研究生: |
朱俊安 Chu, Chun-An |
---|---|
論文名稱: |
應用可攜式GC-FID連續分析監測大氣環境甲烷及工業區VOCs之研究 Research on continuous analysis and monitoring of ambient methane and VOCs in industrial area using portable GC-FID |
指導教授: |
呂家榮
Lu, Chia-Jung |
學位類別: |
碩士 Master |
系所名稱: |
化學系 Department of Chemistry |
論文出版年: | 2019 |
畢業學年度: | 107 |
語文別: | 中文 |
論文頁數: | 109 |
中文關鍵詞: | 可攜式氣相層析儀 、揮發性有機化合物 、前濃縮系統 、即時分析 、環境分析 、空氣品質 |
英文關鍵詞: | portable gas chromatograph, volatile organic compound, preconcentration system, real-time analysis, environmental analysis, air quality |
DOI URL: | http://doi.org/10.6345/NTNU201900203 |
論文種類: | 學術論文 |
相關次數: | 點閱:200 下載:15 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
在工業快速的發展下,環境汙染的問題逐漸的受到關注,其中揮發性有機化合物(Volatile Organic Compounds,VOCs)常常存在於工廠或是工業區甚至出現在我們所居住的城市中,同時也是光化學反應中二次有機氣溶膠(Secondary Organic Aerosol, SOA)之前驅物亦是生成臭氧(O3)及PM2.5過程的汙染物之一,然而除了境外汙染源的因素外,該如何確認及控管國內的揮發性有機化合物之排放並降低其對人民及勞工健康影響的課題是非常重要且刻不容緩的。
本實驗室開發的可攜式氣相層析儀(portable GC-FID)結合了三段式吸附劑前濃縮管裝置之方法且成功應用於台南市的工業園區之揮發性有機化合物連續監測,本研究所訂定的目標揮發性有機化合物為台南市環保局所提供的14種揮發性有機化合物以及甲烷,而環保局所提供的14種揮發性有機化合物中常常使用於化學製程、半導體科技產業等或汽機車尾氣排放等移動性污染源當中,並結合當地附近之空氣品質測站之氣象資料及後續的統計分析可以幫助分析人員初步判斷汙染的來源,在進行44小時連續監測的結果顯示其揮發性有機化合物濃度介於0.5 ~ 34.8 ppb,甲烷則介於3.2 ~ 5.3 ppm,然而,這些偵測濃度遠低於現行標準規範,希望在未來能進行更長時間之連續監測,可以快速獲得大量環境分析數據,接著利用統計分析輔助判斷可能的汙染源,並找出相對應的產業作為管理空氣污染的參考。另外該方法也可以提醒該環境下的人民或工作人員是否處於高濃度汙染風險環境中。現行法規中雖然已明確規定許多固定汙染源的空氣汙染物之排放標準,但甲烷以及乙苯目前尚未明確的規範。
In the rapid development of industry, the problem of environmental pollution has gradually attracted attention. Volatile Organic Compounds (VOCs) are often found in factories or industrial areas, even in the cities where we live, and also in photochemistry. The secondary organic aerosol (SOA) precursor in the reaction is also one of the pollutants in the process of generating ozone (O3) and PM2.5. However, in addition to the factors of overseas pollution sources, how to confirm and control the domestic The issue of emissions of volatile organic compounds and their impact on the health of people and workers is very important and urgent.
The portable gas chromatograph (portable GC-FID) developed by our laboratory combines the three-stage sorbent pre-concentration tube device method and is successfully applied to the continuous monitoring of volatile organic compounds in the industrial park of Tainan City. The target VOC set by the Institute is 14 kinds of volatile organic compounds and methane provided by the Tainan Environmental Protection Bureau. The 14 VOCs provided by the Environmental Protection Agency are often used in the chemical process, the semiconductor technology industry, or the mobility of automobile exhaust emissions. Among the pollutants, combined with the meteorological data of the nearby air quality station and subsequent statistical analysis, the analyst can help the preliminary judgment of the source of the pollution. The results of continuous monitoring for 44 hours show that the concentration of volatile organic compounds is between 0.5 ~ 34.8 ppb, methane is between 3.2 and 5.3 ppm. However, these detection concentrations are much lower than the current standard specifications. It is hoped that continuous monitoring will be carried out for a longer period of time, and a large amount of environmental analysis data can be quickly obtained, and then statistical analysis is used. Identify possible sources of pollution and identify corresponding industries as a reference for managing air pollution. In addition, the method also can alert people or staff in this environment is in a high risk environment pollution concentration. Although current regulations have clearly defined emission standards for air pollutants from many stationary sources, methane and ethylbenzene are not yet clearly defined.
