期刊
PROCESS SAFETY AND ENVIRONMENTAL PROTECTION
卷 152, 期 -, 页码 614-629出版社
ELSEVIER
DOI: 10.1016/j.psep.2021.06.033
关键词
Multiple pool fires; Fire suppression; Water mist; FDS; Sprinklers; Pressure drop
资金
- Science Academies of India (IAS-INSANASI)
This study examines the different types and difficulties of pool fires in fires, as well as the effectiveness of using water-mist sprinklers to extinguish multiple pool fires. Through numerical simulations, the research analyzes the impact of various parameters on the efficiency of water-mist sprinklers, aiming to address the application issues of sprinklers in commercial warehouse fires.
Accidental fires result in extensive loss of property, damage to the environment and a large number of fatalities every year. When fuel collects in the form of a pool and burns, it is termed a pool fire. Pool fires may burn in isolation - Non-interacting or as Single Pool Fires (SPFs) - or flames from multiple pool fires may interact with each other and burn in what is termed as Multiple Pool Fires (MPFs). Even as single pool fires (SPFs) are difficult to control, interacting flames due to multiple pool fires (MPFs) are even more difficult to extinguish. Compared to SPF, MPFs tend to have much higher flames and are reported to have extraordinary thermal intensity. Accidental pool fires in warehouses, commercial and residential buildings may interact, giving rise to interacting pool fires (MPFs). The commonly used technique to suppress fires in enclosures such as warehouse, commercial or residential buildings is to use sprinklers. Hence, this study reports the numerical simulations performed to analyse the effectiveness of watermist sprinklers in extinguishing MPFs. The related CFD coding and simulations were performed using Fire Dynamics Simulator (FDS), FDS tools like Pyrosim (pre-processor) and Smokeview (post-processor) packages. The effect of the ratio of the separation distance between the pools (S) to the diameter (D) on the overall fire suppression efficiency of the water-mist sprinkler as a function of the water mist flow rate, the height of the ceiling, and sprinkler particle size are vigorously analysed in this work. The analysis presented in this article will mainly help to resolve problems associated with the effectiveness of mist-sprinkler in warehouse fires regarding process safety viewpoint. (c) 2021 Institution of Chemical Engineers. Published by Elsevier B.V. All rights reserved.
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