Abstract
We document the characteristics of infrasound from a compact (<3-m burn diameter) wood pile fire using arrays located at 50 and 600 m. Infrasound from our controlled burn is present throughout the entire near-infrasound range (1–20 Hz), but its peak infrasound energy trends from 1.3 to 1 Hz over an hour correlating with a transition from relatively tall and narrow flame to a broader pile of coals with shorter flame. Observed infrasound frequencies correlate with flame flickering – quantified through spectral analysis of video – suggesting that flame and gas pulsing is the mechanism for the <2 Hz infrasound. Although the amplitude of the pile fire infrasound is low (<0.1 Pa at 50 m) it is a stationary source and detectable using array processing at 600 m. Given this demonstrated capability for remote surveillance of a small fire we contend that remote infrasound monitoring has potential application for larger wildfires.
| Original language | English |
|---|---|
| Article number | 110559 |
| Journal | Applied Acoustics |
| Volume | 231 |
| DOIs | |
| State | Published - 1 Mar 2025 |
Keywords
- Array processing
- Infrasound
- Natural hazards
- Wildfire monitoring