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Fluid effects in model granular flows
Zhao, Y., Take, W. A., Kaitna, R., McArdell, B. W., McElwaine, J. N., & Bowman, E. T. (2024). Fluid effects in model granular flows. Granular Matter, 26(1), 2 (26 pp.). https://doi.org/10.1007/s10035-023-01365-4
Debris-flow monitoring with high-frequency LiDAR scanners: a new method to infer the internal dynamics of debris flows
Aaron, J., Spielmann, R., McArdell, B. W., & Graf, C. (2023). Debris-flow monitoring with high-frequency LiDAR scanners: a new method to infer the internal dynamics of debris flows. In M. Pirulli, A. Leonardi, & F. Vagnon (Eds.), E3S web of conferences: Vol. 415. 8th international conference on debris flow hazard mitigation (DFHM8) (p. 01001 (4 pp.). https://doi.org/10.1051/e3sconf/202341501001
High‐frequency 3D LIDAR measurements of a debris flow: a novel method to investigate the dynamics of full‐scale events in the field
Aaron, J., Spielmann, R., McArdell, B. W., & Graf, C. (2023). High‐frequency 3D LIDAR measurements of a debris flow: a novel method to investigate the dynamics of full‐scale events in the field. Geophysical Research Letters, 50(5), e2022GL102373 (10 pp.). https://doi.org/10.1029/2022GL102373
The Rosetta Stone Project - Integrating experimental results on debris flow mechanics across the scales: next results
Bowman, E. T., Fawley, A., Kaitna, R., Li, S., McArdell, B., McElwaine, J., … Zhao, Y. (2023). The Rosetta Stone Project - Integrating experimental results on debris flow mechanics across the scales: next results. In M. Pirulli, A. Leonardi, & F. Vagnon (Eds.), E3S web of conferences: Vol. 415. 8th international conference on debris flow hazard mitigation (DFHM8) (p. 02003 (4 pp.). https://doi.org/10.1051/e3sconf/202341502003
Entrainment maps considering hydrological conditions for mass movement runout modelling: application to debris-flow bulking at Pizzo Cengalo
Hirschberg, J., McArdell, B. W., Könz, A. L., Christen, M., Molnar, P., & Bartelt, P. (2023). Entrainment maps considering hydrological conditions for mass movement runout modelling: application to debris-flow bulking at Pizzo Cengalo. In M. Pirulli, A. Leonardi, & F. Vagnon (Eds.), E3S web of conferences: Vol. 415. 8th international conference on debris flow hazard mitigation (DFHM8) (p. 01010 (4 pp.). https://doi.org/10.1051/e3sconf/202341501010
Evaluation of a method to calculate debris-flow volume based on observations of flow depth
McArdell, B. W., Hirschberg, J., Aaron, J., & Badoux, A. (2023). Evaluation of a method to calculate debris-flow volume based on observations of flow depth. In M. Pirulli, A. Leonardi, & F. Vagnon (Eds.), E3S web of conferences: Vol. 415. 8th international conference on debris flow hazard mitigation (DFHM8) (p. 02012 (4 pp.). https://doi.org/10.1051/e3sconf/202341502012
A dilatant two-phase debris flow model with erosion validated by full-scale field data from the Illgraben test station
Meyrat, G., Bartelt, P., & McArdell, B. (2023). A dilatant two-phase debris flow model with erosion validated by full-scale field data from the Illgraben test station. In M. Pirulli, A. Leonardi, & F. Vagnon (Eds.), E3S web of conferences: Vol. 415. 8th international conference on debris flow hazard mitigation (DFHM8) (p. 01015 (4 pp.). https://doi.org/10.1051/e3sconf/202341501015
Simulating glacier lake outburst floods (GLOFs) with a two-phase/layer debris flow model considering fluid-solid flow transitions
Meyrat, G., Munch, J., Cicoira, A., McArdell, B., Müller, C. R., Frey, H., & Bartelt, P. (2023). Simulating glacier lake outburst floods (GLOFs) with a two-phase/layer debris flow model considering fluid-solid flow transitions. Landslides. https://doi.org/10.1007/s10346-023-02157-w
Voellmy-type mixture rheologies for dilatant, two-layer debris flow models
Meyrat, G., McArdell, B., Müller, C. R., Munch, J., & Bartelt, P. (2023). Voellmy-type mixture rheologies for dilatant, two-layer debris flow models. Landslides, 20, 2405-2420. https://doi.org/10.1007/s10346-023-02092-w
Inferring spatial variations in velocity profiles and bed geometry of natural debris flows based on discharge estimates from high-frequency 3D LiDAR point clouds; illgraben, Switzerland
Spielmann, R., Aaron, J., & McArdell, B. W. (2023). Inferring spatial variations in velocity profiles and bed geometry of natural debris flows based on discharge estimates from high-frequency 3D LiDAR point clouds; illgraben, Switzerland. In M. Pirulli, A. Leonardi, & F. Vagnon (Eds.), E3S web of conferences: Vol. 415. 8th international conference on debris flow hazard mitigation (DFHM8) (p. 01024 (4 pp.). https://doi.org/10.1051/e3sconf/202341501024
