References
- 국립환경과학원 (2003) 대기보전 정책수립 지원 시스템(III), 최종보고서, 환경부
- 국립환경과학원 (2005a) 대기환경연보(2004), 환경부
- 국립환경과학원(2005b) 오존 및 스모그 오염개선기술-대기 Inventory 작성과 배출계수 개발 및 오염배출량 산정연구, 환경부
- 나광삼 (2000) Characteristic of atmospheric volatile organic compound in Seoul, measurement and chemical mass balance receptor modeing, 연세대학교 박사학위 청구논문
- 봉춘근, 윤중섭, 황인조, 김창년, 김동술 (2003) 서울지역에서의 VOCs 오염원 기여도 추정에 관한 연구, 한국대기환경학회지, 19(4), 387-396
- 한진석, 홍유덕, 신선아, 이상욱, 이석조 (2005) 수용모델(CMB)을 이용한 수도권 VOCs의 배출원별 기여율 추정, 환경영향평가지, 14(4), 47-53
- Abu-Allaban, M., A.W. Gertler, and D.H. Lowenthal (2002) A preliminary apportionment of the sources of ambient PM10, PM2.5, and VOCs in Ca ro, Atmospheric Environment, 36, 5519-5557
- Fujita, E.M., J.G. Watson, and C.C. Judith (1995) Receptor model and emissions inventory source apportionments of nonmethane organic gas in California's San joaquin valley and San francisco bay area, Atmospheric Environment, 29(21), 3019-3035 https://doi.org/10.1016/1352-2310(95)00122-F
- Fujita, E.M. and D.E. Campbell (2003) Validation and application protocol for source apportionment of photochemical assessment monitoring stations (PAMS) ambient volatile organic compound (VOC) data, US EPA, Washington, DC
- Hwang, I.F., C.K. Bong, J.S. Yun, and D.S. Kim (2001) Source identification and quantification of VOCs in Seoul metropolitan area during the winter time, Proceeding of 12nd World Clean Air & Environment Congress and Exhibition (IUAPPA 2001), Seoul, Korea
- Kim, E., T.V. Larson, P.K. Hopke, C. Slaughter, L.E. Sheppard, and C. Claiborn (2003) Source identification of PM2.5 in an arid Northwest US city by positive matrix factorization, Atmospheric Environment, 66,291-305
- Lee, E., C.K. Chan, and P. Paatero (1999) Application of positive matrix factorization in source apportionment of particulate pollutants in Hong Kong, Atmospheric Environment, 33, 3201-3212 https://doi.org/10.1016/S1352-2310(99)00113-2
- Mukund, R., J.T. Kelly, and W.S. Chester (1996) Source attribution of ambient air toxic and other VOCs in Colombus, Ohio, Atmospheric Environmnet, 30 (20), 3457-3470 https://doi.org/10.1016/1352-2310(95)00487-4
- Paatero, P. and U. Tapper (1994) Positive matrix factorization: A non-negative factor model with optimal utilization of error estimates of data values, Environmetrics, 5, 111-126 https://doi.org/10.1002/env.3170050203
- Paatero, P(1998) User's Guide for Positive Matrix Factorization Program PMF2 and PMF3, part 1: Tutorial, University of Helsinki
- Scheff, P.A., R.A. Wadden, D.M. Kenski, and J. Chung (1996) Receptor model evaluation of the Southeast Michigan ozone study ambient NMOC measurements, J. Air Waste Manage, Assoc, 46, 1048-1057 https://doi.org/10.1080/10473289.1996.10467540
- Song, X.H., A.V. Pollissar, and P.K. Hopke(2001) Sources of fine particle composition in the northeastern US, Atmospheric Environment, 35, 5277-5286 https://doi.org/10.1016/S1352-2310(01)00338-7
- Vega, E., V. Mugica, R. Carmona, and E. Valencia (2000) Hydrocarbon source apportionment in Mexico City using the chemical mass balance receptor model, Atmospheric Environment, 34, 4121 -4129 https://doi.org/10.1016/S1352-2310(99)00496-3
- Watson, J.G., J.C. Chow, and E.M. Fujita (2001) Review of volatile organic compound source apportionment by chemical mass balance receptor model, Atmospheric Environment, 35(6), 1567-1584 https://doi.org/10.1016/S1352-2310(00)00461-1
- Wadden, R.A. and P.A. Scheff (1994) Receptor modeling of VOCs-Il. Development of VOC control functions for ambient ozone, Atmospheric Environment, 28 (15), 2507-2521 https://doi.org/10.1016/1352-2310(94)90401-4