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http://dx.doi.org/10.3741/JKWRA.2019.52.8.531

Accuracy evaluation of 2D inundation analysis results of simplified SWMM according to sewer network scale  

Lee, Jung-Hwan (Department of Civil Engineering, University of Seoul)
Kang, Seong-gyu (Department of Civil Engineering, University of Seoul)
Yuk, Gi-Moon (Department of Civil Engineering, University of Seoul)
Moon, Young-Il (Department of Civil Engineering, University of Seoul)
Publication Information
Journal of Korea Water Resources Association / v.52, no.8, 2019 , pp. 531-543 More about this Journal
Abstract
Constructing a reliable runoff model and reducing model runtime are important in research of real-time urban flood forecasting to reduce the repetitive flood damage. Sewer networks in the major urban basin such as Seoul are vast and complex so that it is not suitable for real-time urban flood forecasting. Therefore, the rainfall-runoff model should be simplified. However, the runoff results due to the simplification of sewer networks can vary depending on the subjectivity and simplification method of the researcher and there is a significant difference especially in 2-D inundation analysis. In this study, the sewer networks in various urban basins with different numbers and distributions of sewer networks were simplified to certain criteria. The accuracy of the simplification model according to the sewer network scale is evaluated by 2-D inundation analysis. The runoff models of Gwanak, Sillim, and Dorimcheon, frequently inundated basins were simplified based on four simplification ranges due to the cumulative drainage area set as a criterion for calculating the simplification range. This study will be expected that the inundation result of simplification models estimated through the analysis can contribute to the construction of a reasonable and accurate runoff model suitable for real-time flood forecasting.
Keywords
Sewer network simplification; SWMM; Real-time urban flood forecasting;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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