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Experiments and Numerical Simulations of Vertical Flame Spread on Charring Materials at Different Ambient Temperatures

Mangs, J. and Hostikka, S., 2011. Experiments and Numerical Simulations of Vertical Flame Spread on Charring Materials at Different Ambient Temperatures. Fire Safety Science 10: 499-512. 10.3801/IAFSS.FSS.10-499


ABSTRACT

A new experimental apparatus for measuring flame spread rates at different ambient temperatures is presented. The 2-m long sample is pre-heated with air to desired temperature, ignited from below with a small propane burner, and flame spread is monitored with thermocouples at the surface of the sample. Rate of vertical concurrent flame spread as a function of ambient temperature is determined on cylindrical birch rod samples and on PVC cable samples. Corresponding flame spread scenarios are numerically simulated using axi-symmetric solution of the flow field and a pyrolysis model with parameters estimated from thermogravimetric and cone calorimeter experiments. The simulation model was able to predict the flame spread rates within the uncertainties associated with the experiments and post-simulation analysis of the spread rate.



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