Media Release
From: Science In PublicFirestorms are a nightmare for emergency services and anyone in their path. They occur when a bushfire meets a ‘perfect storm’ of environmental conditions and creates a thunderstorm.
Dr Rachel Badlan and Associate Professor Jason Sharples are part of a team of experts from UNSW Canberra and ACT Emergency Services that has found the shape of a fire is an important factor in whether it will turn into a firestorm.
Fires that stay in a more concentrated area, rather than spreading out in a fire-front line, are more likely to produce higher smoke plumes and turn into firestorms, the researchers found.
They’ve used that finding to inform the development of a predictive model for firestorms, which is being trialled with the NSW Rural Fire Service.
The model will help identify the most dangerous fires and better determine the best deployment of fire resources, saving more lives and restricting the damage when firestorms strike.
“Thunderstorms generated by the heat from a fire are the most dangerous manifestation of a bushfire. These firestorms create their own weather with lightning, strong winds, and even tornadoes that spread fire in multiple directions. These ingredients make them impossible for firefighters to put out,” says Rachel, who is a postdoctoral fellow at UNSW Canberra.
“Currently, there’s no way to predict them. Previous work attributes these firestorms solely to the total energy released by the fire, however, we have found the shape of a fire is a vital factor in the development of firestorms,” Rachel says.
The team used advanced computer models to incorporate details of the environment (terrain, wind, and atmosphere) and the fire’s shape, size and intensity, to determine how high the plume will be.
This information then tells the researchers about the potential for a fire to develop into a firestorm (known as a pyrocumulonimbus).
“With firestorms commonly occurring in Australia—more than 50 since 2001—and set to increase due to hotter and drier conditions, it’s vital that fire managers can determine which fires are likely to transition into a firestorm so that evacuation may occur as early as possible,” Rachel says.
“We hope that once the model has been trialled it will be suitable to use globally.”
Read more at: www.researchgate.net/publication/323412690_The_role_of_deep_flaming_in_violent_pyroconvection
