Mapping fireline intensity and flame height of prescribed gorse wildland fires.

Wildfires currently represent an imminent danger to communities around the world due to their increasing severity and frequency. It is critical to expand current knowledge on wildfire behaviour to improve risk management practices, firefighting operation and engineering design in the Wildland Urban Interface (WUI). This paper reports 2D high resolution measurements of Byram's fireline intensity generated during a 150 × 200 m2 gorse shrub burn generated from visual and infrared video footage of the prescribed fire, and Light-Detection-and-Ranging (LiDAR) data of the vegetation canopy, both acquired using Unmanned Aerial Vehicles (UAV) technology. The results show that the fireline intensity was highly variable across the plot, reaching localized peak values over 40,000 kW/m and an averaged intensity of 14,300 kW/m approximately. An empirical correlation for estimating the average flame height was derived from the fireline intensity maps and from experimental measurements carried out during the prescribed burn. The correlation was used to produce a 2D detailed map of the average flame height of the prescribed fire, achieving a 11% of error compared to in-fire measurements. The findings from this research suggests that non-linear variabilities of fireline intensity should be carefully considered to adequately describe wildifire behavior of shrubland fires. • UAV-based observations were used to map and characterize the fireline intensity of a 150 × 200 m2 gorse prescribed burn. • Fireline intensity varied greatly within the plot, presenting intermixed areas of very low and higher intensity of roughly an order of magnitude difference within a few meters and seconds. • An empirical correlation for estimating the average flame height was derived and mapped achieving 11% of error compared to in-fire measurements. [ABSTRACT FROM AUTHOR]