固相萃取法提取水中酚类化合物的研究

对水中苯酚、氯代酚、甲基酚和硝基酚等酚类化合物的固相萃取过程进行了研究，从不同类型固相萃取柱中选择HLB柱用于水中多种酚类化合物的提取，并对水样酸化、固相萃取上样流量和淋洗流量及洗脱溶剂等萃取条件进行了优化。试验选择二氯甲烷/乙酸乙酯混合溶液（体积比为1∶1）作为固相萃取洗脱溶剂，确定10 mL/min～20 mL/min和1 mL/min～3 mL/min为适用的上样流量和淋洗流量范围，实现了14种不同类型酚类化合物的同步最优萃取，提取效率为69.8%～120%。     

水中多种酚类化合物衍生化方法研究

对水中14种酚类化合物的衍生化过程进行研究，选取不同衍生化试剂、衍生温度和衍生时间、最大衍生量等多个对衍生效率有决定性影响的参数进行优化。通过上述条件的优化选择，实现了对苯酚、氯代酚、甲基酚和硝基酚等14种不同类型酚类化合物最优的衍生化，衍生效率达到75．5％～119％。     

超声辅助对酚类化合物衍生化效率的影响

对超声辅助条件下14种酚类化合物的衍生化效率进行了研究。选取衍生反应的温度和时间等对衍生化效率有决定性影响的参数进行优化,结果发现,在75℃下反应60 min,14种酚类化合物的衍生化效率最优,是非超声辅助条件下衍生化效率的0.97~44.4倍,提升明显。该方法性能稳定、抗干扰能力强,能够满足水中酚类化合物衍生反应的需求。     

水样中痕量十溴联苯醚的分散液-液微萃取条件的优化

采用正交设计和Box-Penhnken响应面设计,对分散液-液微萃取技术萃取水样中痕量十溴联苯醚的条件进行了筛选和优化,得到最佳条件:四氯乙烯为萃取剂(10μl)、丙酮作分散剂(1ml)、pH范围5~9、离子强度,2%NaCl及萃取时间10min。此优化条件下分散液-液微萃取技术的萃取回收率可达92.37%~104.38%,富集倍数为508~611。优化条件下方法的线性范围为0.01~100ng/ml,检出限(S/N=2)为3.0pg/ml,加标回收率为96.25%~102.16%,精密度为5.44%~6.34%。     

顶空固相微萃取-气相色谱法测定水中氯酚类化合物

建立了水中2,4-二氯酚、2,4,6-三氯酚和五氯酚的顶空固相微萃取-气相色谱分析方法。研究确定以聚丙烯酸酯(PA,85μm)为萃取头,加入0.3 m L质量浓度为0.1 mol/L的H_2SO_4溶液和1.5 g的Na_2SO_4调节待测液的p H值和离子强度,萃取温度为80℃,萃取时间为50 min,搅拌速率为250 r/min时萃取效果最好;最佳解吸时间为5 min。在该优化条件下,3种物质在0.1~10 000μg/L范围内线性良好,相关系数R2均0.999,检出限为0.023~0.13μg/L,实际样品的加标回收率为82.5%~101.7%。该方法萃取过程不需有机溶剂,绿色、简便,且具有较高的灵敏度,适用于地表水、地下水等环境水样中氯酚类化合物的痕量检测与批量分析。     

水中有机磷农药分析前处理方法探讨

分别采用液-液萃取、固相萃取前处理方法,提取水中10种常见的有机磷农药,对比了这两种提取方法的测定结果、经济成本、花费时间及对环境的影响,建议逐步用固相萃取法取代液？液萃取法提取水中有机磷农药。     

分散液液微萃取-气相色谱法测定地表水中松节油

采用分散液液微萃取-气相色谱法测定地表水中松节油,通过试验优化萃取剂、分散剂的种类和用量、盐度等影响萃取效率的条件,使该方法在10.0μg/L~500μg/L范围内线性良好,方法检出限为1.6μg/L。用该方法测定实际水样,结果未检出。实际水样的3个质量浓度水平加标回收率为83.6%~104%,RSD为2.1%~8.3%。     

