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W1998902135 abstract "A multiparticle thermofluid dynamic model was developed to assess the effect of a range of particle size on the transient two‐dimensional behavior of collapsing columns and associated pyroclastic flows. The model accounts for full mechanical and thermal nonequilibrium conditions between a continuous gas phase and N solid particulate phases, each characterized by specific physical parameters and properties. The dynamics of the process were simulated by adopting a large eddy simulation approach able to resolve the large‐scale features of the flow and by parametrizing the subgrid gas turbulence. Viscous and interphase effects were expressed in terms of Newtonian stress tensors and gas‐particle and particle‐particle coefficients, respectively. Numerical simulations were carried out by using different grain‐size distributions of the mixture at the vent, constitutive equations, and numerical resolutions. Dispersal dynamics describe the formation of the vertical jet, the column collapse and the building of the pyroclastic fountain, the generation of radially spreading pyroclastic flows, and the development of thermal convective instabilities from the fountain and the flow. The results highlight the importance of the multiparticle formulation of the model and describe several mechanical and thermal nonequilibrium effects. Finer particles tend to follow the hot ascending gas, mainly in the phoenix column and, secondarily, in the convective plume above the fountain. Coarser particles tend to segregate mainly along the ground both in the proximal area close to the crater rim because of the recycling of material from the fountain and in the distal area, because of the loss of radial momentum. As a result, pyroclastic flows were described as formed by a dilute fine‐rich suspension current overlying a dense underflow rich in coarse particles from the proximal region of the flow. Nonequilibrium effects between particles of different sizes appear to be controlled by particle‐particle collisions in the basal layer of the flow, whereas particle dispersal in the suspension current and ascending plumes is determined by the gas‐particle drag. Simulations performed with a different grain‐size distribution at the vent indicate that a fine‐grained mixture produces a thicker and more mobile current, a larger runout distance, and a greater elutriated mass than the coarse‐grained mixture." @default.
W1998902135 created "2016-06-24" @default.
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W1998902135 date "2003-04-01" @default.
W1998902135 modified "2023-10-15" @default.
W1998902135 title "Multiparticle simulation of collapsing volcanic columns and pyroclastic flow" @default.
W1998902135 cites W1607625743 @default.
W1998902135 cites W187233590 @default.
W1998902135 cites W1964076867 @default.
W1998902135 cites W1966903764 @default.
W1998902135 cites W1967385959 @default.
W1998902135 cites W1970313160 @default.
W1998902135 cites W1970677752 @default.
W1998902135 cites W1971921672 @default.
W1998902135 cites W1978268847 @default.
W1998902135 cites W1978893684 @default.
W1998902135 cites W1979735997 @default.
W1998902135 cites W1980645325 @default.
W1998902135 cites W1980831499 @default.
W1998902135 cites W1984761985 @default.
W1998902135 cites W1987780670 @default.
W1998902135 cites W1991616320 @default.
W1998902135 cites W2004570211 @default.
W1998902135 cites W2005596931 @default.
W1998902135 cites W2007492863 @default.
W1998902135 cites W2008885521 @default.
W1998902135 cites W2014223712 @default.
W1998902135 cites W2016677635 @default.
W1998902135 cites W2017310369 @default.
W1998902135 cites W2030090788 @default.
W1998902135 cites W2030453906 @default.
W1998902135 cites W2039740227 @default.
W1998902135 cites W2043327696 @default.
W1998902135 cites W2043466708 @default.
W1998902135 cites W2043541464 @default.
W1998902135 cites W2044751363 @default.
W1998902135 cites W2046490915 @default.
W1998902135 cites W2048966846 @default.
W1998902135 cites W2055059354 @default.
W1998902135 cites W2065840424 @default.
W1998902135 cites W2067034992 @default.
W1998902135 cites W2069243709 @default.
W1998902135 cites W2070209458 @default.
W1998902135 cites W2071783315 @default.
W1998902135 cites W2074447412 @default.
W1998902135 cites W2077777509 @default.
W1998902135 cites W2078204357 @default.
W1998902135 cites W2083832499 @default.
W1998902135 cites W2085651738 @default.
W1998902135 cites W2086332524 @default.
W1998902135 cites W2088490482 @default.
W1998902135 cites W2093856018 @default.
W1998902135 cites W2094351817 @default.
W1998902135 cites W2094407650 @default.
W1998902135 cites W2095409619 @default.
W1998902135 cites W2103137128 @default.
W1998902135 cites W2110780452 @default.
W1998902135 cites W2111182035 @default.
W1998902135 cites W2117406268 @default.
W1998902135 cites W2121342132 @default.
W1998902135 cites W2122122894 @default.
W1998902135 cites W2122309862 @default.
W1998902135 cites W2123745769 @default.
W1998902135 cites W2124625589 @default.
W1998902135 cites W2126203319 @default.
W1998902135 cites W2147082753 @default.
W1998902135 cites W2155296980 @default.
W1998902135 cites W2158427598 @default.
W1998902135 cites W2160889388 @default.
W1998902135 cites W2164190889 @default.
W1998902135 cites W2168795429 @default.
W1998902135 cites W2409851960 @default.
W1998902135 doi "https://doi.org/10.1029/2001jb000508" @default.
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