Seismic measurements of roll waves in debris flows
Walter, F., Zhang, Z., Aaron, J., McArdell, B., & Graf, C. (2023). Seismic measurements of roll waves in debris flows. In M. Pirulli, A. Leonardi, & F. Vagnon (Eds.), E3S web of conferences: Vol. 415. 8th international conference on debris flow hazard mitigation (DFHM8) (p. 03031 (3 pp.). https://doi.org/10.1051/e3sconf/202341503031
Factors controlling bed and bank erosion in the Illgraben (CH)
de Haas, T., McArdell, B., Nijland, W., Åberg, A., Hirschberg, J., de Jong, S., & Huguenin, P. (2023). Factors controlling bed and bank erosion in the Illgraben (CH). In M. Pirulli, A. Leonardi, & F. Vagnon (Eds.), E3S web of conferences: Vol. 415. 8th international conference on debris flow hazard mitigation (DFHM8) (p. 01004 (4 pp.). https://doi.org/10.1051/e3sconf/202341501004
Analysis of superelevation and debris flow velocities at Illgraben, Switzerland
Åberg, A., Aaron, J., de Haas, T., McArdell, B., & Hirschberg, J. (2023). Analysis of superelevation and debris flow velocities at Illgraben, Switzerland. In M. Pirulli, A. Leonardi, & F. Vagnon (Eds.), E3S web of conferences: Vol. 415. 8th international conference on debris flow hazard mitigation (DFHM8) (p. 01002 (4 pp.). https://doi.org/10.1051/e3sconf/202341501002
Infrasonic and seismic analysis of febris-flow events at Illgraben (Switzerland): Relating signal features to flow parameters and to the seismo-acoustic source mechanism
Belli, G., Walter, F., McArdell, B., Gheri, D., & Marchetti, E. (2022). Infrasonic and seismic analysis of febris-flow events at Illgraben (Switzerland): Relating signal features to flow parameters and to the seismo-acoustic source mechanism. Journal of Geophysical Research F: Earth Surface, 127(6), e2021JF006576 (20 pp.). https://doi.org/10.1029/2021JF006576
Numerical investigation of sediment‐yield underestimation in supply‐limited mountain basins with short records
Hirschberg, J., McArdell, B. W., Bennett, G. L., & Molnar, P. (2022). Numerical investigation of sediment‐yield underestimation in supply‐limited mountain basins with short records. Geophysical Research Letters, 49(7), e2021GL096440 (10 pp.). https://doi.org/10.1029/2021GL096440
A dilatant, two-layer debris flow model validated by flow density measurements at the Swiss illgraben test site
Meyrat, G., McArdell, B., Ivanova, K., Müller, C., & Bartelt, P. (2022). A dilatant, two-layer debris flow model validated by flow density measurements at the Swiss illgraben test site. Landslides, 19, 265-276. https://doi.org/10.1007/s10346-021-01733-2
Influence of pore fluid on grain-scale interactions and mobility of granular flows of differing volume
Taylor-Noonan, A. M., Bowman, E. T., McArdell, B. W., Kaitna, R., McElwaine, J. N., & Take, W. A. (2022). Influence of pore fluid on grain-scale interactions and mobility of granular flows of differing volume. Journal of Geophysical Research F: Earth Surface, 127(12), e2022JF006622 (25 pp.). https://doi.org/10.1029/2022JF006622
Brief communication: an autonomous UAV for catchment-wide monitoring of a debris flow torrent
Walter, F., Hodel, E., Mannerfelt, E. S., Cook, K., Dietze, M., Estermann, L., … Molnar, P. (2022). Brief communication: an autonomous UAV for catchment-wide monitoring of a debris flow torrent. Natural Hazards and Earth System Sciences, 22(12), 4011-4018. https://doi.org/10.5194/nhess-22-4011-2022
Flow and bed conditions jointly control debris‐flow erosion and bulking
de Haas, T., McArdell, B. W., Nijland, W., Åberg, A. S., Hirschberg, J., & Huguenin, P. (2022). Flow and bed conditions jointly control debris‐flow erosion and bulking. Geophysical Research Letters, 49(10), e2021GL097611 (10 pp.). https://doi.org/10.1029/2021GL097611
Multi-model comparison of computed debris flow runout for the 9 January 2018 Montecito, California Post-Wildfire Event
Barnhart, K. R., Jones, R. P., George, D. L., McArdell, B. W., Rengers, F. K., Staley, D. M., & Kean, J. W. (2021). Multi-model comparison of computed debris flow runout for the 9 January 2018 Montecito, California Post-Wildfire Event. Journal of Geophysical Research F: Earth Surface, 126(12), e2021JF006245 (33 pp.). https://doi.org/10.1029/2021JF006245
 

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