Chedeville C., Roche Olivier. (2015). Influence of slope angle on pore pressure generation and kinematics of pyroclastic flows : insights from laboratory experiments. Bulletin of Volcanology, 77 (11), p. art. 96 [13 p.]. ISSN 0258-8900.
Titre du document
Influence of slope angle on pore pressure generation and kinematics of pyroclastic flows : insights from laboratory experiments
Bulletin of Volcanology, 2015,
77 (11), p. art. 96 [13 p.] ISSN 0258-8900
The influence of slope angle on pore pressure generation and kinematics of fines-rich pyroclastic flows was investigated through laboratory experiments. Granular flows were generated by the release of a column of fine glass beads (d=0.08 mm) in an inclined channel (0-30 degrees). The granular column could be fluidized while the channel base was either smooth or made rough by glued beads of 3 mm diameter. Pore pressure measurements reveal that the degree of autofluidization, caused by air escaping from the substrate interstices into which flow particles settled, was high at all slope angles. Flow runout increase due to autofluidization, however, was reduced at slope angle higher than similar to 12 degrees because of the occurrence of a strong deceleration phase that limited the flow duration. This is probably caused by the combination of flow head thinning at increased slope angle and settling of particles into the substrate interstices until the flow ran out of mass. Analysis of high-speed videos suggests that ingestion of ambient air at the flow front did not occur, even on steep slopes of 30 degrees. Experiments at inclinations close to (25 degrees) or slightly higher (30 degrees) than the repose angle of the granular material (28.5 degrees) revealed the formation of a thin basal deposit that was then eroded as the flow thickness and velocity gradually decreased. Our study suggests that air escape from substrate interstices in nature can be a significant external cause of pore pressure generation that favors low energy dissipation and long runout distances of pyroclastic flows on moderate topographies.
Plan de classement
Sciences fondamentales / Techniques d'analyse et de recherche [020]
;
Géologie et formations superficielles [064]
