표제지
요약문
목차
제1장 서론 12
제1절 연구 배경 및 목적 12
제2절 연구 내용 및 범위 14
제2장 이론적 배경 16
제1절 이론적 고찰 16
1. 오존 16
2. 오존의 영향 29
3. 오존생성률 30
제2절 선행연구 33
1. 오존농도와 오존전구물질과의 관계 33
2. 오존농도와 기상인자의 관계 34
3. 강원지역 대상 연구 35
4. 오존생성률 분석 36
제3장 연구 방법 38
제1절 연구 내용 38
제2절 연구 방법 39
1. 대상지역 및 분석기간 39
2. 오존생성률 산정 43
3. 오존생성 환경 45
제4장 결과 및 고찰 48
제1절 질소산화물 농도 변화에 의한 오존생성률 48
1. 강원 영서지역 48
2. 서울지역 50
제2절 기온차이에 의한 오존생성률 52
제5장 결론 54
References 56
Abstract 60
Table 1. Mean VOC reactivity indicating the observed variability, over low, moderate, and high daily maximum temperatures 23
Table 2. Gangwon Yeongseo Area Urban Air Quality Monitoring Station sites Location 39
Table 3. Seoul Area Urban Air Quality Monitoring Station sites Location 41
Table 4. Result of regression analysis of ozone production rate according to the increase in nitrogen oxides in Yeongseo, Gangwon-do 49
Table 5. Result of regression analysis of ozone production rate according to the increase in nitrogen oxides in Seoul 51
Fig. 1. Empirical fits of VOC Reactivity versus daily maximum temperature. 22
Fig. 2. Ozone generating photochemical reaction 28
Fig. 3. Relationship between NOx abundance, VOC reactivity and O₃ production rate. 31
Fig. 4. Gangwon Yeongseo Area Urban Air Quality Monitoring Station sites Map 40
Fig. 5. Seoul Area Urban Air Quality Monitoring Station sites Map 42
Fig. 6. Average Monthly Ozone Concentration in Yeongseo, Gangwon-do and Seoul 43
Fig. 7. Average hourly ozone concentration in Yeongseo, Gangwon-do and Seoul 44
Fig. 8. Nitrogen oxide concentration by day of the week in Yeongseo, Gangwon-do and Seoul 45
Fig. 9. Relationship between NOx abundance, VOC reactivity and O₃ production rate, and change in O₃ production rate as... 46
Fig. 10. Relationship between NOx abundance, VOC reactivity and O₃ production rate, and change in ozone production rate... 47
Fig. 11. Comparison of nitrogen oxide concentration and ozone production rate by day of the week in Yeongseo, Gangwon-do 48
Fig. 12. Average ozone production rate between 2019 and 2021 according to the increase in nitrogen oxides by monitering station in... 49
Fig. 13. Comparison of nitrogen oxide concentration and ozone production rate by day of the week in Seoul 50
Fig. 14. Average ozone production rate between 2019 and 2021 according to the increase in nitrogen oxides by monitering station in Seoul 51
Fig. 15. Changes in ozone production rate according to temperature change in Yeongseo area, Gangwon-do 52
Fig. 16. Changes in ozone production rate according to temperature change in Seoul 53