- Author
- Kashiwagi, T.
- Title
- Radiative Ignition Mechanism of Solid Fuels.
- Coporate
- National Bureau of Standards, Gaithersburg, MD
- Journal
- Fire Safety Journal, Vol. 3, No. 3, 185-200, February 1981
- Keywords
- solid fuels | ignition hazards | fire hazards | polymethyl methacrylate | room fires
- Identifiers
- radiative flame ignition; residential room fire
- Abstract
- Transmittance of external radiation from a CO2 laser through a boundary layer of decomposition products over a vertical sample surface is measured during the ignition period. The results indicate that there is significant absorption of the external radiation for PMMA, and a lesser but still not negligible amount, for red oak. An increase in gas phase temperature over surface temperature is observed over much of the ignition interval. Using the experimentally measured incident flux at the sample surface, surface temperature history was calculated from a model that included re-radiation and convection losses from the surface, endothermic decomposition and conduction into the material. The results confirm the significant effect of gas phase absorption on surface temperature. Steady-state-derived surface regression rate expression was used for PMMA in this model. The results raise questions about the validity of such data for the dynamic heating conditions during the ignition period. Further studies needed to understand the radiative ignition mechanism are identified.