Add to ORKGAvalanche observations from Norway, Austria and Switzerland, which distinguish between dense (fluidized) flow and powder part, are analyzed to obtain probability information about the reach of the powder part. The analysis suggests that the relative run-out distance of the powder part increases with increasing mean slope angle of the track. The data provide useful hints for avalanche practitioners about the reach and the corresponding probabilities of the powder part of avalanches.publishedVersio
Experimental test sites are important to understand the physical flow processes occurring within an ...
The characteristics of avalanche at the starting zone were mentioned in Part 1 (Nakamata, 1983). In ...
ABSTRACT: As public avalanche forecasts are done for large regions, backcountry travelers cannot sim...
Avalanche observations from Norway, Austria and Switzerland, which distinguish between dense (fluidi...
ABSTRACT: The run-out distance depends, among other things, on the release mass and the snow conditi...
ABSTRACT. Powder snow avalanches are natural hazards which affect the way populations live in mounta...
ABSTRACT: The Lautaret full-scale avalanche test site in the southern French Alps has been used by I...
Approximate maximum frontal speeds from 89 snow avalanches were analyzed to yield probabilistic esti...
Snow-avalanche speeds, run-out distances, and the concepts from dense granular flows are combined in...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]RIVAGEInternational audienceParticle size, particle speed and a...
Observations were made of the speed of avalanches by timing the advance of their front over a sectio...
Observations of the deposits, flow marks, and damages of three mixed-snow avalanches of widely diffe...
This paper presents results from a joint research project dedicated to the study of the part played ...
ABTRACT: The Voellmy avalanche basal friction parameters are retrieved from high rate positioning of...
Relations among the total volume (V) of avalanche snow in a rupture zone, the vertical height (H), t...
Experimental test sites are important to understand the physical flow processes occurring within an ...
The characteristics of avalanche at the starting zone were mentioned in Part 1 (Nakamata, 1983). In ...
ABSTRACT: As public avalanche forecasts are done for large regions, backcountry travelers cannot sim...
Avalanche observations from Norway, Austria and Switzerland, which distinguish between dense (fluidi...
ABSTRACT: The run-out distance depends, among other things, on the release mass and the snow conditi...
ABSTRACT. Powder snow avalanches are natural hazards which affect the way populations live in mounta...
ABSTRACT: The Lautaret full-scale avalanche test site in the southern French Alps has been used by I...
Approximate maximum frontal speeds from 89 snow avalanches were analyzed to yield probabilistic esti...
Snow-avalanche speeds, run-out distances, and the concepts from dense granular flows are combined in...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]RIVAGEInternational audienceParticle size, particle speed and a...
Observations were made of the speed of avalanches by timing the advance of their front over a sectio...
Observations of the deposits, flow marks, and damages of three mixed-snow avalanches of widely diffe...
This paper presents results from a joint research project dedicated to the study of the part played ...
ABTRACT: The Voellmy avalanche basal friction parameters are retrieved from high rate positioning of...
Relations among the total volume (V) of avalanche snow in a rupture zone, the vertical height (H), t...
Experimental test sites are important to understand the physical flow processes occurring within an ...
The characteristics of avalanche at the starting zone were mentioned in Part 1 (Nakamata, 1983). In ...
ABSTRACT: As public avalanche forecasts are done for large regions, backcountry travelers cannot sim...