1 박종헌, "지하철 역사 미세먼지(PM10)의 확산방향과 확산속도 추정 (서울 지하철 5호선 개화산역을 대상으로)" 대한교통학회 28 (28): 55-64, 2010
2 이태정, "서울시 지하철 승강장의 스크린도어 설치 전∙후 PM10 오염원의 기여도 비교 연구" 한국대기환경학회 26 (26): 543-553, 2010
3 Feldman, P. L., "Turbulent diffusion in electrostatic precipitator" 73 (73): 120-, 1977
4 Seoul Metropolitan Rapid TransitCorporation, "Transportationbusiness plan for Seoul Metropolitan Rapid Transit corporation" 2013
5 Launder, B.E., "The numerical computation ofturbulent flows" 3 : 269-, 1974
6 Kim J. R., "Study on discharge electrode design applied for road tunnel" SAREK 1238-1243, 2009
7 Yasumoto, K., "Improving Nano-particle collectionefficiency and suppressing particlere- entrainment in an AC electrostatic precipitator withhole-punched electrode" 251-255, 2008
8 Arao, Y., "High velocity Electrostatic Precipitator for Road Tunnel" ICESP-Australia 2006
9 Kim M.Y., "Evaluation onthe removal effect of PM10 and PM2.5 by operating the dust collection train and the washingtrain" PB9 : 421-424, 2003
10 Han B.W., "Effect oftrain-induced wind on tunnel ventilation in a subway tunnel" PA65 : 514-515, 2010
1 박종헌, "지하철 역사 미세먼지(PM10)의 확산방향과 확산속도 추정 (서울 지하철 5호선 개화산역을 대상으로)" 대한교통학회 28 (28): 55-64, 2010
2 이태정, "서울시 지하철 승강장의 스크린도어 설치 전∙후 PM10 오염원의 기여도 비교 연구" 한국대기환경학회 26 (26): 543-553, 2010
3 Feldman, P. L., "Turbulent diffusion in electrostatic precipitator" 73 (73): 120-, 1977
4 Seoul Metropolitan Rapid TransitCorporation, "Transportationbusiness plan for Seoul Metropolitan Rapid Transit corporation" 2013
5 Launder, B.E., "The numerical computation ofturbulent flows" 3 : 269-, 1974
6 Kim J. R., "Study on discharge electrode design applied for road tunnel" SAREK 1238-1243, 2009
7 Yasumoto, K., "Improving Nano-particle collectionefficiency and suppressing particlere- entrainment in an AC electrostatic precipitator withhole-punched electrode" 251-255, 2008
8 Arao, Y., "High velocity Electrostatic Precipitator for Road Tunnel" ICESP-Australia 2006
9 Kim M.Y., "Evaluation onthe removal effect of PM10 and PM2.5 by operating the dust collection train and the washingtrain" PB9 : 421-424, 2003
10 Han B.W., "Effect oftrain-induced wind on tunnel ventilation in a subway tunnel" PA65 : 514-515, 2010
11 Park S.H., "Effect of the black distance of collecting plate and particle size on the particle deposition efficiency in thetwo- stage electrostatic precipitator" 16 (16): 165-177, 2000
12 Miyake, K., "Development ofElectrostatic Precipitator for Road Tunnel" ICESP-Australia 2006
13 Kim J. R., "Development of road tunnel ventilation system with electrostatic precipitator" SAREK 80-83, 2008
14 Kim Y. M., "Consideration forimproving ventilation system in subway tunnel after PSD(PlatformScreen Door) installation" SAREK 666-671, 2009
15 Cooperman, G., "A unified efficiency theory for electrostatic precipitators" 18 : 277-285, 1984
16 Roh S. C., "A study on the electrostatic precipitator evolution for PM-10 elimination of subway station" 4 : 394-402, 2004
17 Meng, X., "A general empirical formula ofcurrent-voltag characteristics forpoint-to-plane geometry corona discharges" 41 : 0652029-, 2008