환경영향평가 (Journal of Environmental Impact Assessment)

한국환경영향평가학회 (Korean Society of Environmental Impact Assessment)
권호 표지

고속도로 청소폐수와 노면유출수의 수질특성 비교

Comparison of Water Characteristics of Cleaning Wastewater and Stormwater Runoff from Highways

  • 이주광 (한국도로공사 도로교통기술원) ;
  • 이의상 (상명대학교 토목환경공학부)
  • Lee, Ju-Goang (Highway & Transportation Technology Institute, Korea Highway Corporation) ;
  • Lee, Eui-Sang (Division of Civil and Environmental Engineering, Sangmyung University)
  • 투고 : 2007.02.09
  • 심사 : 2007.04.10
  • 발행 : 2007.04.30
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초록

The paved areas in nonpoint source are highly polluted landuses because of high imperviousness and pollutant mass emissions, such as sand, cereals, and dust from vehicle activities. Most of them in highways are collected by cleaning trucks or discharged to the adjacent soil and water system through the drain ditch in stormwater. Therefore, it is necessary to investigate the relationship between water concentration and total pollutant loadings from the paved areas. From the experiment, CODcr concentration of the cleaning wastewater was 17 times greater than that of the stormwater runoff. Also, concentrations of heavy metals (Cu, Fe, Zn) were 1.3 to 1.5 times higher when compared to the stormwater runoff. While total discharged loadings was insignificant in the cleaning wastewater. In conclusion, these results provide some evidence that the stormwater runoff may be managed carefully to the aspect of total pollutant loadings and the cleaning wastewater may be handled cautiously with the pollutant concentrations in highways.

키워드

참고문헌

  1. 건설교통부, 2 0 06, '환경친화적 도로유지관리 잠정 지 침', 11-1500000-001851-01, 46-67
  2. 김성수, 김종석, 방기 연, 권은미, 정욱진, 2002, 경 안천 유역의 강우사상별 비점오염원 유출특 성 및 원단위 조사, 대한환경공학회지, 24(11), 2019-2027
  3. 김이형, 이선하, 2005, 강우시 주차장 및 교량에서 유출되는 비점오염물질의 특성 비교 및 동적 EMCs, 한국물환경학회지, 21(4), 248-255
  4. 방기웅, 이준호, 유명진, 1997, 도시소유역에서의 비점오염원 유출특성에 관한 연구, 한국수질보전학회지, 13(1), 79-99
  5. 신은성, 최지용, 이동훈, 2001, 농업지역의 비점오 염물질 유출특성에 관한 연구, 한국물환경 학회지, 17(3), 299-311
  6. 이현동, 안재환, 배철호, 김운지, 2001, 강우시 유출 부하량을 이용한 팔당상수원 유역의 비점오 염원 원단위와 발생량 추정, 한국물환경학회지 , 17(3), 313-326
  7. 최상일, 박준형, 조장환, 2003, 포장면 유출 빗물의 특성 변화, 한국물환경학회지,19(1), 83-90
  8. 환경부, 2004, 관계부처합동[물관리 종합대책]의 추진 강화를 위한 4대강 비점오염원관리 종합대책
  9. 환경부, 2 005, 폐기물관리법
  10. EPA, 1995, Economic Benefits of Runoff Controls, U.S. EPA, Report 841-S-95-002, USA
  11. Irish, L. B., Lesso, W. G., Barrett, M. E., and Malina, J. F., 1996, Evaluation of the Factors Affecting the Quality of Highway Runoff in the Austin, Texas Area, FHWA,1943-5
  12. Kayhanian, M., Singh, M., Suverkropp, C, and Borroum., S., 2003, Impact of Annual Average Daily Traffic on Highway Runoff Pollutant Concentrations, Journal of Environmental Engineering, 129(11), 975-990 https://doi.org/10.1061/(ASCE)0733-9372(2003)129:11(975)
  13. Kim, L. H., 2003, Determination of Event Mean Concentrations and First Flush Criteria in Urban Runoff, Environmental Engineering Research, 8(4), 163-176 https://doi.org/10.4491/eer.2003.8.4.163
  14. Legret, M. and Pagotto, C, 1999, Evaluation of Pollutant Loadings in the Runoff Waters from a Major Rural Highway, The Science of the Total Environment, 235, 143-150 https://doi.org/10.1016/S0048-9697(99)00207-7
  15. Marsalek, J., Brownlee, B.. , Mayer, T., Lawai, S., and Larkin, G. A., 1997, Heavy Metals and PAHs in Stormwater Runoff from the Skyway Bridge, Burlington, Ontario, Water Quality Research Journal of Canada, 32(4), 815-827
  16. Shinya, M., Tsuchinage, T., Kitano, M., Yamada, Y, and Ishikawa, M., 2000, Characterization of Heavy Metals and Polycyclic Aromatic Hydrocarbons in Urban Highway Runoff, Water Science and Technology, 42(7), 201-208
  17. Yu, S. L., Kaighn, R. J., and Liao, S. L., 1995, Testing of Best Management Practices for Controlling Highway Runoff, FHWA, VIRC 94-R21
  18. Wu, J. S., Allan, C. J., Saunders, W. L., and Evett, J. B., 1998, Characterization and Pollutant Loading Estimation for Highway Runoff, Journal of Environmental Engineering, 124(7), 584-591 https://doi.org/10.1061/(ASCE)0733-9372(1998)124:7(584)