1. 105年工業及服務業普查製造業統計結果.2017: 行政院總計處
2.歷年生產總額及毛額變動.2014: 行政院總計處
3. Chin, J. Y.; Batterman, S. A. Chemosphere 2012, 86, 951-958.
4. Xue, L.; Wang, T.; Guo, H.; Blake, D.; Tang, J.; Zhang, X.; Saunders,
S.; Wang, W. Atmospheric chemistry and physics 2013, 13, 8551-8567.
5. Cuciureanu, R.; Dimitriu, G. 2006.
6. Lightfoot, P. D.; Cox, R.; Crowley, J.; Destriau, M.; Hayman, G.;
Jenkin, M.; Moortgat, G.; Zabel, F. Atmospheric Environment. Part A.
General Topics 1992, 26, 1805-1961.
7. Haagen-Smit, A. J.; Fox, M. Air Repair 1954, 4, 105-136.
8. Mugica, V.; Vega, E.; Ruiz, H.; Sanchez, G.; Reyes, E.; Cervantes, A. WIT Transactions on Ecology and the Environment 2002, 53.
9. Hallquist, M.; Wenger, J. C.; Baltensperger, U.; Rudich, Y.; Simpson, D.; Claeys, M.; Dommen, J.; Donahue, N.; George, C.; Goldstein, A. Atmospheric chemistry and physics 2009, 9, 5155-5236.
10. Li, G.; Zhang, R.; Fan, J.; Tie, X. Journal of Geophysical Research: Atmospheres 2007, 112.
11. Shao, M.; Zhao, M.; Zhang, Y.; Peng, L.; Li, J. Journal of Environmental Science & Health Part A 2000, 35, 1941-1950.
12. Kesselmeier, J.; Staudt, M. Journal of atmospheric chemistry 1999, 33, 23-88.
13. Delfino, R. J.; Gong Jr, H.; Linn, W. S.; Pellizzari, E. D.; Hu, Y. Environmental health perspectives 2003, 111, 647-656.
14. Guo, H.; Lee, S.; Chan, L.; Li, W. Environmental Research 2004, 94, 57-66.
15. Jia, C.; D'Souza, J.; Batterman, S. Environment international 2008,
34, 922-931
16. Kumar, R. P.; Kashyap, P.; Kumar, R.; Pandey, A. K.; Kumar, A.; Kumar, K. Human and Ecological Risk Assessment: An International Journal 2019, 1-15.
17. Kansal, A. Journal of hazardous materials 2009, 166, 17-26.
18. So, K.; Wang, T. Science of the Total Environment 2004, 328, 161-174.
19. Moschonas, N.; Glavas, S. Atmospheric Environment 1996, 30, 2769-2772.
20. Lashof, D. A.; Ahuja, D. R. Nature 1990, 344, 529.
21. U.S. Department of Commerce National Oceanic & Atmospheric Administration /NOAA Research.
https://www.noaa.gov/
22. World Meteorological Organization - Greenhouse gas levels in atmosphere reach new record.
https://public.wmo.int/en/media/press-release/greenhouse-gas-levels-atmosphere-reach-new-record
23. Organization, W. H. Indoor air quality: organic pollutants: report on a WHO meeting, Berlin, West, 23-27 August 1987; World Health Organization, 1989; Vol. 111.
24. United States Environmental Protection Agency - Indoor Air Quality (IAQ) - Technical Overview of Volatile Organic Compounds.
https://www.epa.gov/indoor-air-quality-iaq/technical-overview-volatile-organic-compounds#EPA%20Regulatory%20Definition
25. U.S. EPA, VOC 330701781 ,Definition of "Volatile Organic Compound". 1978.
26.中國氣象局- 揮發性有機物(VOCs)全檔案(2017年12月1日發 佈)。
27. Commission of the european communities, communication from the commision to the council, the european parliament, the european economic and social committee and the committe of the regions, 2008.10.3.
28. 行政院環境保護署, 空氣污染防制法「揮發性有機物空氣污染管制及排放標準」. 2012.
29. Benitez, J. Process engineering and design for air pollution control; Prentice Hall Englewood Cliffs, NJ, 1993; Vol. 8.
