| 姓名 |
馮筠(Yun Feng)
查詢紙本館藏 |
畢業系所 |
化學學系 |
| 論文名稱 |
排放管道中1,3-丁二烯等11種有害空氣污染物 分析技術開發
|
| 相關論文 | |
| 檔案 |
 [Endnote RIS 格式]
[Bibtex 格式]
 [相關文章]  [文章引用]  [完整記錄]  [館藏目錄]  [檢視] [下載]- 本電子論文使用權限為同意立即開放。
- 已達開放權限電子全文僅授權使用者為學術研究之目的,進行個人非營利性質之檢索、閱讀、列印。
- 請遵守中華民國著作權法之相關規定,切勿任意重製、散佈、改作、轉貼、播送,以免觸法。
|
| 摘要(中) |
行政院環保署於民國106年預告「固定污染源有害空氣污染物排放標準」草案,將分三階段進程管制72項重要有害空氣污染物,並訂定製程排放標準。然對於部分污染物仍欠缺合宜的分析技術,以致無法對其排放源推動管制作業,本研究即是針對此類物種開發管道中標準分析技術,亦即1,3-丁二烯 (1,3-Butadiene)、醋酸乙烯酯 (Vinyl acetate)、甲基丙烯酸甲酯 (Methyl methacrylate)、苯甲氯 (Benzyl chloride)、溴甲烷 (Bromomethane)、氯甲烷 (Chloromethane)、1,2-二溴乙烷 (1,2-Dibromoethane)、1,1-二氯乙烯 (1,1-Dichloroethylene)、1,1,2-三氯乙烷 (1,1,2-Trichloroethane)、氯丙烯 (Allyl chloride) 及1,4-二氯苯 (1,4- Dichlorobenzene) 等11種化學品即為首要關注之化學物質。1,3-丁二烯 (1,3-Butadiene) 等11項有害空氣污染物,目前多為針對周界、作業環境或固態廢棄物的檢測方法,為克服排放管道內高溫、容易受水氣干擾、採樣不易等問題,參考環檢所公告方法NIEA A722.75B,使用採樣袋方式採樣,搭配氣相層析火焰離子偵測器 (GC-FID) 及氣相層析電子捕捉偵測器 (GC-ECD) 進行分析。
本研究針開發完成1,3-丁二烯、醋酸乙烯酯及甲基丙烯酸甲酯等3項空氣污染物以採樣袋採樣經由GC-FID分析技術;氯甲烷、溴甲烷、1,1-二氯乙烯、氯丙烯、1,1,2-三氯乙烷、1,2-二溴乙烷、苯甲氯及1,4-二氯苯等8項空氣污染物以採樣袋採樣經由GC-ECD分析技術。11種空氣污染物的檢測技術建立,包括分析技術之品保規範,檢量線、偵測極限、樣品保存、精密度、準確度等,並完成真實樣品採樣分析。
針對11項目標物分別建立高、低濃度兩組檢量線,低濃度檢量線區間為0.67~10 ppm,線性結果,R2 =0.993~0.999;高濃度檢量線區間為3~50 ppm,線性結果,R2 =0.997~0.999,經預估確認後得11項目標物之偵測極限介於0.0128~0.527 ppm。樣品保存方面,利用採樣袋採樣之11項目標物中,除1,4-二氯苯保存期限僅2小時外,其餘10項目標物保存期限介於12小時至2天,精密度與準確度結果,11項目標物RSD值介於1.5~4.9 %,回收率介於96.2~104.3 %。
樣品保存上,1,1-二氯乙烯、1,2-二溴乙烷、苯甲氯、醋酸乙烯酯及甲基丙烯酸甲酯於採樣袋中樣品保存時間為12小時,1,4-二氯苯於採樣袋中樣品保存僅2小時,針對上述6種保存效率較差之物種,嘗試以採樣管採樣方法,改善採樣袋對高沸點物種保存不佳之情況。採樣管保存測試結果顯示,樣品保存於採樣管中,Tenax TA材質對樣品之保存期限最短皆可以達到1天,相較於採樣袋有更好的保存能力。
|
| 摘要(英) |
In 2017, Environmental Protection Administration (R.O.C.) announced the draft “Stationary Pollution Source Hazardous Air Pollutants Emissions Standards” to control 72 critical hazardous air pollutants (HAPs) in a three-stage process and set emission standards for these HAPs. However, until now some of the listed HAPs still lack suitable analytical techniques, which may inevitably prolong the implementation of the emission control policy of HAPs. The main objective of this study is to develop sampling and analytical methods for selected HAPs in flue gas from stacks, i.e., 1,3-butadiene, vinyl acetate, methyl methacrylate, benzyl chloride, bromomethane, chloromethane, 1,2-dibromoethane, 1,1-dichloroethylene, 1,1,2-trichloroethane, allyl chloride and 1,4-dichlorobenzene. These 11 target HAPs are the primary species of concern and most of which have already been addressed by existing methods for ambient gas, working environment, or solid wastes. Meanwhile, taking samples of flue gas from stacks always has to deal with high temperature and humidity conditions. For the sampling part, we mainly exploited the existing method of NIEA A722.75B - the use of sampling bags combined with gas chromatography - flame ionization detection (GC-FID) and GC-electron capture detection (GC-ECD) to expand the target compounds to include these 11 HAPs.
