Publication Date:
2020-02-12
Description:
Experimental volcanology is a powerful tool to reconstruct the dynamics of magmatic fluids within the conduit.
More specifically analogue models, allow constraining the conduit dynamics by independently examine physical
variables and their reciprocal relationships. Accurate scaling of the experiments to the natural systems is necessary to derive quantitative information on the studied processes.
Here we present a suite of experiments investigating the decompressive response of magma analogues with
different properties (i.e. fluid viscosity, suspended particle shape and/or content) and their scaling to the natural
basaltic systems. In the experiments Ar-saturated silicone oils with different viscosities are used as proxies for
volatile-bearing mafic magmas. Varying percentages of micrometric particles are added to the fluid to investigate the role of crystals content as well as crystal shape on the dynamics of the expanding flow. Through decompression, the degassing mixture is characterized by a regime of periodical oscillations of the bubbly front determined by phases of foam collapse and renewal. We find that time-scale of these oscillations has important implications for understanding the cyclical eruptive behaviour observed at basaltic volcanoes. Applicability of the experimental results to natural mafic systems has been verified in the scaling by using a set of a-dimensional numbers. The experimental dataset has been finally used to validate a numerical code implemented in the Openfoam framework. The original compressible multiphase solver twoPhaseEulerFoam was implemented to take into account the multicomponent nature of the fluid mixtures (liquid and gas) and their phase transition, as also reproduced in the experiments.
Decompression experiments and their scaling to volcanic system provided fundamental information on the
dynamics of volatiles within the shallow conduit. Furthermore, they are an invaluable tool to validate complex
numerical codes for multiphase multicomponent mixtures.
Description:
Published
Description:
Vienna (Austria)
Description:
3V. Proprietà chimico-fisiche dei magmi e dei prodotti vulcanici
Keywords:
experimental volcanology
;
decompression experiments
Repository Name:
Istituto Nazionale di Geofisica e Vulcanologia (INGV)
Type:
Oral presentation
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