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Effects of fuel bed structure on heat transfer mechanisms within and above porous fuel beds in quiescent flame spread scenarios

Zakary J. Campbell-Lochrie, Carlos Walker-Ravena, Michael Gallagher, Nicholas S. Skowronski, Eric V. Mueller, Rory M. Hadden

2023International Journal of Wildland Fire24 citationsDOIOpen Access PDF

Abstract

Background Further understanding of the effect of fuel structure on underlying physical phenomena controlling flame spread is required given the lack of a coherent porous flame spread theory. Aims To systematically investigate the effect of fuel structure on the heat transfer mechanisms within and above porous fuel beds. Methods Radiant and total heat fluxes were measured in two extended series of laboratory-based quiescent flame spread experiments in pine needle beds across a range of structural conditions (various fuel loadings, bulk densities, and fuel depths). Key results Peak radiant heat fluxes from the in-bed combustion region were greater than peak radiant heat fluxes from the above-bed flame front for all of the studied fuel conditions. However, the magnitude and duration of radiant heating from the above-bed flame increased with fuel loading (where bulk density was held constant and fuel depth allowed to vary). Conclusions Our study highlighted the important role of fuel structure on heat transfer mechanisms, and the relevance of development of semi-empirical and simplified physics-based models. Implications The interdependent effects of fuel bed properties on the underlying heat transfer mechanisms must be considered in the further development of coherent, flame spread theories.

Topics & Concepts

CombustionHeat transferFuel mass fractionFlame spreadFlame structureMechanicsPorosityRange (aeronautics)MeteorologyEnvironmental scienceMaterials scienceCombustion chamberChemistryComposite materialVapor lockPhysicsCombustorOrganic chemistryCombustion and flame dynamicsFire dynamics and safety researchFire effects on ecosystems
Effects of fuel bed structure on heat transfer mechanisms within and above porous fuel beds in quiescent flame spread scenarios | Litcius