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Wind Entrainment in Jets with Reversing Buoyancy: Implications for Volcanic Plumes

Audrey Michaud-Dubuy, Guillaume Carazzo, É. Kaminski

2020Journal of Geophysical Research Solid Earth20 citationsDOIOpen Access PDF

Abstract

Abstract Explosive volcanic eruptions commonly undergo a transition from stable plume to collapsing fountain with associated destructive pyroclastic density currents. A major goal in physical volcanology is to predict quantitatively the limit between the flow regimes as a function of the source and environmental conditions. Atmospheric winds influence the dynamics and stability of the column causing bending and enhancing turbulent air entrainment. However, the predictions made with 1‐D models of volcanic plumes accounting for the presence of wind strongly depend on the wind entrainment coefficient β , a parameter whose value varies in the literature. Here we present a new theoretical model to identify an analytical criterion for column collapse in windy conditions. We then present new laboratory experiments on turbulent jets with reversing buoyancy rising in a crossflow in order to better constrain β . Our results show that a single value of can be used to describe the behavior of laboratory jets with arbitrary buoyancy. The results allow us to parameterize our 1‐D model of volcanic plumes PPM and to show the crucial importance of wind gradient and profile on volcanic column dynamics through the use of the 1991 Mt. Hudson eruption as a case study. Finally, we propose a new transition diagram between the stable plume and collapsing fountain regimes, as a function of wind speed and mass discharge rate only, which can be used for the rapid assessment of major hazards during an explosive eruption.

Topics & Concepts

PlumeBuoyancyVolcanoGeologyMechanicsTurbulenceAtmospheric sciencesAir entrainmentEntrainment (biomusicology)MeteorologyVolcanic hazardsJet (fluid)Wind speedGeophysicsEnvironmental scienceSeismologyPhysicsRhythmAcousticsMeteorological Phenomena and SimulationsTropical and Extratropical Cyclones ResearchWind and Air Flow Studies
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