The study divided the target compounds into two separate groups, with tailored methods for each. The first group of 3 HAPs (1,3-butadiene, vinyl acetate and methyl methacrylate) were analyzed by GC-FID, whereas the second group of 8 HAPs (benzyl chloride, bromomethane, chloromethane, 1,2-dibromoethane, 1,1-dichloroethylene, 1,1,2-trichloroethane, allyl chloride and 1,4-dichlorobenzene) were analyzed by GC-ECD. The criteria of quality assurance for the 11 target HAPs, including calibration, detection limits, sample preservation, precision, accuracy, were performed in the laboratory. Moreover, real flue gas samples were also collected and analyzed using the established methods of GC-FID and GC-ECD.
To test for linearity and construct calibration curves, we further divided the 11 target compounds into two concentration ranges of low and high. For the low range from 0.67 ~ 10 ppm, the R2 = 0.993~0.999, whereas for the high range from 3~50 ppm, the R2 = 0.997~0.999, both ranges showing very high linearity. The detection limits of the 11 target analytes are in the range 0.0128~0.527 ppm. The sample preservation test for the 11 HAPs in sampling bags showed that, except for 1,4-dichlorobenzene, which has a very short preservation time of no longer than 2 hours, the other 10 analytes showed much longer preservation time of 12 hours to 2 days. The precision for the 11 target analytes are in the range1.5~4.9%. The recoveries are in the range 96.6~104.3%, demonstrating high accuracy.
Of the 11 HAPs, 1,1-dichloroethylene, 1,2-dibromoethane, benzyl chloride, vinyl acetate and methyl methacrylate showed preservation times only stable within 12 hours, and 1,4-dichlorobenzene only stable within 2 hours in sampling bags. In order to increase the overall preservation period for the aforementioned 6 analytes, sorbent tubes instead of sampling bags were attempted. Our findings indicate that, for the above 6 HAPs, using sorbent tubes with Tenax TA adsorbent showed a much longer preservation time of more than 1 day, which may provide a better alternative than sampling bags to collect and preserve flue gas for the 6 HAPs.
|
| 關鍵字(中) |
★ 有害空氣污染物
★ 揮發性有機化合物 |
關鍵字(英) |
★ Hazardous Air Pollutants
★ HAPs
★ VOCs |
| 論文目次 |
摘要 i
Abstract iii
謝誌 vii
目錄 ix
圖目錄 xiii
表目錄 xvii
第一章 前言 1
1-1 研究動機及目的 1
1-2 研究背景 4
1-3 國內外有害空氣物污染物管制策略 8
1-3-1 美國針對有害空氣污染物管制策略 8
1-3-2 國內針對有害空氣污染物管制策略 10
1-4 物種簡介及文獻回顧 15
1-4-1 1,3-丁二烯 (1,3-Butadiene) 15
1-4-2 醋酸乙烯酯(Vinyl acetate) 16
1-4-3 甲基丙烯酸甲酯 (Methyl methacrylate) 17
1-4-4 溴甲烷 (Bromomethane) 17
1-4-5 氯甲烷 (Chloromethane) 18
1-4-6 1,1-二氯乙烯 (1,1-Dichloroethylene) 19
1-4-7 氯丙烯(Allyl chloride) 19
1-4-8 1,1,2-三氯乙烷(1,1,2-Trichloroethane) 20
1-4-9 1,2-二溴乙烷(1,2-Dibromoethane) 20
1-4-10 苯甲氯(Benzyl chloride) 21
1-4-11 1,4-二氯苯(1,4-Dichlorobenzene) 22
1-5 國內排放管道氣狀污染物監測方法 25
第二章 實驗原理與設備 33
2-1 層析管柱介紹 33
2-2 進樣系統及軟體控制 36
2-3 偵測器原理 39
2-3-1 火焰離子偵測器(Flame ionization detector, FID) 40
2-3-2 電子捕捉偵測器(Electron capture detection, ECD) 42
2-4 檢量線建立與標準品配製 43
2-4-1 液體加熱配製技術 44
2-4-2 氣態稀釋配製技術 49
第三章 結果與討論 53
3-1 實驗規劃與初步分析物定性 53
3-2 層析管柱選擇 56
3-3 分析條件建立 61
3-3-1 目標分析物中8種含鹵化合物之分析條件 61
3-3-2 目標分析物中3種非含鹵化合物之分析條件 63
3-4 檢量線建立 65
3-4-1 氯甲烷等8種化合物之檢量線 65
3-4-2 1,3-丁二烯等3種化合物之檢量線 74
3-5 方法偵測極限 78
3-5-1 氯甲烷等8種化合物之方法偵測極限 78
3-5-2 1,3-丁二烯等3種化合物之方法偵測極限 81
3-6 準確度及精密度分析結果 83
3-6-1 氯甲烷等8種目標物準確度、精密度 84
3-6-2 1,3-丁二烯等3種目標物之準確度、精密度 86
3-7 樣品保存及穩定性測試 87
3-8 真實樣品採樣分析結果與討論 90
3-8-1 氯甲烷等8種化合物實廠分析 91
3-8-2 1,3-丁二烯等3種化合物實廠分析 97
3-9 小結 103
第四章 採樣管樣品保存之初探 105
4-1 國內外參考方法 107
4-2 實驗方法 109
4-3 樣品保存測試結果 112
第五章 總結與未來展望 115
參考文獻 117 |
| 參考文獻 |
[1] 中華民國行政院環境保護署, 固定源有害空氣污染排放標準草案總說明. 中華民國106年.