环境水体中痕量酚类化合物气相色谱-质谱联用测定法研究

建立了液-液萃取-气相色谱/质谱联用仪测定环境水体中痕量酚类化合物的方法。用乙酸乙酯萃取环境水中的痕量酚类化合物,加入萘-d8作为内标,利用气相色谱-质谱联用仪选择离子监测(SIM)的方式进行检测,内标法定量,定性、定量准确,线性响应良好,回归曲线的相关系数均>0.999,平均回收率在89.4%~104%之间,精密度好,相对标准偏差<7.4%;抗干扰能力强,检测灵敏度高,水样中最低检测浓度可达0.001mg/L,经实际样品测定完全能满足环境水体中痕量酚类化合物监测的要求。     

固相微萃取-GC/MS法测定水中18种酚类化合物

采用固相微萃取-气相色谱/质谱联用法测定水中18种酚类化合物,优化了溶液pH值、萃取时间、萃取温度、搅拌速率等萃取条件。方法在0.110 mg/L~1.61 mg/L范围内线性良好,18种酚类化合物的检出限为0.001 mg/L~0.015 mg/L(SIM)和0.003 mg/L~0.035 mg/L(SCAN),污水样品加标回收率为88.4%~97.4%。     

气相色谱-三重四极杆质谱法测定水中持久性有机氯污染物

建立了液液萃取一气相色谱三重四极杆质谱多反应监测同时测定水中16种持久性有机氯污染物的方法，考察了不同萃取剂不同体积对有机氯萃取效率的影响，确定了16种持久性有机氯化合物多反应监测模式（MRM）的最佳质谱条件。方法检出限为0.33 ~ 0.65 ng/L，以纯水为基体，加入16种不同浓度水平的持久性有机氯化合物作回收试验，测得回收率在80.2% ~ 103.6%之间，测定的相对标准偏差4.0% ~11.5%（n=7）。     

固相萃取-高效液相色谱法测定水中氯酚类化合物

采用固相萃取-高效液相色谱法测定水中7种氯酚类化合物,Waters OASIS WAX柱萃取效率最高,最佳萃取时间和洗脱时间分别为60和5 min。该法的线性范围为1.0~40 mg/L,检出限为0.015~0.5μg/L,精密度为0.558%~2.22%,回收率为83.2%~105%。该法适用于地表水及饮用水中氯酚类化合物的检测。     

Adsorption and detection of some phenolic compounds by rice husk ash of Kenyan origin

Rice husk ash (RHA) obtained from a rice mill in Kenya has been used as an inexpensive and effective adsorbent (and reagent) for the removal (and detection) of some phenolic compounds in water. The abundantly available rice mill waste was used in dual laboratory-scale batch experiments to evaluate its potential in: (i) the removal of phenol, 1,3-dihydroxybenzene (resorcinol) and 2-chlorophenol from water; and (ii) the detection of 1,2-dihydroxybenzene (pyrocatechol) and 1,2,3-trihydroxybenzene (pyrogallol) present in an aqueous medium. The studies were conducted using synthetic water with different initial concentrations of the phenolic compounds. The effects of different operating conditions (such as contact time, concentration of the phenolic compounds, adsorbent quantity, temperature, and pH) were assessed by evaluating the phenolic compound removal efficiency as well as the extent of their color formation reactions (where applicable). RHA exhibits reasonable adsorption capacity for the phenolic compounds and follows both Langmuir and Freundlich isotherm models. Adsorption capacities of 1.53 x 10(-4), 8.07 x 10(-5), and 1.63 x 10(-6) mol g(-1) were determined for phenol, resorcinol and 2-chlorophenol, respectively. Nearly 100% adsorption of the phenolic compounds was possible and this depended on the weight of RHA employed. For the detection experiments, pyrocatechol and pyrogallol present in water formed coloured complexes with RHA, with the rate of colour formation increasing with temperature, weight of RHA, concentration of the phenolic compounds and sonication. This study has proven that RHA is a useful agricultural waste product for the removal and detection of some phenolic compounds.     

