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Journal Article

Citation

Katurji M, Noonan B, Zhang J, Valencia A, Shumacher B, Kerr J, Strand T, Pearce G, Zawar-Reza P, Katurji M, Noonan B, Zhang J, Valencia A, Shumacher B, Kerr J, Strand T, Pearce G, Zawar-Reza P. Int. J. Wildland Fire 2022; 32(1): 43-55.

Copyright

(Copyright © 2022, International Association of Wildland Fire, Fire Research Institute, Publisher CSIRO Publishing)

DOI

10.1071/WF22100

PMID

unavailable

Abstract

Background Wildfires propagate through vegetation exhibiting complex spread patterns modulated by ambient atmospheric wind turbulence. Wind gusts at the fire-front extend and intensify flames causing direct convective heating towards unburnt fuels resulting in rapid acceleration of spread.Aims To characterise ambient and fire turbulence over gorse shrub and explore how this contributes to fire behaviour.

METHODS Six experimental burns were carried out in Rakaia, New Zealand under varying meteorological conditions. The ignition process ensured a fire-line propagating through dense gorse bush (1 m high). Two 30-m sonic anemometer towers measured turbulent wind velocity at six different levels above the ground. Visible imagery was captured by cameras mounted on uncrewed aerial vehicles at 200 m AGL.Key results Using wavelet decomposition, we identified different turbulent time scales that varied between 1 and 128 s relative to height above vegetation. Quadrant analysis identified statistical distributions of atmospheric sweeps (downbursts of turbulence towards vegetation) with sustained events emanating from above the vegetation canopy and impinging at the surface with time scales up to 10 s.

CONCLUSIONS Image velocimetry enabled tracking of 'fire sweeps' and characterised for the first time their lifetime and dynamics in comparison with overlying atmospheric turbulent structures.Implications This methodology can provide a comprehensive toolkit when investigating coupled atmosphere-fire interactions.


Language: en

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