30. Fujita, E. M.; Watson, J. G.; Chow, J. C.; Magliano, K. L. Atmospheric Environment 1995, 29, 3019-3035.
31. Schauer, J. J.; Kleeman, M. J.; Cass, G. R.; Simoneit, B. R. Environmental science & technology 2002, 36, 1169-1180.
32. Schauer, J. J.; Kleeman, M. J.; Cass, G. R.; Simoneit, B. R. Environmental Science & Technology 2001, 35, 1716-1728.
33. König, G.; Brunda, M.; Puxbaum, H.; Hewitt, C. N.; Duckham, S. C.; Rudolph, J. Atmospheric Environment 1995, 29, 861-874.
34. Rösch, C.; Kohajda, T.; Röder, S.; von Bergen, M.; Schlink, U. Atmospheric Pollution Research 2014, 5, 129-137.
35. Lee, S. C.; Li, W.-M.; Ao, C.-H. Atmospheric Environment 2002, 36, 225-237.
36. Srivastava, A.; Devotta, S. Environmental monitoring and assessment 2007, 133, 127-138.
37. Shendell, D. G.; Winer, A. M.; Stock, T. H.; Zhang, L.; Zhang, J. J.; Maberti, S.; Colome, S. D. Journal of Exposure Science and Environmental Epidemiology 2004, 14, 44.
38. Caro, J.; Gallego, M. Chemosphere 2009, 77, 426-433.
39. 陳揚桓. 中山大學環境工程研究所學位論文 2014.
40. Boissard, C.; Cao, X.-L.; Juan, C.-Y.; Hewitt, C.; Gallagher, M. Atmospheric Environment 2001, 35, 917-927.
41. Baraldi, R.; Rapparini, F.; Facini, O.; Pacheco, C. J. K.; Matteucci, G.; Brancaleoni, E.; Ciccioli, P. In The Greenhouse Gas Balance of Italy; Springer, 2015, 47-57.
42. Schulze, E. D.; Caldwell, M. In Ecophysiology of Photosynthesis; Springer, 1995, 553-564.
43. Fuentes, J. D.; Lerdau, M.; Atkinson, R.; Baldocchi, D.; Bottenheim, J.; Ciccioli, P.; Lamb, B.; Geron, C.; Gu, L.; Guenther, A. Bulletin of the American Meteorological Society 2000, 81, 1537-1576.
44. Adgate, J. L.; Church, T. R.; Ryan, A. D.; Ramachandran, G.; Fredrickson, A. L.; Stock, T. H.; Morandi, M. T.; Sexton, K. Environmental health perspectives 2004, 112, 1386-1392.
45. Zhou, J.; You, Y.; Bai, Z.; Hu, Y.; Zhang, J.; Zhang, N. Science of the Total Environment 2011, 409, 452-459.
46. Vilavert, L.; Nadal, M.; Figueras, M. J.; Domingo, J. L. Environmental Science and Pollution Research 2012, 19, 96-104.
47. Hakim, M.; Broza, Y. Y.; Barash, O.; Peled, N.; Phillips, M.; Amann, A.; Haick, H. Chemical reviews 2012, 112, 5949-5966.
48. Brothers, H. S. Journal of the Air & Waste Management Association 1997, 47, 468-480.
49. Chin, J. Y.; Godwin, C.; Parker, E.; Robins, T.; Lewis, T.; Harbin, P.; Batterman, S. Indoor air 2014, 24, 403-415.
50. 世界衛生組織-國際癌症研究署 IARC, 人類致癌因子分級表. http://monographs.iarc.fr/ENG/Classification/index.php.
51. Greenlee, R. T.; Hill‐Harmon, M. B.; Murray, T.; Thun, M. CA: a cancer journal for clinicians 2001, 51, 15-36.
52. Skov, H.; Lindskog, A.; Palmgren, F.; Christensen, C. S. Atmospheric Environment 2001, 35, S141-S148.
53. Na, K.; Moon, K. C.; Kim, Y. P. Atmospheric environment 2005, 39, 5517-5524.
54. Phillips, M.; Gleeson, K.; Hughes, J. M. B.; Greenberg, J.; Cataneo, R. N.; Baker, L.; McVay, W. P. The Lancet 1999, 353, 1930-1933.
