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Citation |
Gould JS, Sullivan AL, Gould JS, Sullivan AL. Int. J. Wildland Fire 2021; 31(2): 163-175. |
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Copyright |
(Copyright © 2021, 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 |
As part of an investigation of wildfire growth and acceleration, the initial growth of incipient fires burning in uniform dry eucalypt forest (Eucalyptus rossii, E. macrorhyncha) litter fuel of 1.2 kg m−2 was studied in a combustion wind tunnel with a fuel bed width of 1.5 m. Fifty-eight fires of three ignition patterns (point, 400-mm line and 800-mm line) were carried out at two air speeds (1.25 and 2.0 m s−1) and two dead fuel moisture content (FMC) groups for each air speed (≤7.5% and >7.5% oven-dry weight for the low air speed and ≤5% and >5% for the high air speed). The fraction of steady-state rate of spread reached as a function of time was determined and fitted to two theoretical fire growth models from the literature. The best model suggests the times for a point ignition fire to reach steady-state spread rate were ~38 and 50 min under the higher FMC for 2.0 m s−1 and 1.25 m s−1 air speeds, respectively, and ~25 min under the lower FMC for 2.0 m s−1. Future work will extend these results to field-scale fire behaviour, which will help improve operational response to wildfire outbreaks and planning of ignition patterns for prescribed burning. Language: en |