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Abstract

Evaluation of the hydrogen-oxygen global reaction rate was conducted to predict auto-ignition onset and delay.
For this purpose, a global reaction rate was incorporated into a CFD simulation of hot hydrogen that flows in a laminar regime, in a simple geometry of a cylindrical enclosure where ambient air prevails.
Auto-ignition was obtained for different inflow temperatures at atmospheric pressure. The results agree with the classical results of H-2-O-2 explosion limits, referred to as the "peninsula". Ignition onset was estimated at different pressures within the thermal branch of the peninsula (third limit). Results show that the current global reaction rate adequately represents ignition onset dependency on temperature and equivalence ratio, whilst dependency on pressure is poor. The ignition delay decreases with the increase in temperature; however, at higher temperatures (1000-1200 K), it remains almost constant. This may be explained by the fact that a non-premixed mixture is being examined, in which minimal time is needed to form the required conditions for ignition temperature and fuel to oxidizer ratio (FOR).
The present study focuses on the transient hydrogen dispersion and examines the flammability limits of non-premixed H-2 air mixtures with no external ignition energy.
Transient flows, that are often the subject of safety-related scenarios, are characterized by a rapid formulation of flammability zones. The present work allows the prediction of ignition zones directly, rather than predicting them by combining dispersion maps and flammability limits maps. Copyright (C) 2012, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.

Year of Publication
2012
Journal
International Journal of Hydrogen Energy
Volume
37
Number of Pages
14669-14675
ISBN Number
0360-3199
Accession Number
WOS:000309493600083
DOI
10.1016/j.ijhydene.2012.07.017
Alternate Journal
Int J Hydrogen Energ
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