Journal of Environmental Science International (한국환경과학회지)

The Korean Environmental Sciences Society (한국환경과학회)
권호 표지
DOI QR코드

DOI QR Code

Prediction of Ozone Concentration by Multiple Regression Analysis in Daegu area

다중회귀분석을 통한 대구지역 오존농도 예측

  • Published : 2002.07.01
Download PDF
⟨ Previous Next ⟩

Abstract

Air quality monitoring data and meteorology data which had collected from 1995. 1. to 1999. 2. in six areas of Daegu, Manchondong, Bokhyundong, Deamyungdong, Samdukdong, Leehyundong and Nowondong, were investigated to determine the distribution and characteristic of ozone. A equation of multiple regression was suggested after time series analysis of contribution factor and meteorology factor were investigated during the day which had high concentration of ozone. The results show the following; First, 63.6% of high ozone concentration days, more than 60 ppb of ozone concentration, were in May, June and September. The percentage of each area showed that; Manchondong 14.4%, Bokhyundong 15.4%, Deamyungdong 15.6%, Samdukdong 15.6%, Leehyundong 17.3% and Nowondong 21.6%. Second, correlation coefficients of ozone, $SO_2$, TSP, $NO_2$ and CO showed negative relationship; the results were respectively -0.229, -0.074, -0.387, -0.190(p<0.01), and humidity were -0.677. but temperature, amount of radiation and wind speed had positive relationship; the results were respectively 0.515, 0.509, 0.400(p<0.01). Third, $R^2$ of equation of multiple regression at each area showed that; Nowondong 45.4%, Lee hyundong 77.9%, Samdukdong 69.9%, Daemyungdong 78.8%, Manchondong 88.6%, Bokhyundong 77.6%. Including 1 hour prior ozone concentration, $R^2$ of each area was significantly increased; Nowondong 75.2%, Leehyundong 89.3%, Samdukdong 86.4%, Daemyungdong 88.6%, Manchondong 88.6%, Bokhyundong 88.0%. Using equation of multiple regression, There were some different $R^2$ between predicted value and observed value; Nowondong 48%, Leehyundong 77.5%, Samdukdong 58%, Daemyungdong 73.4%, Manchondong 77.7%, Bokhyundong 75.1%. $R^2$ of model including 1 hour prior ozone concentration was higher than equation of current day; Nowondong 82.5%, Leehyundong 88.3%, Samdukdong 80.7%, Daemyungdong 82.4%, Manchondong 87.6%, Bokhyundong 88.5%.

Keywords

References

  1. 송동욱, 김영만, 1991, 서울시 지역별 $SO_2$ 오염도 분석에 관한 연구, 한국대기보전학회지, 8(4), 23-30.
  2. 나진균, 1989, 도심지역에서의 풍속에 따른 $SO_2$ 농도변화, 한국대기보전학회지, 5(2), 97-105.
  3. 김상진, 이산훈, 정 용, 1988, AIRMA model에 의한 서울시 일부지역 $SO_2$ 오염도의 월변화에 대한 시계열 분석, 한국대기보전학회지, 4(2), 72-81.
  4. 김용국, 1996, 하계의 일최고 오존농도 예측을 의한 신경망모델의 개발, 한국대기보전학회지, 10(4), 224-232.
  5. 조희구, 김해경, 이규태, 1993, 서울 수도권 지역의 광화학 오존에 관한 연구, 한국기상학회지, 30(2), 169-179.
  6. 하수호, 1993, 부산시 대기오염 물질간의 상관도에 관한 연구, 한국대기보전학회지, 9(3), 94-103.
  7. 김영성, 1996, 1991-1993년 사이 우리나라의 오존 농도 변화, 한국대기보전학회지, 12(1), 55-66.
  8. 김용국, 1996, 수도권지역의 광화학 오존 농도 예측에 관한 연구, 강원대학교 박사학위논문.
  9. 허정숙, 김동술, 1993, 다변량 통계분석을 이용한 서울시 고농도 오존의 예측에 관한 연구, 한국대기보전학회지, 9(3), 207-215.
  10. 박옥현, 1987, 부산에서의 고농도 오존일의 기상 특성, 대한환경공학회지, 9(3), 9-16.
  11. Kelly, N. A., M. A. Ferman, and G. T. Wolf, 1986, The chemical meterological conditions associated with high and low ozone concentration in South- eastern Michigan and nearly areas of Ontar, JAPCA, 36, 150-158.
  12. Larsen, R. I., 1985, An air quality data analysis system for interrelating effects, 1962-1979, Atmos. Environ., 19, 437-464. https://doi.org/10.1016/0004-6981(85)90166-0
  13. WHO, 1987, Air quality guidelines for Europe, WHO regional publication, European series, 23, Copenhagen.
  14. WHO, 1978, WHO photochemical oxidants, Environmental Health Criteria, 7, Geneva, Switzerland.