Airport Safety Detail

Thursday, August 1, 2013

Computational Flame Characterization of New Large Aircraft Immersed in Hydrocarbon Pool Fires

DOT/FAA/TC-13/31 Authors: Christopher P. Menchini

Computational Flame Characterization of New Large Aircraft Immersed in Hydrocarbon Pool Fires

New Large Aircraft (NLA) pose unique firefighting challenges unique for traditional aircraft. Specifically, questions have arisen regarding the applicability of current firefighting protection standards to nonconventional design changes, such as fuselage shape modifications, enhanced material compositions, new fuel storage locations, and unique passenger loading configurations. To address fuselage shape concerns, a computational fluid dynamic (CFD) modeling strategy was developed to quantify heat transfer to the aircraft for a given aircraft geometry and hydrocarbon pool fire condition. The CFD predictions supported experimental validation data conclusions showing increased crosswinds amplify heat transfer to the aircraft surface due to enhanced turbulent fuel-air mixing. Based upon the predicted CFD fire plume structure and aircraft surface heat transfer magnitudes, nominal changes in aircraft geometry exposed to similar scale flame and atmospheric conditions pose no extraordinary firefighting challenge. All thermal attributes stayed within the same order of magnitude and, in the majority of instances, varied less than 15%.

DOT/FAA/TC-13/31
Authors: Christopher P. Menchini

Documents to download

Print