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Pré-Publication, Document De Travail Année : 2023

Simulated slidequakes: Insights from DEM simulations into the high-frequency seismic signal generated by geophysical granular flows

Résumé

Geophysical granular flows generate seismic signals known as `slidequakes' or `landquakes', with low-frequency components whose generation by mean forces is widely used to infer hazard-relevant flow properties. Many more such properties could be inferred by understanding the fluctuating forces that generate slidequakes' higher frequency components and, to do so, Arran et al. (2021, https://doi.org/10.1029/2021JF006172) (A21) compared the predictions of pre-existing physical models to the forces exerted by laboratory-scale flows. However, A21 was unable to establish whether the laboratory flows exhibited basal slip, and the conditions for applying its results are therefore unclear. Here, we describe discrete-element simulations that examined the fluctuating forces exerted by steady, downslope-periodic granular flows on fixed, rough bases that prevented basal slip. We show that, in its absence, A21's results do not hold: simulated basal forces' power spectra have high-frequency components more accurately predicted using mean shear rates than using depth-averaged flow velocities, and can have intermediate-frequency components which we relate to chains of prolonged interparticle contacts. We develop a `minimal model', which uses a flow's collisional properties to even more accurately predict the high-frequency components, and empirically parametrize this model in terms of mean flow properties. Finally, we demonstrate that the bulk inertial number determines not only the magnitude ratio of rapidly fluctuating and mean forces on a unit basal area, consistent with A21, but also the relative magnitudes of the high and intermediate-frequency force components.
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Dates et versions

hal-04311906 , version 1 (28-11-2023)

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  • HAL Id : hal-04311906 , version 1

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Matthew I Arran, A Mangeney, J de Rosny, Renaud Toussaint. Simulated slidequakes: Insights from DEM simulations into the high-frequency seismic signal generated by geophysical granular flows. 2023. ⟨hal-04311906⟩
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