Abstract
A physics-based model for post-earthquake fire spread was developed by modifying the prototype model previously proposed by the authors. In the new model, seismic motion and heating of fire are both considered as the causes of damage upon building components. The damage affects burning behavior of a fire involved building as well as behavior of building-to-building fire spread. For validation of the new model, simulation of fire spread which followed 1995 Kobe earthquake was conducted. Behavior of fire spread obtained by the numerical simulation was compared with the observed data. Reasonable agreement was obtained with regard to the number of burnt buildings. © 2011 INTERNATIONAL ASSOCIATION FOR FIRE SAFETY SCIENCE.
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Himoto, K., Mukaibo, K., Kuroda, R., Akimoto, Y., Hokugo, A., & Tanaka, T. (2011). A post-earthquake fire spread model considering damage of building components due to seismic motion and heating of fire. In Fire Safety Science (pp. 1319–1330). https://doi.org/10.3801/IAFSS.FSS.10-1319
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