55. Muzyka, V.; Veimer, S.; Schmidt, N. Science of the total environment 1998, 217, 103-111.
56. Hellén, H.; Kukkonen, J.; Kauhaniemi, M.; Hakola, H.; Laurila, T.; Pietarila, H. Atmospheric Environment 2005, 39, 4003-4014.
57. Chen, S. J.; Wang, J. L.; Chen, J. H.; Huang, R. N. Free Radical Biology and Medicine 2002, 33, 464-472.
58. Maeda, T.; Onodera, S.; Ogino, H. Journal of Chromatography A 1995, 710, 51-59.
59. Ministry of the Environment (Government of Japan) - VOCの排出規制制度(関係法令等)
60. 行政院環境保護署, 空氣污染防制法「固定污染源空氣污染物排放標準」.2012.
61. 行政院公報「衛生勞動篇」, 勞工作業場所容許暴露標準第十一條及第二條附表一、附表二修正草案總說明. 第 023 卷 ,第 184 期, 2017, 0927.
62. Lin, C.; Liou, N.; Sun, E. Journal of the Air & Waste Management Association 2008, 58, 821-828.
63. Kumar, A.; Víden, I. Environmental monitoring and assessment 2007, 131, 301-321.
64. Eckenrode, B. Journal of the American Society for Mass Spectrometry 2001, 12, 683-693.
65. Soo, J. C.; Lee, E. G.; LeBouf, R. F.; Kashon, M. L.; Chisholm, W.; Harper, M. Journal of occupational and environmental hygiene 2018, 15, 351-360.
66. Skog, K. M.; Xiong, F.; Kawashima, H.; Doyle, E.; Soto, R.; Gentner, D. R. Analytical chemistry 2019, 91, 1318-1327.
67. Watson, G. W.; Staples, E. J.; Viswanathan, S. Environmental Progress 2003, 22, 215-226.
68. 行政院環境保護署環境檢驗所, 空氣及物理檢測方法.
https://www.epa.gov.tw/niea/4D07F5794154C83B
69. Organic, D. O. V.; Canisters, S.-P. 1999.
70. Terada, K. Analytical Sciences 1991, 7, 187-198.
71. Shepson, P.; Kleindienst, T.; McElhoe, H. Atmospheric Environment (1967) 1987, 21, 579-587.
72. Simo, R.; Grimalt, J. O.; Albaiges, J. Journal of Chromatography A 1993, 655, 301-307.
73. Webb, P. A. Micromeritics Instrument Corp. Technical Publications 2003.
74. Porosity and Sorption Behavior
https://www.staff.ncl.ac.uk/a.j.flectcher/adsorption.htm.
75. 劉偉成. 輔仁大學化學研究所學位論文2009.
76. Matisová, E.; Škrabáková, S. Journal of chromatography A 1995, 707, 145-179.
77. Lu, C. J.; Zellers, E. T. Analyst 2002, 127, 1061-1068.
78. Inagaki, M. New Carbon Materials 2009, 24, 193-232.
79. Gu, Z. Y.; Yang, C. X.; Chang, N.; Yan, X. P. Accounts of chemical research 2012, 45, 734-745.
80. Haque, E.; Jun, J. W.; Jhung, S. H. Journal of Hazardous materials 2011, 185, 507-511.
81. Padial, N. M.; Quartapelle Procopio, E.; Montoro, C.; López, E.; Oltra, J. E.; Colombo, V.; Maspero, A.; Masciocchi, N.; Galli, S.; Senkovska, I. Angewandte Chemie International Edition 2013, 52, 8290-8294.
82. Terry, S. C.; Jerman, J. H.; Angell, J. B. IEEE transactions on electron devices 1979, 26, 1880-1886.
83. Lu, C. J.; Whiting, J.; Sacks, R. D.; Zellers, E. T. Analytical chemistry 2003, 75, 1400-1409.
84. Lu, C. J.; Steinecker, W. H.; Tian, W. C.; Oborny, M. C.; Nichols, J. M.; Agah, M.; Potkay, J. A.; Chan, H. K.; Driscoll, J.; Sacks, R. D. Lab on a Chip 2005, 5, 1123-1131.
85. 簡日昇. 國立台灣師範大學化學研究所學位論文 2013.
86. 黃淑欣. 國立臺灣師範大學化學研究所學位論文 2017.
87. 自由時報,台南空污七成外來 環保局:中國污染物將影響到週二
https://news.ltn.com.tw/news/life/breakingnews/1941040