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Citation |
Chatelon FJ, Balbi JH, Cruz MG, Morvan D, Rossi JL, Awad C, Frangieh N, Fayad J, Marcelli T, Chatelon FJ, Balbi JH, Cruz MG, Morvan D, Rossi JL, Awad C, Frangieh N, Fayad J, Marcelli T. Int. J. Wildland Fire 2022; 31(2): 176-192. |
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Copyright |
(Copyright © 2022, International Association of Wildland Fire, Fire Research Institute, Publisher CSIRO Publishing) |
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DOI |
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PMID |
unavailable |
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Abstract |
The 'Balbi model' is a simplified rate of fire spread model aimed at providing computationally fast and accurate simulations of fire propagation that can be used by fire managers under operational conditions. This model describes the steady-state spread rate of surface fires by accounting for both radiation and convection heat transfer processes. In the present work the original Balbi model developed for laboratory conditions is improved by addressing specificities of outdoor fires, such as fuel complexes with a mix of live and dead materials, a larger scale and an open environment. The model is calibrated against a small training dataset (n = 25) of shrubland fires conducted in Turkey. A sensitivity analysis of model output is presented and its predictive capacity against a larger independent dataset of experimental fires in shrubland fuels from different regions of the world (Europe, Australia, New Zealand and South Africa) is tested. A comparison with older versions of the model and a generic empirical model is also conducted with encouraging results. The improved model remains physics-based, faster than real time and fully predictive. Language: en |