PUBLICATIONS
Published works
Particle tracking and detection software for firebrands characterization in wildland fires
Title | Particle tracking and detection software for firebrands characterization in wildland fires |
Publication Type | Journal Article |
Year of Publication | 2018 |
Authors | Filkov, A, Prohanov, S |
Journal | Fire Technology |
Volume | 55 |
Issue | 3 |
Pagination | 817-836 |
Date Published | 12/2018 |
Keywords | Firebrand detection, Firebrand tracking, Firebrands, Structural, Wildland |
Abstract | Detection and analysis of the objects in a frame or a sequence of frames (video) can be used to solve a number of problems in various fields, including the field of fire behaviour and risk. A quantitative understanding of the short distance spotting dynamics, namely the firebrand density distribution within a distance from the fire front and how distinct fires coalesce in a highly turbulent environment, is still lacking. To address this, a custom software was developed in order to detect the location and the number of flying firebrands in a thermal image then determine the temperature and sizes of each firebrand. The software consists of two modules, the detector and the tracker. The detector determines the location of the firebrands in the frame, and the tracker compares the firebrand in different frames and determines the identification number of each firebrand. Comparison of the calculated results with the data obtained by the independent experts and experimental data showed that the maximum relative error does not exceed 12% for the low and medium number of firebrands in the frame (less than 30) and software agrees well with experimental observations for firebrands > 20 × 10−5 m. It was found that fireline intensity below 12,590 kW m−1 does not change significantly 2D firebrand flux for firebrands bigger than 20 × 10−5 m, while occasional crowning can increase the firebrand flux in several times. The developed software allowed us to analyse the thermograms obtained during the field experiments and to measure the velocities, sizes and temperatures of the firebrands. It will help to better understand of how the firebrands can ignite the surrounding fuel beds and could be an important tool in investigating fire propagation in communities. |
URL | https://link.springer.com/article/10.1007/s10694-018-0805-0 |
DOI | 10.1007/s10694-018-0805-0 |
Refereed Designation | Refereed |