Título
Global sensitivity analysis of fuel-type-dependent input variables of a simplified physical fire spread model
Autor(es)
Palabras clave
Global sensitivity analysis
Simplified physical model
Wildland fire model
Flame length model
Real wildland fire simulation
Clasificación UNESCO
Fecha de publicación
2020
Citación
Asensio-Sevilla, M.I. Santos-Martín, M.T. Álvarez-León, D. Ferragut-Canals, L. Global sensitivity analysis of fuel-type-dependent input variables of a simplified physical fire spread model. Mathematics and Computers in Simulation. 2020; 172, pp 33-44. https://doi.org/10.1016/j.matcom.2020.01.001
Resumen
[EN]A new global sensitivity analysis has been conducted of fuel-type-dependent input variables of the simplified physical fire spread model (PhyFire) to understand how the use of spatial averages, that is, fuel models, influences the results of PhyFire with a view to enhancing its understanding and improving its design. The model’s simplicity, the numerical techniques used, and a recent code optimisation, allow undertaking the analysis with very competitive computational times. The fuel data used correspond to grasslands, shrublands and forest in the Spanish region of Galicia. The analysis results validate the flame length sub-model proposed in the paper, which significantly improves the model’s efficiency.
URI
ISSN
0378-4754
DOI
10.1016/j.matcom.2020.01.001
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