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Numerical simulation of hydrogen-air detonation for damage assessment in realistic accident scenarios

Type of Publication
Year of Publication
2008
Authors

L. Bedard-Tremblay; L. Fang; L. Bauwens; Z. Cheng; A.V. Tchouvelev

Abstract

An accidental hydrogen release within an equipment enclosure may result in the presence of detonable mixture in a confined environment. From a safety standpoint, it is then useful to assess the potential for damage. In that context, numerical simulation of the sequence of events subsequent to detonative ignition provides a useful tool, although with obvious limitations. This article describes the procedure, summarizes two case studies, and reviews the limitations. First, a hydrogen dispersion pattern is obtained from numerical simulation of dispersion, using a commercial package designed primarily for incompressible flow. This dispersion cloud is then used as the initial condition in an inviscid, compressible, reactive flow simulation. To force detonative ignition, a sufficiently large amount of energy is deposited in a small region that corresponds to the ignition location. Chemistry is modeled using a single step Arrhenius model. Because the wave thickness is small compared with the computational domain, a fine mesh is needed, limiting the practicality of the process to two-dimensional geometries. This is the most significant limitation; it is conservative. The two cases described in the paper include an electrolyzer, in which a small release occurs, leading potentially to some damage to the enclosure, and a reformer, in which the consequences are potentially more serious. (C) 2007 Elsevier Ltd. All rights reserved.

DOI

10.1016/j.jlp.2007.06.011

Volume

21

Notes

Times Cited: 5 1st European Summer School on Hydrogen Safety (ESSHS) Aug 15-24, 2006 Univ Ulster, Belfast, NORTH IRELAND 5

Pagination

154-161

Number
2
ISSN Number

0950-4230

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