[2] 中華民國行政院環境保護署, 固定污染源空氣污染物危害影響評估暨消費性產品揮發性有機物管制推動計畫 (EPA-101-FA12-03-A284). 中華民國101年.
[3] Congress, U.S., Clean Air Act Amendments of 1990. U.S. Government Printing Office:, 1990.
[4] Lee, B., Highlights of the Clean Air Act Amendments off 1990. Journal of the Air & Waste Management Association, 2012. 41(1): p. 16-19.
[5] USEPA, The original list of hazardous air pollutants as follows. 1990.
[6] 中華民國行政院環境保護署, 揮發性有機物空氣污染管制及排放標準. 中華民國102年.
[7] Ryerson, T.B.T., M.; Holloway, J. S.; Parrish, D. D.; Huey, L. G.; Sueper, D. T.; Frost, G. J.; Donnelly, S. G.; Schauffler, S.; Atlas, E. L.; Kuster, W. C.; Goldan, P. D.; Hubler, G.; Meagher, J. F.; Fehsenfeld, F. C., Observations of ozone formation in power plant plumes and implications for ozone control strategies. Science, 2001. 292 (5517): p. 719-23.
[8] McMurry, P.H., M.F. Shepherd, and J.S. Vickery, Particulate Matter Science for Policy Makers: A NARSTO Assessment. 2004, England: Cambridge University Press.
[9] https://www3.epa.gov/apti/ozonehealth/population.html.
[10] https://ernet.epa.gov.tw/WB/About?f3=39&f2=5&f1=5.
[11] 中華民國行政院環境保護署環境檢驗所, 空氣中揮發性有機化合物檢測方法 -不銹鋼採樣筒/氣相層析質譜儀法(NIEA A715.15B). 中華民國103年.
[12] 中華民國行政院環境保護署, 固定污染源空氣污染物排放標準. 中華民國102年.
[13] 中華民國行政院環境保護署, 固定污染源有害空氣污染物管制暨消費性產品揮發性有機物管制計畫 (EPA-107-FA12-03-A138). 中華民國107年.
[14] USEPA, Compendium Method TO-15 Determination Of Volatile Organic Compounds (VOCs) In Air Collected In Specially-Prepared Canisters And Analyzed By Gas Chromatography/ Mass Spectrometry (GC/MS). 1999.
[15] USEPA, Method 8026B Volatie organic compounds by gas chromatography/mass spectrometry (GC-MS). 1996.
[16] NIOSH, U.S., NIOSH Manual of Analytical Methods 1,3-Butadiene:method 1024. 1994.
[17] OSHA, U.S., OSHA 56. 1985.
[18] 行政院勞工委員會採樣分析建議方法, 1,3-Butadiene CLA5004. 2003.
[19] NIOSH, U.S., NIOSH Manual of Analytical Methods Vinyl acetate:method 1453. 1994.
[20] OSHA, U.S., OSHA 51. 1985.
[21] NIOSH, U.S., NIOSH Manual of Analytical Methods Methyl methacrylate:method 2537. 2003.
[22] OSHA, U.S., OSHA 94. 1992.
[23] 行政院勞工委員會採樣分析建議方法, Methyl methacrylate CLA5023. 2008.
[24] USEPA, Method 8021B Aromayic and halogenated volatiles by gas cgromatography using photoionization and/or electrolytic conductivity detectors. 1996.
[25] NIOSH, U.S., NIOSH Manual of Analytical Methods Methyl bromide:method 2520. 1996.
[26] OSHA, U.S., OSHA PV2040. 1995.