Phenolic water pollutants in a Malaysian River basin

Phenolic chemicals with their very low taste and odour thresholds, high persistence and toxicity, are of growing concern as water pollutants. The compounds are known to exist in raw water as well as in treated water. The level of phenolic priority pollutants in water within the catchment area of the Linggi River Treatment Plant in Negeri Sembilan, Malaysia, which includes the Linggi river basin, was monitored. The 4-aminoantipyrin colourimetric method was used to determine total phenols whereas capillary column gas chromatography was used to determine the individual compounds. The results show that at most sampling stations, particularly those within the Seremban municipality, the level of phenols was found to exceed the recommended Malaysian standard of 2.0 g/L^-1 for raw water. This is seen as the direct impact of industrial and urbanization of the area and clearly indicates the unhealthy state of the Linggi river. The results also indicate the need to improve the water quality if the river is going to be used as a source of raw water.     

Multi-component analysis of polar water pollutants using sequential solid-phase extraction followed by LC-ESI-MS

A multi-component screening analysis method for polar to medium-polar water pollutants was developed. Sample clean-up and group separation are performed by sequential solid-phase extraction (SSPE) using automated SPE with C18 and polymeric sorbent materials. Analyses are performed by liquid chromatography electrospray ionization mass spectrometry (LC-ESI-MS) using a single-quadrupole instrument. More than 90 priority compounds of environmental interest--comprising the most important chemical and substance classes: phenols, carboxylic acids, aromatic sulfonates, aromatic amines, pharmaceuticals, surfactants, dyes, and pesticides--have been chosen for the experiments. The compounds are divided by the SSPE procedure into 3 different polarity classes. The extraction recoveries were determined in the 3 fractions for every single substance, and were for most of the analytes in the range of 50-100%. A mixture of hexane-dichloromethane was used for the elution of nonpolar compounds like alkylphenols from C18. Methanol and acetone are well suited for the elution of more polar substances. The limits of detection (LODs) were determined for all compounds. Effluents from municipal and industrial wastewater treatment plants (WWTPs) treating waste water from textile industries; and the corresponding receiving waters (rivers and lakes) have been analysed with the developed method. Urban and industrial pollution was observed in rivers and streams in the area north of Milan, Italy. In the water samples different phenols (nitrophenols, bisphenol A, nonylphenol), alkylphenol ethoxylate surfactants, their metabolites with endocrine disrupting potential, aromatic sulfonates, linear alkylbenzenesulfonate surfactants, dyes, pesticides, pharmaceuticals, and a dichlorobenzidine compound were identified.     

西夫(Schiff)碱侧链聚硅氧烷毛细管柱气相色谱固定相的制备与色谱性能

将合成的西夫 (Schiff)碱侧链聚硅氧烷高分子液晶化合物用作毛细管柱气相色谱固定相 ,具有较高的柱效 ,热稳定性较好 ,最高柱温可达 2 80℃ ,对苯的各种取代物、酚类及多环芳烃有良好的选择性 ,尤其对位置异构体有独特的分离效果。     

固相萃取-高效液相色谱法测地表水中11种酚类化合物

建立了固相萃取-高效液相色谱法同时测定地表水中11种酚类化合物的方法。水样经过全自动固相萃取仪富集,以HLB柱为萃取柱,乙腈(含1%乙酸)为洗脱剂,用高效液相色谱仪分析定量。该方法在0.5~5.0 mg/L范围内线性良好,相关系数为0.999 6~0.999 9,11种酚类化合物的纯水加标回收率为82.0%~111%,地表水加标回收率为98.5%~116%,精密度为3.58%~4.67%,检出限为1×10-4~5×10-4mg/L,该方法简单实用、准确可靠,可用于地表水中酚类化合物的同时测定。     

