posted on 2014-07-02, 13:26authored byBarbara J. Lowesmith, Geoff Hankinson, D.M. Johnson
A series of large scale vapour cloud explosions in a long congested region were conducted using methane/hydrogen mixtures. The congested region measured 3 m × 3 m × 18 m long and was preceded by a confined region which allowed an explosion flame with some initial flame speed and turbulence to be generated which then entered the congested region. During the experiments the flame speed and explosion overpressure were measured through the congested region. The hydrogen content in the methane/hydrogen mixture was varied from 0 to 50% by volume. A key objective was to determine factors that could lead to continued flame acceleration through the congested region, such as the hydrogen concentration, the initial flame speed entering the congestion and the level of congestion. The results are reported together with some detailed observations of the complex nature of pressure traces produced by explosion events of this type.
History
School
Aeronautical, Automotive, Chemical and Materials Engineering
Department
Chemical Engineering
Published in
PROCESS SAFETY AND ENVIRONMENTAL PROTECTION
Volume
89
Issue
4
Pages
234 - 247 (14)
Citation
LOWESMITH, B.J., HANKINSON, G. and JOHNSON, D.M., 2011. Vapour cloud explosions in a long congested region involving methane/hydrogen mixtures. Process Safety and Environmental Protection, 89 (4), pp. 234 - 247.