Measurements of the times of arrival of the primary shock produced by the explosion of a nominal 20 tn propane–oxygen mixture have been analysed to provide the variation of the peak hydrostatic overpressure as a function of distance. The results have been scaled to those for a charge of unit mass at normal temperature and pressure, based on the masses of the propane and oxygen and of the propane alone. The scaled results are compared with those produced by the explosion of a hemispherical unit mass of TNT to provide the TNT equivalence factor as a function of overpressure and distance. For overpressures greater than 1 atm there is a strong dependence on the distance from the centre of the explosion, but at lower overpressures the equivalence factors have almost constant values of 0.55 for the propane–oxygen mixture and 1.95 for the propane alone. The significance of these findings, in relationship to vapour cloud explosions and boiling liquid expanding vapour explosions, is discussed.
[1]
A. M. Birk.
FIRE TESTS OF PROPANE TANKS TO STUDY BLEVES AND OTHER THERMAL RUPTURES: DETAILED ANALYSIS OF MEDIUM SCALE TEST RESULTS
,
1997
.
[2]
A. A. Adamczyk,et al.
The blast wave generated by spherical flames
,
1979
.
[3]
J. M. Dewey.
The properties of a blast wave obtained from an analysis of the particle trajectories
,
1971,
Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.
[4]
Kazuyoshi Takayama,et al.
Studies of the TNT equivalence of silver azide charges
,
2003
.
[5]
D. K. Pritchard,et al.
Blast effects from vapour cloud explosions: A decade of progress
,
1993
.
[6]
A. M. Birk,et al.
Hazards from propane BLEVEs: An update and proposal for emergency responders
,
1996
.
[7]
John M. Dewey,et al.
Chapter 13.1 - Spherical Shock Waves: 13.1 Expanding Spherical Shocks (Blast Waves)
,
2001
.