Article ID Journal Published Year Pages File Type
588502 Process Safety and Environmental Protection 2011 10 Pages PDF
Abstract

The effect of carbon dioxide (CO2) concentration on the ignition behaviour of hydrocarbon and CO2 gas mixtures is examined in both jets and confined explosions. Results from explosion tests are presented using a 20 l explosion sphere and an 8 m long section of 1.04 m diameter pipeline. Experiments to assess the flame stability and ignition probability in free-jets are reported for a range of different release velocities. An empirically-based flammability factor model for free-jets is also presented and results are compared to ignition probability measurements previously reported in the literature and those resulting from the present tests.The results help to understand how CO2 changes the severity of fires and explosions resulting from hydrocarbon releases. They also demonstrate that it is possible to ignite gas mixtures when the mean concentration is outside the flammable range. This information may be useful for risk assessments of offshore platforms involved in carbon sequestration or enhanced oil recovery, or in assessing the hazards posed by poorly-inerted hydrocarbon processing plant.

► Explosion measurements are reported for methane, CO2 and air mixtures. ► Ignition of jet releases of methane and CO2 mixtures in air is examined. ► A new flammability model for free jets gives good agreement with previous data. ► Ignition probability in jets found to be sensitive to disturbances from wind.

Related Topics
Physical Sciences and Engineering Chemical Engineering Chemical Health and Safety
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