Assessment of priority phenolic compounds in sediments from an extremely polluted coastal wetland (Lake Maryut, Egypt)

Although high concentrations of trace organic pollutants were recorded along the Egyptian Mediterranean Coast and its corresponding coastal wetlands, no published data are available for the levels of phenolic compounds. Thus, this work aimed to investigate the levels of phenolic compounds in sediments of a heavily polluted coastal wetland (Lake Maryut, Egypt). For that purpose, a method was optimized for the extraction and detection of chlorophenols, methylphenols, and nitrophenols in sediments using GC-MS. Sediments were extracted with 0.1 M NaOH/methanol by sonication. Cleanup of sediment extracts using liquid–liquid extraction and SPE was found important to remove most of the interfering co-extracts. The proposed analytical methodology was validated by analysis of matrix spikes. Detection limits were 0.063–0.694 μg/kg dw for sediments. Good recoveries (70–110%) and precision values (RSD?<?20%) were obtained from the fortification experiments at the parts per billion level in sediments. The method was applied to investigate the level of contamination with phenols in 19 sediment samples from Lake Maryut. Results revealed that higher concentrations were observed in the main basin (MB) of Lake Maryut affected by the discharge of effluents from a primary wastewater treatment plant, direct discharge of industrial effluents, domestic wastes, and agricultural effluents from Qalaa Drain (QD). Chlorophenols (CPs) were the major group detected in the lake sediments followed by methylphenols (MPs) and nitrophenols (NPs). CPs were dominated by 2-, 4-, and 3-chlorophenols. Concentrations of CPs were higher at the north and northwestern parts of the MB indicating the influence of industrial effluents discharged into the lake. On the other hand, higher concentrations of NPs were observed at the south and southwestern parts of the MB, which is subjected to the discharge of agricultural and domestic effluents via QD. Results of the risk assessment revealed that phenol, cresols, 2,4-dinitrophenol, 4-NP, 2-CP, 2,3,4,6-tetrachlorophenol and 2,4-dimethylphenol are contaminants of concern and that adverse ecological effects could possibly occur to benthic species from the exposure to these pollutants in Lake Maryut and thus phenols should be included in monitoring and pollution prevention programs in the Egyptian aquatic environment affected by anthropogenic activities.     

Using a Composite Membrane for Enhanced Sensitivity and Faster Response in On-line Membrane Extraction Microtrap Gas Chromatography

On-line membrane extraction microtrap (OLMEM) gas chromatography was used for continuous monitoring of volatile organic compounds (VOCs) in water. The aqueous sample flowed through tubular membrane and the VOCs selectively permeated through it. The permeated VOCs were stripped by a carrier gas and transported to a microtrap. The microtrap retained and concentrated the analytes before injecting into a GC. In this study, the performance of a composite membrane was compared with that of a conventional silicone membrane. The advantages of using the composite membrane were higher extraction efficiency and shorter response time. Extraction efficiencies as high as 95% were obtained for compounds such as toluene and trichloroethane.     

垃圾填埋场地下水污染对居民健康的风险评价

调查了某垃圾填埋场地下水和周边居民饮用水中的As、Hg等重金属和挥发酚等有机物的污染状况，运用美国环保局的健康风险计算模型，评估了该垃圾填埋场地下水对周边居民的潜在健康风险。结果表明，各类人群对4种有阈化合物的饮食和皮肤暴露的终身健康危险度在8．2×10^-11～1．3×10^-10之间，均低于可以接受的风险水平10^-6；对As的终身超额健康危险度在3．1×10^-7～4．9×10^-7之间，表明地下水中砷污染对居民潜在的致癌风险不明显。各类人群通过皮肤对Hg、As、Cd和挥发酚的暴露剂量比通过饮水暴露的剂量高0．7倍～14．5倍，皮肤暴露将是地下水影响人体健康并构成潜在风险的重要途径。