Simulation of debris-flow runout near a construction site in Korea

Byung Gon Chae, Ying Hsin Wu, Ko Fei Liu, Junghae Choi, Hyuck Jin Park

Research output: Contribution to journalArticlepeer-review

4 Scopus citations

Abstract

This study analyzed landslide susceptibility and numerically simulated the runout distance of debris flows near a construction site in Korea. Landslide susceptibility was based on a landslide prediction map of the study area. In the prediction map, 3.5% of the area had a 70-90% landslide probability, while 0.79% had over 90% probability. Based on the landslide susceptibility analysis, debris flows in four watersheds were simulated to assess possible damage to the construction site. According to the simulations, debris flow in Watershed C approaches to within 9.6 m of the site. Therefore, the construction site could be impacted by debris flow in Watershed C. Although the simulated flows in Watersheds A and D do not directly influence the construction site, they could damage the nearby road and other facilities. The simulations also show that debris runout distance is strongly influenced by the volume of debris in the on-slope source area and by the slope angles along the debris-flow path.

Original languageEnglish
Article number6079
JournalApplied Sciences (Switzerland)
Volume10
Issue number17
DOIs
StatePublished - Sep 2020

Keywords

  • Landslide susceptibility
  • Runout distance
  • Simulation of debris flow
  • Slope angle
  • Volume of debris

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