热脱附法快速分析大气细颗粒物中非极性有机物

Ying Ge Ma; Xia Wu; Meng Meng Peng; Jia Liang Feng; Jian Zhen Yu; Li Ping Qiao; Min Zhou; Shu Hui Zhu; Li Li

doi:10.13227/j.hjkx.201801294

热脱附法快速分析大气细颗粒物中非极性有机物

Translated title of the contribution: Analysis of Non-polar Organic Compounds in PM _2.5 by Rapid Thermo-desorption Method Coupled with GC/MS

Ying Ge Ma, Xia Wu, Meng Meng Peng, Jia Liang Feng, Jian Zhen Yu, Li Ping Qiao, Min Zhou, Shu Hui Zhu, Li Li^*

^*Corresponding author for this work

Department of Chemistry

Research output: Contribution to journal › Journal Article › peer-review

Abstract

Non-polar organic compounds (NPOCs) associated with PM _2.5 in the atmosphere were analyzed by automated thermo-desorption (TD) coupled with gas chromatography/mass spectrometry (TD-GC/MS). The analyses for a total of 72 NPOCs were reviewed, including 34 PAHs, one Debenzothiophene, 27 alkanes (C ₁₀ -C ₃₄ ), 5 hopanes and 5 steranes. Through this improved TD method, operation of filter loadings, TD condition and sample introduction were optimized. The MDL were 0.01-1.0, 0.1-8.0 and 0.50-2.0 ng•m ^-3 for PAHs, alkanes, hopanes and steranes, respectively. Calibration curve linearities were above 0.9 for all compounds. The TD efficiencies were 95%-100% for PAHs, 81%-100% for alkanes and 83.1%-100% for hopanes and steranes. PM _2.5 samples were pretreated by TD and ultrasonic extraction methods separately and analyzed by GC/MS in two laboratories. Results from these two methods were comparable, as the relative biases were less than 30% for most compounds. Analysis results of PM _2.5 samples from Linan and Shanghai showed that NPOCs were higher in winter than that in summer. Alkanes were predominant among NPOCs, followed by PAHs. Source analysis by PAH characteristic ratios indicated that fossil fuel burning and coal burning were the main sources of NPOCs in the two sites during the sampling periods.

Translated title of the contribution	Analysis of Non-polar Organic Compounds in PM _2.5 by Rapid Thermo-desorption Method Coupled with GC/MS
Original language	Chinese (Traditional)
Pages (from-to)	4446-4456
Number of pages	11
Journal	Huanjing Kexue/Environmental Science
Volume	39
Issue number	10
DOIs	https://doi.org/10.13227/j.hjkx.201801294
Publication status	Published - 15 Oct 2018

Bibliographical note

Publisher Copyright:
© 2018, Science Press. All right reserved.

Keywords

Chemical composition
Fine particle (PM )
Non-polar organic compounds
Source analysis
Thermo-desorption

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10.13227/j.hjkx.201801294

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@article{613b95645cd94f4eb99a17d50bb77a06,

title = "热脱附法快速分析大气细颗粒物中非极性有机物",

abstract = " Non-polar organic compounds (NPOCs) associated with PM 2.5 in the atmosphere were analyzed by automated thermo-desorption (TD) coupled with gas chromatography/mass spectrometry (TD-GC/MS). The analyses for a total of 72 NPOCs were reviewed, including 34 PAHs, one Debenzothiophene, 27 alkanes (C 10 -C 34 ), 5 hopanes and 5 steranes. Through this improved TD method, operation of filter loadings, TD condition and sample introduction were optimized. The MDL were 0.01-1.0, 0.1-8.0 and 0.50-2.0 ng•m -3 for PAHs, alkanes, hopanes and steranes, respectively. Calibration curve linearities were above 0.9 for all compounds. The TD efficiencies were 95\%-100\% for PAHs, 81\%-100\% for alkanes and 83.1\%-100\% for hopanes and steranes. PM 2.5 samples were pretreated by TD and ultrasonic extraction methods separately and analyzed by GC/MS in two laboratories. Results from these two methods were comparable, as the relative biases were less than 30\% for most compounds. Analysis results of PM 2.5 samples from Linan and Shanghai showed that NPOCs were higher in winter than that in summer. Alkanes were predominant among NPOCs, followed by PAHs. Source analysis by PAH characteristic ratios indicated that fossil fuel burning and coal burning were the main sources of NPOCs in the two sites during the sampling periods.",

