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Numerical runout simulation of debris avalanches in the Faroe Islands, North Atlantic Ocean |
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| Authors: | Mads-Peter J Dahl Peter Gauer Bjørn G Kalsnes Lis E Mortensen Niels H Jensen Anita Veihe |
| Institution: | 1. Norwegian Water Resources and Energy Directorate, Middelthunsgate 29, Majorstua, Postbox 5091, 0301, Oslo, Norway 2. Department of Environmental, Social and Spatial Change, Roskilde University, Universitetsvej 1, Postbox 260, 4000, Roskilde, Denmark 3. Jarefeingi (Faroese Earth and Energy Directorate), Brekkutún 1, Postbox 3059, 0110, Tórshavn, Faroe Islands 4. Norwegian Geotechnical Institute, Postbox 3930,, Ullevaal Stadion, 0806, Oslo, Norway 5. International Centre for Geohazards, Norwegian Geotechnical Institute, Postbox 3930,, Ullevaal Stadion, 0806, Oslo, Norway |
| Abstract: | The Faroe Islands in the North Atlantic Ocean are susceptible to flow-type landslides in coarse-grained highly organic colluvium. Following several hazardous debris avalanche events, research work has been initiated to quantify landslide risk. A central task in this work is to predict landslide runout behavior. From numerical simulation of four debris avalanches, this study provides a first screening of which rheology and appertaining input parameters best predict runout behavior of debris avalanches in the Faroe Islands. Three rheologies (frictional, Voellmy, and Bingham) are selected and used for individual back analysis of the events in the numerical models BING and DAN3D. A best fit rheology is selected from comparing predicted and observed landslide runout behavior. General back analysis to identify the optimal input parameters for the chosen rheology is performed by cross validation, where each debris avalanche is modeled with input parameters from the three other events. Optimal input parameters are found from the model run producing the most accurate runout length and velocity. The Bingham is selected as the best fit rheology, a result differing from similar studies of coarse-grained landslides. A reason for why particularly the frictional rheology proves unsuitable is its tendency to produce too long runout lengths of the low-weight runout material, a result showing important limitations for using the frictional rheology in DAN3D. Optimal Bingham input parameters are τ y ?=?980 Pa and μ b ?=?117 Pa/s. However, future studies performed in 2D models are needed for precise parameterization before results can be used for landslide risk assessment. |
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