@article{ref1,
title="A combination of fire and dispersion modeling techniques for simulating a warehouse fire",
journal="International journal of safety and security engineering",
year="2012",
author="Daly, A. and Zannetti, P. and Echekki, T.",
volume="2",
number="4",
pages="368-380",
abstract="Understanding the environmental impact of large warehouse fires can be a daunting task because of uncertainty in establishing a fire scenario and additional uncertainty about the fate of the fire plume and its content. A warehouse in New Orleans, Louisiana, had a large fire on May 14, 2004. In order to estimate ground-level exposure in the neighborhood of the warehouse, a fire scenario was development and, subsequently, two modeling techniques for the fire plume dispersion were implemented. First, we applied the National Institute of Standards and Technology (NIST) fire model ALOFT-FT to calibrate the smoke emissions (and consequently the emissions of PM2.5). Second, we used US Environmental Protection Agency (EPA) dispersion models (ISCST3 and AERMOD) to calculate the ground-level concentration of smoke from the fire. Because of the high heat of the fire, we estimated that only 6% or less of the fire emissions could impact the local neighborhood, while 94% or more of the fire emissions remained high above the ground. For AERMOD, the corresponding percentages are 8% and 92%. KeywordsAERMOD, accident reconstruction, air quality modeling, ALOFT-FT, fire modeling, ISCST3, plume modeling.<p /><p>Language: en</p>",
language="en",
issn="2041-9031",
doi="10.2495/SAFE-V2-N4-368-380",
url="http://dx.doi.org/10.2495/SAFE-V2-N4-368-380"
}