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Smoke plume from fire Lagrangian simulation: dependence on drag coefficient and resolution
B. Tenti,
Enrico FERRERO
Department of Sustainable Development and Ecological Transition
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peer-review
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Keyphrases
Buoyancy
25%
Cell Size
25%
CO2 Concentration
25%
Concentration of Measure
25%
Drag Coefficient
100%
Drag Coefficient Model
25%
Eulerian-Lagrangian
25%
Heat Release
25%
Horizontal Cell
25%
Horizontal Resolution
50%
Idaho
25%
Lagrangian Simulation
100%
Lagrangian Stochastic
25%
LiDAR
25%
Plume
75%
Plume Rise
50%
Reynolds number
25%
Size Ratio
25%
Smoke Dispersion
25%
Smoke Plume
100%
Source Size
50%
Stochastic Particle Model
25%
United States Environmental Protection Agency (USEPA)
25%
Vertical Velocity
25%
Wildfire
25%
Earth and Planetary Sciences
Environmental Protection Agency
50%
Field Experiment
50%
Idaho
50%
Influence Coefficient
50%
Optical Radar
50%
Reynolds Number
50%
Smoke
100%
Physics
Influence Coefficient
100%
Optical Radar
100%
Reynolds Number
100%
Engineering
Drag Coefficient
100%
Environmental Protection Agency
20%
Optical Radar
20%
Reynolds' Number
20%
Simulation Result
20%
Smoke
100%
Material Science
Aircraft
100%
Chemical Engineering
Drag Coefficient Model
50%