The results of individual PAH source profiles that can be applied to receptor model are as follows. The sum of 16 PAH concentrations was 391.41 ng/S㎥ in a tunnel. Phenanthrene was the most abundant compound among 16 PAH, and then pyrene, fIuoranthene, anthracene, and naphthalene can be seen in elevated contents. 11,056.61 ng/S㎥ of 16 PAH concentrations in BC oil boiler was two times higher than 6,582.57 ng/S㎥ of those in LNG boiler. Naphthalene was the most abundant compound in both facilities. Phenanthrene, anthracene. and acenaphthylene were the second dominant compound group in order from both facilities. BC oil boiler had relatively high concentration of pyrene compared to LNG boiler that had high concentration of fluorene and did not detect pyrene. The sum of 16 PAH concentrations emitted from MSW incinerators after APCD (air pollution control device) was three times higher than those from MSW incinerators bcfore APCD. However, the concentrations of more than 4-ring PAH compounds (e.g., benzo (a)anthracene) before APCD were higher than those after APCD. This fact implies that PAHs generated by combustion process are eliminated in APCD and they are continuously produced in stack or atmosphere by PAHs precursors.

• Abstract
• 1. 서론
• 2. 실험방법
• 3. 결과 및 고찰
• 4. 결론
• 참고문헌

1 "황사가 서울시 대기중 PAHs 농도에 미치는 영향" 17 (17): 179-192, 2001

2 "서울의 환경." 서울특별시 2001

3 "대기중 다환방향족탄화수소류의 분석방법간 비교연구" 16 (16): 595-606, 2000

4 "Y.U. Zebuhr" (atmos. eiro 20) : 2279-, 1986

5 "Y. and K. Mikihiro(1989" JAPCA 39 1557

6 "Wise Mobile Sources of Atmospheric Polycyclic Aromatic Hydrocarbons" 1269-1278, 1989

7 "W.H. and B.A. Tomkins(1986" Environ. Sci. technol. 20 291.

8 "Simplex optimization of multielement ultrasonic extraction of atmospheric particulates" 1553-1557, 1983

9 "Sci. Total Environ." 6 : 239-250, 1976

10 "S.O.(1988" Significance and behaviour of polycyclic aromatic hydrocarbons in urban ambient air Ph.D. Thesis imperialcollegeofscienceandtechnology.universityoflondon.

11 "Receptor modeling for air quality management Data handling in science and technology 7" 329-, 1991

12 "R.G.(1991" Polycyclic aromatic hydrocarbons Chemistry and carcinogenicity cambridgeuniversitypress.

13 "Profiles of organic particulate emissions from air pollution sources Status and needs for receptor source apportionment modeling. J. Air Pollution Control Association" 17-33, 1986

14 "Polynuclear Aromatic Compounds" France. 32 1983

15 "Polycyclic aromatic hydrocarbons Mechanism" Battelle Press. 1985

16 "Policyclic aromatic hydrocarbon and nitroarene concentrations in ambient air during a winter time high-NOx episode in the Los Angeles Basin" atmos. enviro : 1437-1444, 1986

17 "Physical and chemical properties of polycyclic aromatic hydrocarbons. Marcel Dekker" New York 1-25, 1983

18 "PAHs emission from various industrial stacks" 60 : 159-174, 1998

19 "PAH-Evaluation of Sources and Effects" 477. 1983

20 "PAH source fingerprints for coke ovens, diesel and gasoline engines, highway tunnels, and wood combustion emissions" 29 (29): 533-542, 1995

21 "Nitration of gaseous poly aromatic hydrocarbons in simulated and ambient urban atmosphere a source of mutagenic nitroarenes" atmos. enviro : 2531-2547, 1987

22 "Nat. Cancer Inst. Monogr." 9 : 1-16, 1962

23 "Mobile Source Emission including POM Species" 277-298. 1983

24 "Methods for determination of toxic organic compounds in air-EPA Methods. Noyes Data Co." 370-466, 1988

25 "Locating and estimating air emissions from sources of polycyclic organic matter" U.S. EPA 1998

26 "Locating and estimating air emission from sources of polycyclic organic matter" Research Triangle Park 130-143, 1995September

27 "Formation of Polyaromatic Hydrocarbones and Polychlorinated Organic Compoundss in Municipal Waste Landfill Fires" 31 (31): 3899-3908, 1995

28 "Formation and presence of polyhalogenated and polycyclic compounds in the emissions of small and large scale municipal waste incinerators. Chemosphere" 143-153, 1987

29 "Environ. Sci. Technol." 28 : 965-972, 1994

30 "Emissions of organic microp-ollutants from discontinuously operated municipal waste incinerators. Waste Manage. Res. 8" 1990193-201.

31 "Effects of ambient temperature on aspects of airbone polycyclic aromatic hydrocarbons Environ. Sci. Tech." 1982189-194.

32 "E.R. J(1990" Air Waste Manage. Assoc. 40 1391.

33 "Diurnal concentrations of volatile polycyclic aromatic hydrocarbons and nitroarenes during a photochemical air pollution episode in Glendora" 321-327, 1989

34 "Direct Determination of the phase distributions of semivolatile polycyclic aromatic hydrocarbons using annular denuders," 29 (29): 1719-1733, 1995

35 "Development of a two-phase chemical mass balance receptor model. In proceeding of the 83th Annual Meeting & Exhibition of the Air & Waste Management" 1990

36 "Concentrations, trends, and vehicle source profile of polynuclear aromatic hydrocarbons in the U.K. atmosphere" 30 (30): 2513-2532, 1996

37 "Atmospheric polycyclic aromatic hydrocarbons in Chicago Pritzker Department of Environmental Engineering Illinois Institute of Technology" illi (illi): 1992

38 "Anthropogenic emissions of SO2 and NOx in Asia" 2996-3017, 1992

39 "Analysis of Coke Oven Eff luents for polynuclear Aromatic Compounds Analytical Methods for Coal and Coal Products" me ii chapter 43 : 163-169, 1979

40 "Aircraft-measured. ozone deposition in the San Joaquin Valley of California" 29 (29): 3133-3145, 1995

41 "A new approach to the identification of sources of air borne mutagens and carcinogens" 285-291, 1985