种有效的土壤有机污染修复技术.采用静态平衡法比较研究了单一的阴离子表面活性剂十二烷基硫酸钠(SDS)和非离子表面活性剂聚氧乙烯失水山梨脂肪酸酯醇醚(TWSO)及其混合表面活性剂对3种氯代烃化合物氯苯(CB)、1,2-二氯苯(1,2-DCB)和三氯乙烯(TCE)的增溶作用.考察了无机盐离子Na 、M2 和Ca2 对增溶作用的影响,以期为土壤和地下水重非水相液体(DNAPLs)污染提供新的修复途径.结果表明,阴-非混合表面活性剂TW80-SDS对3种化合物的增溶效果明显强于单一的阴离子表面活性剂SDS,混合表面活性剂的临界胶束浓度(CMC)随着非离子表面活性剂质量分数的增加而降低,其增溶能力随着非离子表面活性剂质量分数的增加而增加,对污染物的增溶程度排序为:三氯乙烯＞氯苯＞1,2-二氯苯.表面活性剂在临界胶束浓度以上,对有机物的分配系数Kmc与有机物的辛醇-水分配系数Kow相当,而增溶比与有机物的水溶解度呈正相关,与Kow、kow、溶质的摩尔体积和表面活性剂的亲水-亲油平衡值HLB呈负相关.Na 、Mg2 和Ca2 能增大氯苯在表面活性剂中的表观溶解度,阴非离子表面活性剂SDS与TW80混合后能提高表面活性剂的抗硬水能力,提高增溶效率.