@article{ref1,
title="Revisiting the dispersion safety factor (DSF) for vapor clouds of liquefied flammable gases (LNG and propane)",
journal="Safety science",
year="2020",
author="Àgueda, Alba and Subirana, Joan and Pastor, Elsa and Schleder, Adriana Miralles and Planas, Eulalia",
volume="128",
number="",
pages="e104748-e104748",
abstract="The concept of the Dispersion Safety Factor (DSF) was introduced by Vílchez et al., 2013, Vílchez et al., 2014 and has been revisited in this work. The DSF is defined as the ratio between the flammable region of the vapor cloud (set at a concentration equal to the low flammability level (LFL)) and the corresponding visible boundary of the cloud. We have used a computational fluid dynamics model (FLACS v.10.4) to simulate the dispersion of two liquefied flammable fuels (LNG and propane). DSF results have been analyzed using main effects and interaction plots, and a complementary metric (DSF50) has been introduced in order to establish more conservative threat areas in flammable vapor cloud scenarios. We have observed an interaction between relative humidity and wind velocity for DSF in the low-to-medium range of RH and wind velocity values. Four regression models have been proposed for the computation of DSF and DSF50 for LNG and propane dependent on ambient wind velocity and relative humidity. Contour plots have been prepared to be used as a practical tool, because through the reading of these plots the DSF (and DSF50) can be obtained immediately given wind velocity and relative humidity data.<p /> <p>Language: en</p>",
language="en",
issn="0925-7535",
doi="10.1016/j.ssci.2020.104748",
url="http://dx.doi.org/10.1016/j.ssci.2020.104748"
}