keywords = "Chemical composition, Fine particle (PM ), Non-polar organic compounds, Source analysis, Thermo-desorption",

author = "Ma, \{Ying Ge\} and Xia Wu and Peng, \{Meng Meng\} and Feng, \{Jia Liang\} and Yu, \{Jian Zhen\} and Qiao, \{Li Ping\} and Min Zhou and Zhu, \{Shu Hui\} and Li Li",

year = "2018",

month = oct,

day = "15",

doi = "10.13227/j.hjkx.201801294",

language = "Chinese (Traditional)",

volume = "39",

pages = "4446--4456",

journal = "Huanjing Kexue/Environmental Science",

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publisher = "Science Press ",

number = "10",

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TY - JOUR

T1 - 热脱附法快速分析大气细颗粒物中非极性有机物

AU - Ma, Ying Ge

AU - Wu, Xia

AU - Peng, Meng Meng

AU - Feng, Jia Liang

AU - Yu, Jian Zhen

AU - Qiao, Li Ping

AU - Zhou, Min

AU - Zhu, Shu Hui

AU - Li, Li

PY - 2018/10/15

Y1 - 2018/10/15

N2 - Non-polar organic compounds (NPOCs) associated with PM 2.5 in the atmosphere were analyzed by automated thermo-desorption (TD) coupled with gas chromatography/mass spectrometry (TD-GC/MS). The analyses for a total of 72 NPOCs were reviewed, including 34 PAHs, one Debenzothiophene, 27 alkanes (C 10 -C 34 ), 5 hopanes and 5 steranes. Through this improved TD method, operation of filter loadings, TD condition and sample introduction were optimized. The MDL were 0.01-1.0, 0.1-8.0 and 0.50-2.0 ng•m -3 for PAHs, alkanes, hopanes and steranes, respectively. Calibration curve linearities were above 0.9 for all compounds. The TD efficiencies were 95%-100% for PAHs, 81%-100% for alkanes and 83.1%-100% for hopanes and steranes. PM 2.5 samples were pretreated by TD and ultrasonic extraction methods separately and analyzed by GC/MS in two laboratories. Results from these two methods were comparable, as the relative biases were less than 30% for most compounds. Analysis results of PM 2.5 samples from Linan and Shanghai showed that NPOCs were higher in winter than that in summer. Alkanes were predominant among NPOCs, followed by PAHs. Source analysis by PAH characteristic ratios indicated that fossil fuel burning and coal burning were the main sources of NPOCs in the two sites during the sampling periods.

AB - Non-polar organic compounds (NPOCs) associated with PM 2.5 in the atmosphere were analyzed by automated thermo-desorption (TD) coupled with gas chromatography/mass spectrometry (TD-GC/MS). The analyses for a total of 72 NPOCs were reviewed, including 34 PAHs, one Debenzothiophene, 27 alkanes (C 10 -C 34 ), 5 hopanes and 5 steranes. Through this improved TD method, operation of filter loadings, TD condition and sample introduction were optimized. The MDL were 0.01-1.0, 0.1-8.0 and 0.50-2.0 ng•m -3 for PAHs, alkanes, hopanes and steranes, respectively. Calibration curve linearities were above 0.9 for all compounds. The TD efficiencies were 95%-100% for PAHs, 81%-100% for alkanes and 83.1%-100% for hopanes and steranes. PM 2.5 samples were pretreated by TD and ultrasonic extraction methods separately and analyzed by GC/MS in two laboratories. Results from these two methods were comparable, as the relative biases were less than 30% for most compounds. Analysis results of PM 2.5 samples from Linan and Shanghai showed that NPOCs were higher in winter than that in summer. Alkanes were predominant among NPOCs, followed by PAHs. Source analysis by PAH characteristic ratios indicated that fossil fuel burning and coal burning were the main sources of NPOCs in the two sites during the sampling periods.

KW - Chemical composition

KW - Fine particle (PM )

KW - Non-polar organic compounds

KW - Source analysis

KW - Thermo-desorption

UR - https://openalex.org/W2996993166

UR - https://www.scopus.com/pages/publications/85059054128

U2 - 10.13227/j.hjkx.201801294

DO - 10.13227/j.hjkx.201801294

M3 - Journal Article

C2 - 30229590

SN - 0250-3301

VL - 39

SP - 4446

EP - 4456

JO - Huanjing Kexue/Environmental Science

JF - Huanjing Kexue/Environmental Science

IS - 10

ER -

热脱附法快速分析大气细颗粒物中非极性有机物

Abstract

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Keywords

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