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Large-Scale Avalanche Braking Mound and Catching Dam Experiments with Snow: A Study of the Airborne Jet |
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| Authors: | Kristin Martha Hákonardóttir Andrew J. Hogg Tómas Jóhannesson Martin Kern Felix Tiefenbacher |
| Affiliation: | 1. The Icelandic Meteorological Office, Bustadavegi 9, 150, Reykjavik, Iceland 2. Centre for Environmental & Geophysical Flows, School of Mathematics, University of Bristol, University Walk, Bristol, BS8 1TW, U.K 3. The Icelandic Meteorological Office, Bústadavegur 9, IS-150, Reykjavik, Iceland 4. Swiss Federal Institute of Snow and Avalanche Research, Flüelstrasse 11, CH-7260, Davos Dorf, Switzerland |
| Abstract: | We report a series of ongoing large-scale experiments to studythe interaction of a snow avalanche with a dam and a row of mounds which are of a comparable height to the flow depth.The experimental results indicate that the behaviour of thesupercritical flow around the obstacles is governed by the large-scale properties of the flowing avalanche rather than micro-scaleproperties of the granular current.The experiments show that, similarly to smaller-scale experimentswith glass particles, the avalanche detaches from the top of the dam or mound and forms a coherentairborne jet, which can be modelled as a two dimensional ballistic projectile with negligible air resistance.We study the two parameters that define the trajectory of thejet, namely the speed at which the jet is launched from the top of the obstacle and the deflection of the jet by the obstacle, and compare the resultswith a theory for the deflection of a jet of an ideal fluid. |
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