국문목차
표제지=0,1,4
목차=i,5,2
LIST OF TABLES=iii,7,1
LIST OF FIGURES=iv,8,2
논문개요=vi,10,2
I. 서론=1,12,1
1. 연구배경 및 연구목적=1,12,2
2. 연구개요=3,14,1
II. 연구방법:측정 및 모델링=4,15,1
1. 측정 및 분석=4,15,1
1.1. 측정 지점과 측정 기간=4,15,2
1.2. 시료의 채취와 분석=5,16,1
1.2.1 시료의 채취=5,16,3
1.2.2 필터의 전처리 및 디누더의 세척/코팅=7,18,2
1.2.3 채취시료의 추출 및 분석=8,19,2
1.3. 정도관리(QAQC)=9,20,3
2. 모델:미세입자 수분함량 및 입자 조성 물질의 상분배 계산=12,23,1
2.1. 모델 계산 수행 과정=13,24,3
2.2. 수분함량의 계산=15,26,2
III. 결과 및 고찰=17,28,1
1. 측정 결과=17,28,1
1.1. 미세입자 및 관련 기체상 농도=17,28,6
1.2. 측정값과 모델 예측값의 비교=23,34,2
2. 낮과 밤의 농도 분포 특성=25,36,1
2.1. 기체상 및 입자상 농도 분포=25,36,5
2.2. 입자 수분함량=30,41,2
3. 입자 수분함량을 결정하는 주요 요인=32,43,6
4. 입자 수분함량의 일변화 모사=38,49,3
5. 배출량 변화에 따른 미세입자 질량 농도 및 수분함량 민감도 분석=41,52,6
IV. 요약 및 결론=47,58,3
V. 참고문헌=50,61,4
ABSTRACT=54,65,1
[부록]=55,66,1
부록1. 측정 오차의 정량=55,66,9
부록2. 모델 입/출력 자료의 예=64,75,3
감사의 글=67,78,2
Table2-1. Summary of sampling period and number of the samples=5,16,1
Table2-2. Seasonal and diurnal mean concentration of particulate and gaseous species in PM2.5=11,22,1
Table3-1. Comparison of average meteorological parameters=20,31,1
Table3-2. Summary of other studies using ADS(Annular Denuder System)=22,33,1
Table3-3. Seasonal and diurnal measured PM2.5 mass concentrations and estimated water contents=30,41,1
Table3-4. Seasonal and diurnal RH(relative humidity)and DRH(Deliquescence relative humidity)=34,45,1
Figure2-1. Location of the measurement site, KIST in Seoul=4,15,1
Figure2-2. Configuration of sampling equipments, Annular Denuder and Filterpack system with a cyclone(URG)=6,17,1
Figure2-3. Denuder column cleaning and coating procedure=8,19,1
Figure2-4. Scattergram of the analyzed total anions and cations=10,21,1
Figure3-1. Variations of temperature and relative humidity during sampling period=17,28,1
Figure3-2. Variations of measured PM2.5 mass concentrations=17,28,1
Figure3-3. Variations of measured ionic concentrations and related gas concentrations in PM2.5=18,29,1
Figure3-4. The surface weather maps on(a)22 July 2005 and(b)23 July 2005=20,31,1
Figure3-5. Comparison of measured and estimated PM2.5 ion concentrations and related gas concentrations=24,35,1
Figure3-6. Seasonal and diurnal chemical composition of PM2.5=26,37,1
Figure3-7. Seasonal and diurnal chemical composition of PM2.5=26,37,1
Figure3-8. Diurnal variations of measured particulate species in PM2.5=28,39,1
Figure3-9. Diurnal variations of measured gaseous species=29,40,1
Figure3-10. Diurnal variations of estimated water contents in PM2.5=31,42,1
Figure3-11. Regression of total inorganic ions and water contents in PM2.5=33,44,1
Figure3-12. Variation of water content and solid salts with relative humidity in Spring(Dotted vertical line in the graph is average relative humidity at each sampling period)=35,46,1
Figure3-13. Variation of water content and solid salts with relative humidity in Summer=35,46,1
Figure3-14. Variation of water content and solid salts with relative humidity in Fall=36,47,1
Figure3-15. Variation of water content and solid salts with relative humidity in Winter=36,47,1
Figure3-16. Diurnal variations of water content, PM2.5 mass and pH=39,50,1
Figure3-17. Sensitivity of PM2.5 mass concentrations and water contents with the ambient total ionic concentration in Spring=42,53,1
Figure3-18. Sensitivity of PM2.5 mass concentrations and water contents with the ambient total ionic concentration in Summer=43,54,1
Figure3-19. Sensitivity of PM2.5 mass concentrations and water contents with the ambient total ionic concentration in Fall=44,55,1
Figure3-20. Sensitivity of PM2.5 mass concentrations and water contents with the ambient total ionic concentration in Winter=45,56,1