A hybrid small-world network/semi-physical model for predicting wildfire spread in heterogeneous landscapes

A hybrid small-world network/semi-physical model for predicting wildfire spread in heterogeneous landscapes

This paper presents the latest developments and validation results of a hybrid model which combines a broad-scale stochastic small-world network model with a macroscopic deterministic approach, to simulate the effects of large fires burning in heterogeneous landscapes. In the extended version of the...

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Hauptverfasser: Billaud, Y, Zekri, N, Kaiss, A, Drissi, M, Pizzo, Y, Acem, Z, Collin, A, Santoni, P-A, Bosseur, F, Boulet, P, Porterie, B
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Combustion
Computer simulation
Engineering Sciences
Fires
Flammability
Heating
Landscapes
Mathematical models
Networks
Percolation
Physics
Reactive fluid environment
Spreads
Vegetation
Wildfires
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Beschreibung
Zusammenfassung:This paper presents the latest developments and validation results of a hybrid model which combines a broad-scale stochastic small-world network model with a macroscopic deterministic approach, to simulate the effects of large fires burning in heterogeneous landscapes. In the extended version of the model, vegetation is depicted as an amorphous network of combustible cells, and both radiation and convection from the flaming zone are considered in the preheating process of unburned cells. Examples are given to illustrate small-world effects and fire behavior near the percolation threshold. The model is applied to a Mediterranean fire that occurred in Corsica in 2009 showing a good agreement in terms of rate of spread, and area and shape of the burn. A study, based on a fractional factorial plan, is conducted to evaluate the influence of variations of model parameters on fire propagation.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/395/1/012008