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Publication
Fire dynamics in open compartments
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| 4.54 MB | Adobe PDF |
Advisor(s)
Abstract(s)
With the aim to increase fire safety in open compartments, such as open car parks, some correlative models were used to test the ability to recover both dynamics and thermal characteristics of a ceiling-jet flow. The heat flow, coming from a burning vehicle, occurs when the fire plume impinges the ceiling and develops in the radial direction of the fire axis. Both temperature and velocity predictions are decisive for sprinklers positioning, fire alarms positions, detectors (heat, smoke) position and activation times and back-layering predictions. This investigation deals with a parametric analysis using different fire events (class of the vehicle) and two fire scenarios. Some correlative formulations were used: Alpert, Cooper, Heskestad & Delichatsios and Motevalli & Marks. An advance calculation method (CFAST) based on a two-zone model formulation was used to compare the results, as well as the CFD software ANSYS Fluent, based on the finite volume method. A total of 16 simulation results were obtained taking into consideration 2 different heights for the compartment (H=3m and H=5m), 4 different car classes (fire events), 6 radial positions (R) and two software (CFAST and ANSYS Fluent). The correlative model from Motevalli & Marks overestimates the dynamic characteristics in small compartments. The two zone model overestimates the maximum temperature in the biggest compartment and the CFD results for temperature and velocity are always higher than the other calculation methods.
Description
Keywords
Open car parks Ceiling jet Correlative models Two zone models (CFAST) Field models (ANSYS Fluent)
Citation
Piloto, P.A.G.; Possoli, Ketlen; Junior, Luiz C.M.; Nechab, Khadouma; Benarous, Abdallah (2018). Fire dynamics in open compartments. In 6th International Conference on Integrity-Reliability-Failure (IRF). Lisbon