Brittany A. Adam scite author profile

Large wildfires of increasing frequency and severity threaten local populations and natural resources and contribute carbon emissions into the earth-climate system. Although wildfires have been researched and modeled for decades, no verifiable physical theory of spread is available to form the basis for the precise predictions needed to manage fires more effectively and reduce their environmental, economic, ecological, and climate impacts. Here, we report new experiments conducted at multiple scales that appear to reveal how wildfire spread derives from the tight coupling between flame dynamics induced by buoyancy and fine-particle response to convection. Convective cooling of the fine-sized fuel particles in wildland vegetation is observed to efficiently offset heating by thermal radiation until convective heating by contact with flames and hot gasses occurs. The structure and intermittency of flames that ignite fuel particles were found to correlate with instabilities induced by the strong buoyancy of the flame zone itself. Discovery that ignition in wildfires is critically dependent on nonsteady flame convection governed by buoyant and inertial interaction advances both theory and the physical basis for practical modeling.wildfires | buoyant instability | flame spread | convective heating

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Section B Fire and Explosion - A Study of Flame Spread in Engineered Cardboard Fuel Beds Part I: Correlations and Observations of Flame Spread

Finney

Forthofer

Grenfell

et al. 2014

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Section B Fire and Explosion - A Study of Flame Spread in Engineered Cardboard Fuel Beds Part II: Scaling Law Approach

Adam

Akafuah

Finney³

et al. 2014

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The Strouhal-Froude number scaling for wildland fire spread

Adam¹,

English²,

Akafuahb³

et al. 2014

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Experimental evidence of buoyancy controlled flame spread in wildland fires

Finney¹,

Cohen²,

Forthofer³

et al. 2014

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Brittany A. Adam

Role of buoyant flame dynamics in wildfire spread

Section B Fire and Explosion - A Study of Flame Spread in Engineered Cardboard Fuel Beds Part I: Correlations and Observations of Flame Spread

Section B Fire and Explosion - A Study of Flame Spread in Engineered Cardboard Fuel Beds Part II: Scaling Law Approach

The Strouhal-Froude number scaling for wildland fire spread

Experimental evidence of buoyancy controlled flame spread in wildland fires

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