Thermal extraction coupled with gas chromatography-mass spectrometry as a tool for analysing dioxin surrogates and precursors in fly ash

Tsytsik P; Czech J; Carleer R

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Thermal extraction coupled with gas chromatography-mass spectrometry as a tool for analysing dioxin surrogates and precursors in fly ash

机译：热萃取结合气相色谱-质谱法作为分析粉煤灰中二恶英替代物和前体的工具

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Thermal extraction-GC-MS (TE-GC-MS) is a relatively new analytical technique which demonstrates a large potential for the analysis of various solid matrices. This technique provides a rapid quantitative and simultaneous determination of a wide range of volatile and semi-volatile organic compounds without laborious sample preparation or any chemical pre-treatment. Its amenability to automation and coupling with on-line detection methods makes TE-GC-MS a promising technique, not only in laboratory analysis, but also for in situ emission monitoring. However, the number of studies dedicated to the application of TE-GC-MS to fly ashes, which are an unavoidable by-product of any thermal industrial process and also the sink of many environmental pollutants, is limited. The ability of TE-GC-MS to analyse a wide range of trace semi-volatile dioxin surrogate compounds in fly ash samples is investigated as an alternative to the well-established solvent extraction-GC-MS analysis (SE-GC-MS). Reproducibility, the effect of TE temperature, time, flow, and the influence of the analysed matrix are studied. Dedicated experiments demonstrate that the conversion (dechlorination and in situ formation) of target analytes and the decomposition of the fly ash matrix can take place at elevated TE temperatures and during prolonged TE times. Moreover, these effects are matrix-specific and vary from sample to sample. After optimizing the TE parameters, two fly ash samples of different origins are analysed and more than 50 individual analytes representing different classes of aromatic compounds are quantified and compared with those available from the SE-GC-MS analysis. (c) 2008 Elsevier B.V. All rights reserved.

机译：热萃取-GC-MS（TE-GC-MS）是一种相对较新的分析技术，它显示出分析各种固体基质的巨大潜力。该技术无需复杂的样品制备或任何化学预处理即可快速定量地同时测定各种挥发性和半挥发性有机化合物。 TE-GC-MS的自动化适应性以及与在线检测方法的结合使TE-GC-MS不仅在实验室分析中，而且在现场排放监测中都成为有前途的技术。但是，专门用于TE-GC-MS的飞灰的研究数量有限，飞灰是任何热工业过程中不可避免的副产物，也是许多环境污染物的汇入地。作为一种完善的溶剂萃取-GC-MS分析（SE-GC-MS）的替代方法，研究了TE-GC-MS分析粉煤灰样品中各种痕量半挥发性二恶英代孕化合物的能力。研究了重现性，TE温度，时间，流量的影响以及所分析基质的影响。专门的实验表明，目标分析物的转化（脱氯和原位形成）和粉煤灰基质的分解可以在升高的TE温度下以及较长的TE时间内发生。而且，这些效应是特定于基质的，并且随样品的不同而不同。在优化TE参数之后，将分析两个不同来源的粉煤灰样品，并对代表不同类别的芳族化合物的50多种单独的分析物进行定量，并将其与SE-GC-MS分析中的分析物进行比较。（c）2008 Elsevier B.V.保留所有权利。

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《Journal of chromatography, A: Including electrophoresis and other separation methods》 |2008年第2期|共10页
作者
Tsytsik P; Czech J; Carleer R;
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正文语种 eng
中图分类仪器分析法（物理及物理化学分析法）;
关键词
Thermal extraction; Dioxin surrogates; Matrix effects; Fly ash; GC-MS; PCBzs; PCPhs; PAHs; ORGANIC-COMPOUNDS; AEROSOLS; DESORPTION; VALIDATION; EMISSIONS; CARBON; GC/MS; MS;

机译：热萃取;二恶英替代物;基体效应;粉煤灰;GC-MS;PCBzs;PCPhs;PAHs;有机化合物;气溶胶;吸附;验证;排放;碳;GC / MS;MS;

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Thermal extraction coupled with gas chromatography-mass spectrometry as a tool for analysing dioxin surrogates and precursors in fly ash

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