參考文獻 |
[1] P. Bermo, V. Bonamin, C. Gianoli, “Trace analysis of VOCs in City air”, HP-Peak, 3(1997)2-4
[2] 金海鑫, “非甲烷碳氫化合物分析系統之建立與實際大氣量測”, 碩士論文, 中央大學, 1997
[3] R. Kostiainen, “Volatile organic compounds in the indoor air of normal and sick houses”, 29(1995)693-702
[4] R. Kostiainen, T. Kotiaho, I. Mattila, T. Mansikka, M. Ojala, R. A. Ketola, “Analysis of volatile organic compounds in water and soil samples by purge and membrane mass spectrometry”, Anal. Chem. 70(1997)3028-3032
[5] D. F. Hurst, B. S. Bakwin, J. W. Elkius, “Recent trends in the variability of halogenated trace gas over the United States”, J. Geophy. Res., 103(1998)25299-25306
[6] S. Howeling, F. Dentener, J. Lelieveld, “The impact of nonmethane hydrocarbon compounds on tropospheric photochemistry”, J. Geophy. Res., 103(1998)10673-10696
[7] J. L. Seinfeld, “”, Atmospheric chemistry and physics of pollution, 1986
[8] J. L. Wang, W. H. Ding, T. Y. Chen, “Source determination of light non-methane hydrocarbons by simultaneous multi-site sampling in a metropolitan area”, 1999
[9] 行政院環境保護署環境保護人員訓練所, “半導體製造業空氣污染管制及排放標準”, 空氣污染防治法規, 2000/3, 319-327
[10] R. S. Stolarski, R. J. Cicerone, “Stratospheric chlorine : A possible sink for ozone”, Can. J. Chem., 51(1974)1610
[11] M. J. Molina, F. S. Roland, “Stratospheric sink for chlorofluoromethanes : Chlorine atom catalyzed destruction of ozone”, Nature, 249(1974)810
[12] A. F. Mckinlay, B. L. Diffey, “A reference spectrum for ultraviolet induced erythema in human sink. Human Exposure to ULTRAVIOLET radiation”, Risks and regulations, W. F. Passchier and B. F. Bosnajakovic, Eds., Elsevier, (1987)83-87
[13] J. W. Elkins, T. M. Thompson, T. H. Swanson, J. H. Butler, B. D. Hall, S. O. Cummings, D. A. Fisher, A. G. Raffo, ”Decrease in the growth rates of atmospheric chlorofluorocarbons 11 and 12”, 364(1993)780-783
[14] J. L. Wang, C. J. Chang, W. D. Chang, C. Chew, S. W. Chen, “Construction and evaluation of automated gas chromatography for the measurement of anthropogenic halocarbons in the atmosphere”, J. Chromatography A. 844(1999)259-269
[15] J. L. Wang, S. W. Chen, C. Chew, “Automated gas chromatography with cryogenic/sorbent trap for the measurement of volatile organic compounds in the atmosphere” J. Chromatography A. 863(1999)183-193
[16] Mattew R. Bassford, Peter G. Simmonds, G. Nickless, “An automated system for near-real-time monitoring of trace atmospheric halocarbon”, Anal. Chem., 70(1998)958-965
[17] M. Holdren, S. Danhof, M. Grassi, J. Stets, B. Keigley, V. Woodruff, “Development and evaluation of a thermoelectric cold trap for the gas chromatographic analysis of atmospheric compounds” Anal. Chem., 70(1998)4836-4840
[18] Zhenghya Ji, Ronald E. Majors, Edward J. Guthrie, “Review : Porous layer open-tubular capillary columns : prepations, applications and future directions” J. Chromatography A. 842(1999)115-142
[19] WHO. IARC monographs on the evaluation of carcinogenic risk of chemicals to human, 20(1979)491
[20] K. D. Oliver, J. R. Adams, E. H. Daughtrey Jr., W.A. McClenny, M. J. Yoong, M. A. Pardee, “Technique for monitoring ozone precursor hydrocarbons in air at photochemical assessment monitoring stations: sorbent preconcentration, closed-cycle cooler cryofocusing, and GC-FID analysis”, Atmos. Environ. 30(1996)686-690
[21] M. Biziuk, J. Namiesnik, J. Czewinski, D. Gorlo, B. Makuch, W. Janicki, Z. Polkowska, L. Wolska, “Occurrence and determination of organic pollutants in tap and surface waters of the Gdansk district”, J. Chromatography A. 733(1996)171-183
[22] R. A. Ketola, V. T. Virkki, M. Ojala, V. Komppa, T. Kotiaho, “Comparison of different methods for the determination of volatile organic compounds in water samples”, Talanta 44(1997)373-382
[23] A. P. Bianchi, M. S. Varney, “Volatile organic compounds in the surface waters of a British estuary. Part 1. Occurrence, distribution and variation”, Water Res. 32(1998)352-370
[24] L. Lepine, Jean-Francois Archambault, “parts-per-trillion determination of trihalomethanes in water by purge-and trap gas chromatography with electron capture detection”, Anal. Chem. 64(1992)810-814
[25] J. Dewulf, H. Van Langenhove, “Anthropogenic volatile organic compounds in ambient air and natural waters : a review on recent developments of analytical methodology, performance and interpretation of field measurements”, J. Chromatography A. 843(1999)163-177
[26] V. T. Virkki, R. A. Ketola, M. Ojala, T. Kotiaho, V. Komppa, A. Grove, S. Facchetti,””, Anal. Chem. 67(1995)1421-1425
[27] M. Habram, J. Slemr, “Development of a dual capillary column GC method for the trace determination of C2-C9 hydrocarbons in ambient air”, J. High Resol. Chromatogr., 21(1998)209-214
[28] J. Dewulf, H. Van Langenhove, “Analytical techniques for the determination and measurement data of 7 chlorinated C1- and C2-hydrocarbons and 6 monocyclic aromatic hydrocarbons in remote air masses: an overview”, Atmos. Environ. 31 (1997) 3291-3307
[29] E. Woolfenden, J. Air Waste Manage. Assoc. 47 (1997) 20-36
[30] N. Moschonas, S. Glavas, “C3-C10 hydrocarbons in the atmosphere of Athens, Greece” Atmos. Environ. 30(1996)2769-2772
[31] G. Subramanian, “Quality Assurance in Environmental Monitoring Instrumental Methods”, Provided by The Perkin-Elmer-Corporation GC-148, (1995)
[32] I. Seeley, “auto GC system for enhanced ozone monitoring network”, Measurement of toxic and related air pollutants, (1994)187-192
[33] J. L. Wang, W. L. Chen, Y. H. Lin, C. H. Tsai, “Cryogen free automated gas chromatography for the measurement of ambient volatile organic compounds ”, J. Chromatography A., (2000) |