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Characterization of wood-laden flows in rivers
Ruiz-Villanueva, V., Mazzorana, B., Bladé, E., Bürkli, L., Iribarren-Anacona, P., Mao, L., … Wohl, E. (2019). Characterization of wood-laden flows in rivers. Earth Surface Processes and Landforms, 44, 1694-1709. https://doi.org/10.1002/esp.4603
Modelling wet snow avalanche flow with a temperature dependent Coulomb friction function
Vera, C., & Bartelt, P. (2013). Modelling wet snow avalanche flow with a temperature dependent Coulomb friction function. In F. Naaim-Bouvet, Y. Durand, & R. Lambert (Eds.), ISSW proceedings. International snow science workshop proceedings 2013 (pp. 691-696).
Back-calculation of bedload transport in steep channels with a numerical model
Chiari, M., & Rickenmann, D. (2011). Back-calculation of bedload transport in steep channels with a numerical model. Earth Surface Processes and Landforms, 36(6), 805-815. https://doi.org/10.1002/esp.2108
Statistical evaluation of local to regional snowpack stability using simulated snow-cover data
Schirmer, M., Schweizer, J., & Lehning, M. (2010). Statistical evaluation of local to regional snowpack stability using simulated snow-cover data. Cold Regions Science and Technology, 64(2), 110-118. https://doi.org/10.1016/j.coldregions.2010.04.012
Regional stability evaluation with modelled snow cover data
Schirmer, M., Schweizer, J., & Lehning, M. (2009). Regional stability evaluation with modelled snow cover data. In J. Schweizer & A. van Herwijnen (Eds.), ISSW proceedings. International snow science workshop proceedings 2009 (pp. 306-312).
Flexible rockfall barriers subjected to extreme loads
Volkwein, A., Roth, A., Gerber, W., & Vogel, A. (2009). Flexible rockfall barriers subjected to extreme loads. Structural Engineering International, 19(3), 327-332. https://doi.org/10.2749/101686609788957900
Geschiebetransportmodellierung in Wildbächen und Vergleich der morphologischen Veränderung mit LiDAR Daten
Chiari, M., Mair, E., & Rickenmann, D. (2008). Geschiebetransportmodellierung in Wildbächen und Vergleich der morphologischen Veränderung mit LiDAR Daten. In M. Mikoš, J. Huebl, & G. Koboltschnig (Eds.), Vol. 1. Protection of populated territories from floods, debrisflow, mass movements, and avalanches. 26 to 30 May 2008. Dornbirn, Vorarlberg, Austria. Conference proceedings. Keynotes, River Basin Management, Torrents (pp. 295-306).
On snow entrainment in avalanche dynamics calculations
Sovilla, B., Margreth, S., & Bartelt, P. (2007). On snow entrainment in avalanche dynamics calculations. Cold Regions Science and Technology, 47(1-2), 69-79. https://doi.org/10.1016/j.coldregions.2006.08.012
The importance of snow entrainment in avalanche dynamics calculations
Sovilla, B., Bartelt, P., & Margreth, S. (2005). The importance of snow entrainment in avalanche dynamics calculations. In K. Elder (Ed.), ISSW proceedings. International snow science workshop proceedings 2004 (pp. 65-73).
High-frequency avalanches: release area characteristics and run-out distances
Gruber Schmid, U., & Sardemann, S. (2003). High-frequency avalanches: release area characteristics and run-out distances. Cold Regions Science and Technology, 37(3), 439-451. https://doi.org/10.1016/S0165-232X(03)00083-1
Mass and monumentum balance model of a mixed flowing/powder snow avalanche
Turnbull, B., & Bartelt, P. (2003). Mass and monumentum balance model of a mixed flowing/powder snow avalanche. Surveys in Geophysics, 24, 465-477. https://doi.org/10.1023/B:GEOP.0000006077.82404.84
AVAL-1D: an avalanche dynamics program for the practice
Christen, M., Bartelt, P., & Gruber, U. (2002). AVAL-1D: an avalanche dynamics program for the practice. In Vol. 2. 1st congress "Interpraevent in the Pacific Rim" 2002. 14 to 18 October 2002. Matsumoto, Japan. Conference proceedings "Protection of habitat against floods, debris flows and avalanches" (pp. 715-725).