Title :
Fire zone/field model performance based investigation in fire flashover phenomenon
Author :
Yu, Chiachun ; Wang, Shihcheng ; Lin, Cherngshing ; Chou, Kuoda ; Lai, Chihchung ; Chen, Techi
Author_Institution :
Dept. of Mech. Eng., Yuan Ze Univ. Taoyuan, Taoyuan, Taiwan
Abstract :
Flashover is a crucial phenomenon in which all indoor combustibles ignite nearly simultaneously in building fires. Flashover prediction and understanding are vital in building fire protection engineering. Current fire simulation software is unable to accurately estimate the flashover-induced time. This study developed an improved mathematical zone model for analyzing flashover during a building fire with crucial parameters, including heat release rate, wall thermal inertia, and smoke layer height, which was combined with FDS (Fire Dynamic Simulator) field model software to analyze a park lodging bedroom fire experiment from the NIST (National Institute of Standard Technology). The effects of fire intensity and heat pyrolysis for burning objects on the fire characteristics were studied and used to predict the flashover-induced time.
Keywords :
combustion; fires; flashover; ignition; mechanical engineering computing; pyrolysis; structural engineering; FDS field model software; NIST; National Institute of Standard Technology; building fire protection engineering; burning; fire dynamic simulator; fire flashover phenomenon; fire intensity; fire simulation software; fire zone-field model performance; heat pyrolysis; heat release rate; ignition; indoor combustibles; smoke layer height; thermal inertia; Analytical models; Fires; Flashover; Heating; Ignition; Numerical models; Software; FDS; field model; fire; flashover; zone model;
Conference_Titel :
Consumer Electronics, Communications and Networks (CECNet), 2012 2nd International Conference on
Conference_Location :
Yichang
Print_ISBN :
978-1-4577-1414-6
DOI :
10.1109/CECNet.2012.6201918
