Journal of Korean Society for Atmospheric Environment (한국대기환경학회지)

Korean Society for Atmospheric Environment (한국대기환경학회)
권호 표지

Estimation of Source Contribution for Ambient Particulate Matters in Suwon Area

수원지역 입자상 오염물질의 오염원 기여도의 추정

  • 이태정 (경희대학교 자연과학종합연구원) ;
  • 김동술 (경희대학교 환경학과 및 환경연구소)
  • Published : 1997.08.01
Download PDF
⟨ Previous Next ⟩

Abstract

The suspended particulate matters had been collected on quartz fiber fiters by a cascade impactor having 9 size stages for 4 years (Sep. 1991 to Dec. 1995) in Kyung Hee University-Suwon Campus. Membrane filters were used to collected the particulate matters on each stage. The weight concentration on each stage was obtained by a microbalance and further chemical element levels were determined by an x-ray fluorescence system. Based on these chemical information, our study focused on applying the target transformation factor analysis (TTFA), a receptor model, to identify aerosol sources and to apportion quantitatively their mass contribution. There are total of 63 ambient data sets. Each data set consists of the 8 size-ranged subdata sets characterized by 16 elemental variables. By the results, four to five sources were extracted from each size range and some sources reappeared in other size ranges. Then total of 8 source profiles were statistically generated from all the ranges, such as oil burning source, soil source, field burning source, gasoline related source, coal burning source, marine source, glass related source, and unknown sources. Apportioning aerosol mass to each source was intensively examined by investigating emission inventories near the study area. The results showed that soil particle source was the most significant contributor. However, coal and oil burning sources were the major anthropogenic ones. The study finally proposed some air quality control strategies to achieve the clean air quality in Suwon area.

Keywords

References

  1. 대기오염물질배출량
  2. Environ. Sci. & Technol. v.14 Dispersion modeling Budiansky, S.
  3. X-Ray Fluorescence Analysis of Environmental Samples Dzubay, T. G.
  4. Environ. Sci. & Technol. v.9 Ambient air analysis with dichotomous sampler and x-ray fluorescence spectrometer Dzubay, T. G.;R. K. Stevens
  5. Anal. Chem. v.51 no.7 X-ray fluorescence analysis of cements Frechette, G.;J. C. Hebert;T. P. Thinh
  6. Environ. Sci. & Technol. v.14 Receptor models Gordon, G. E.
  7. American Chemical Society Symposium Series No. 167 The application of factor analysis to quantitative source apportionment in atmospheric aerosol: sourcelair quality relationships Hopke, P. K.
  8. Atmospheric Environment v.9 Target transformation factor anglysis as an aerosol mass apportionment method, A review and sensitive study Hopke, P. K.
  9. Computers & Chemistry v.7 no.3 FANTASIA program for target transformation factor analysis to apportion source in environmental samples Hopke, P. K.;D. J. Alpert;B. A. Roscore
  10. J. Geograph. Reser. v.95 Particle size distribution and chemistry of late winter arctic aerosols Li, S. M.;J. W. Winchester
  11. J. Colloid and Inter. Science v.39 no.1 A Chemical element balance for the Pasadena aerosol Miller, M. S.;S. K. Friedlander;G. M. Hindy
  12. Anal. Chemi. Acta. v.160 Error estimation of factor loadings and scores obtained with target transformation factor analysis Roscoe, B. A.;P. K. Hopke
  13. Atmospheric Environment v.19 no.9 Development of a technique for the determinatin of lead and bromin in atmospheric particles by x-ray fluorescence Sturges, W. T.;R. M. Harrison
  14. Environ. Sci. & Technol. v.22 no.10 Receptor models Gordon, G. E.
  15. Receptor Modeling in Environmental Chemistry Hopke, P. K.