Environmental Engineering Research

  • 제13권4호
  • /
  • Pages.184-191
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  • 2008
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  • 1226-1025(pISSN)
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  • 2005-968X(eISSN)
대한환경공학회 (Korean Society of Environmental Engineers)
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Long Term Monitoring of Storm Surface Runoff from Urban Pavement Road in Korea

  • Lee, C.S. (Department of Environmental Engineering, Jinju national university) ;
  • Seo, G.T. (Department of Environmental Engineering, Changwon national university) ;
  • Lee, J.H. (Department of Environmental Engineering, Changwon national university) ;
  • Yoon, Y.S. (Nakdong River Water Environment Laboratory) ;
  • You, J.J. (Nakdong River Water Environment Laboratory) ;
  • Sin, C.K. (Nakdong River Water Environment Laboratory)
  • 발행 : 2008.12.28
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초록

Long term monitoring was conducted to investigate a surface runoff of pollution from urban highway. The monitoring data was collected for 18 rainfall events and was used to correlate pollution load to various parameters, such as rainfall intensity, antecedent dry days and total discharge flow. Runoff coefficient and seasonal variation were also evaluated. The mean runoff coefficient of the highway was 0.823(range; $0.4687{\sim}0.9884$), and wash-off ratio for $COD_{Mn}$ and SS loads was 72.6% and 64.3%, respectively. For the initial rainfall event, the runoff EMC of $COD_{Mn}$ was high in summer and the EMC of SS was high in autumn season. However the seasonal variation of T-N and T-P was not significant. The discharged $COD_{Mn}$-EMC was $147.6\;mg/L{\sim}9.0\;mg/L$ on the generated $COD_{Mn}$-EMC of $98.8\;mg/L{\sim}8.9\;mg/L$. While the generated EMC of SS was in $285.7\;mg/L{\sim}20.0\;mg/L$ and its discharged EMC was in $190.4\;mg/L{\sim}8.0\;mg/L$. EMC of pollutants was not directly related to the first flush rainfall intensity and the antecedent dry days. But the correlation was relatively high between EMC and cumulative runoff flow volume. The trend of EMC was reduced with the cumulative runoff flow volume.

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참고문헌

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피인용 문헌

  1. Appropriate Methods in Determining the Event Mean Concentration and Pollutant Removal Efficiency of a Best Management Practice vol.15, pp.4, 2010, https://doi.org/10.4491/eer.2010.15.4.215
  2. Characterization of Urban Runoff Pollution between Dissolved and Particulate Phases vol.2013, pp.1537-744X, 2013, https://doi.org/10.1155/2013/964737
  3. Size distributions and settling velocities of suspended particles from road and highway vol.14, pp.4, 2010, https://doi.org/10.1007/s12205-010-0481-1
  4. Characteristics of Non-Point Pollution from Road Surface Runoff vol.19, pp.6, 2010, https://doi.org/10.5322/jes.2010.19.6.665