Explosion mitigation of methane–air mixture in combined application of HFC‐227ea/CO₂ and ultrafine water mist in the pipeline

Abstract: In order to reduce the power of methane explosion in natural gas pipelines and effectively improve the explosion suppression efficiency of a single explosion suppressant, we carry out the explosion suppression of HFC‐227ea/carbon dioxide mixed gas as well as mixed gas/ultrafine water mist through a self‐built methane explosion suppression experimental platform. Based on the changes in parameters such as explosion overpressure, flame propagation velocity, and flame propagation structure, the coupling mechanism … Show more

“…The primary component impacting the efficacy of fine water mist in putting out fires is its mass fraction, according to Yoshida et al (2015). Ultrafine water mist can only stop methane explosions when there's sufficient of it, according to Yang et al (2023), but carbon dioxide can stop it from making explosions stronger.…”

Numerical Simulation on Methane Coal Dust Composite Explosion in Restricted Space by Ultrafine Water Mist Suppression

“…The primary component impacting the efficacy of fine water mist in putting out fires is its mass fraction, according to Yoshida et al (2015). Ultrafine water mist can only stop methane explosions when there's sufficient of it, according to Yang et al (2023), but carbon dioxide can stop it from making explosions stronger.…”

Numerical Simulation on Methane Coal Dust Composite Explosion in Restricted Space by Ultrafine Water Mist Suppression

Special Issue: The 4th International Symposium on Urban and Industrial Safety