Passive explosion suppression by blast-induced atomisation from water containers.

The experimental findings of a combined wind tunnel and field-scale explosion study of blast-induced water release and its effect on blast suppression are reported. The release of water, and its subsequent atomisation, from containers both with open and partly enclosed surfaces, was first studied in a wind tunnel. An array of water containers were then placed at differing positions from the ignition point, together with flame acceleration obstacle arrays at fixed positions, inside a 5.1 m long by 0.3 m(2) cross-section explosion duct. The droplet size and the minimum flame speed necessary for the container array to suppress the explosion were found to depend upon the number of containers in the array and on their shape and size. One particular container array extinguished the flame when placed at any position beyond 1.7 m from the ignition point. When extinction was observed the internal over-pressure was substantially reduced and the external over-pressure completely eliminated. This study suggests a new approach toward passive explosion suppression.