[27] 行政院勞工委員會採樣分析建議方法, Methyl bromide CLA2307. 2008.
[28] NIOSH, U.S., NIOSH Manual of Analytical Methods Methyl chloride:method 1001. 1994.
[29] NIOSH, U.S., NIOSH Manual of Analytical Methods Vinylidene chloride:method 1015. 1994.
[30] OSHA, U.S., OSHA 19. 1980.
[31] NIOSH, U.S., NIOSH Manual of Analytical Methods Vinylidene chloride:method 1000. 1994.
[32] OSHA, U.S., OSHA 07. 2000.
[33] 行政院勞工委員會採樣分析建議方法, Allyl chloride CLA5042. 2008.
[34] NIOSH, U.S., NIOSH Manual of Analytical Methods Benzyl chloride:method 1003. 2003.
[35] OSHA, U.S., OSHA 11. 1980.
[36] NIOSH, U.S., NIOSH Manual of Analytical Methods Ethylene dibromide:method 1008. 1994.
[37] OSHA, U.S., OSHA 02. 1981.
[38] 行政院勞工委員會採樣分析建議方法, Ethylene dibromide CLA5008. 2008.
[39] USEPA, Method 8270, Semivolatile organic compounds by gas ghromatography/mass Spectrometry (GC/MS). 1999.
[40] 中華民國行政院環境保護署, 檢查鑑定公私場所空氣污染物排放狀況之採樣設施規範修正總說明. 中華民國108年.
[41] 中華民國行政院環境保護署環境檢驗所, 排放管道中氣態有機化合物檢測方法-採樣袋採樣/氣相層析火焰離子化偵測法 (NIEA A722.75B). 中華民國102年.
[42] 中華民國行政院環境保護署環境檢驗所, 排放管道中C5-C10非極性氣態有機物檢測方法-採樣袋採樣/氣相層析質譜分析法 (NIEA A734.70B). 中華民國96年.
[43] 中華民國行政院環境保護署環境檢驗所, 排放管道中環氧氯丙烷、丙烯酸乙酯、乙酸丁酯及丙烯酸丁 酯氣態有機物檢測方法-採樣袋採樣/氣相層析火焰離子化 (NIEA A738.70B). 中華民國102年.
[44] USEPA, Method 18 Measurement of gaseous organic compound emissions by gas chromatography 2017.
[45] Grob, R.L. and E.F. Barry, Modern practice of gas chromatography. 2004: John Wiley & Sons.
[46] Harris, C.D., Quantitative Chemical Analysis. 5th ed. 1999, California: W.H. Freeman and Company.
[47] 黃亭郡, 空氣中輕質碳氫化合物在線監測方法. 碩士論文, 中華民國106年. 國立中央大學化學系.
[48] 郭勝儒, 空氣中氯乙烯、1, 2-二氯乙烷 GC/MS在線監測方法. 碩士論文, 中華民國106年. 國立中央大學化學系.
[49] SUPELCO, GC Column Selection Guide. 2013-2015.
[50] 中華民國行政院環境保護署環境檢驗所, 環境檢驗檢量線製備及查核指引 (NIEA-PA103). 中華民國107年.
[51] 劉文治, 以二維氣相層析監測空氣中氟氯碳化物及氫氟氯碳化物. 碩士論文, 中華民國97年. 國立中央大學化學系.
[52] 中華民國行政院環境保護署環境檢驗所, 周界空氣中 N-甲基吡咯酮、乙二醇及異丁醇等揮發性有機物檢測 方法—吸附管採樣/氣相層析質譜儀法 (NIEA A746.10B). 中華民國104年.
[53] 中華民國行政院環境保護署環境檢驗所, 空氣中二氯甲醚及硫酸乙酯等揮發性有機物檢測方法-吸附管採 樣/氣相層析質譜儀法 (NIEA A751.10B). 中華民國105年.
[54] 中華民國行政院環境保護署環境檢驗所, 排放管道中揮發性有機化合物檢測方法 -揮發性有機化合物採樣組裝/氣相層析質譜儀法 (NIEA A721.70B). 中華民國86年.
[55] USEPA, Compendium Method TO-17 Determination of Volatile Organic Compounds in Ambient Air Using Active Sampling Onto Sorbent Tubes. 1999.
[56] SUPELCO, A Tool for Selecting an Adsorbent for Thermal Desorption Applications. 2001.
[57] SUPELCO, Adsorbents and Carbon Technology for Air Sampling & Thermal Desorption. 2015. |
| 指導教授 |
王家麟(Jia-Lin Wang)
|
審核日期 |
2019-7-30 |
| 推文 |
 facebook  plurk  twitter  funp  google  live  udn  HD  myshare  reddit  netvibes  friend  youpush  delicious  baidu
|
| 網路書籤 |
 Google bookmarks  del.icio.us  hemidemi myshare
|
