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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 47, 2005 - Issue 6
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Original Articles

PREDICTING WILDLAND FIRE BEHAVIOR AND EMISSIONS USING A FINE-SCALE PHYSICAL MODEL

B. Porterie Department of Mechanical Engineering, IUSTI CNRS, Technopôle de Château-Gombert, Marseille, FranceCorrespondenceBernard. [email protected]
,
J. L. Consalvi Department of Mechanical Engineering, IUSTI CNRS, Technopôle de Château-Gombert, Marseille, France
,
A. Kaiss Department of Mechanical Engineering, IUSTI CNRS, Technopôle de Château-Gombert, Marseille, France
&
J. C. Loraud Department of Mechanical Engineering, IUSTI CNRS, Technopôle de Château-Gombert, Marseille, France
Pages 571-591 | Received 18 Jun 2004, Accepted 15 Sep 2004, Published online: 01 Sep 2006
 
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ABSTRACT

A physical fine-scale two-phase model has been developed for the purpose of determining wildland fire behavior and emissions. The situation modeled corresponds to a spreading wildfire driven by wind through a fuel bed of combustible elements. The numerical model solves a set of time-dependent conservation Equations for both phases (the gas and the vegetation elements) coupled through exchange terms. It accounts for the dynamics, turbulence, soot formation, and radiation. This model has been applied to a prescribed savanna fire. Good qualitative agreement was found between the simulation results and available in situ experimental data on the rate of spread and fuel consumption ratio.

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