Abstract
An accurate landslide-susceptibility assessment is fundamental for preventing landslides and minimizing damage. In this study, a new time-variant slope-stability (TiVaSS) model for landslide prediction is developed. A three-dimensional (3D) subsurface flow model is coupled with the infinite slope-stability model to consider the effect of horizontal water movement in the subsurface. A 3D Richards’ equation is solved numerically for the subsurface flow. To overcome the massive computational requirements of the 3D subsurface flow module, partially implicit temporal discretization and the simplification of first-order spatial discretization are proposed and applied in TiVaSS. A graphical user interface and two-dimensional data visualization are supported in TiVaSS. The model is applied to a 2011 Mt. Umyeon landslide in the Republic of Korea, and its overall performance is satisfactory.
Original language | English |
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Pages (from-to) | 172-183 |
Number of pages | 12 |
Journal | Environmental Modelling and Software |
Volume | 85 |
DOIs | |
State | Published - 1 Nov 2016 |
Keywords
- 3D subsurface unsaturated flow
- Landslide
- Mt. Umyeon
- Numerical model
- Slope stability