Study on Flame Characteristics in Aerosols by Industrial Heat Transfer Fluids

Abstract: Due to the complexity of aerosol formation and the combustion process, fire and explosion hazards of flammable aerosols formed in the process industry are not fully understood. In this study, the flame propagation process of aerosolized industrial heat transfer fluids was investigated to understand the combustion phenomena in aerosol systems. Experimental observation shows different characteristics of flames propagation in aerosol systems, which are determined by the evaporated fuel vapor in aerosol system pri… Show more

“…Other phenomena, such as radiative transfers in the mist and the generation of soot at high fuel-air equivalence ratios should be considered. Moreover, during the flame propagation in the sphere, droplets can be projected against the sphere's inner wall leading to thermal quenching, which underlines the importance of scaling effects (Lian et al, 2011).…”

A step toward lifting the fog off mist explosions: Comparative study of three fuels

“…Other phenomena, such as radiative transfers in the mist and the generation of soot at high fuel-air equivalence ratios should be considered. Moreover, during the flame propagation in the sphere, droplets can be projected against the sphere's inner wall leading to thermal quenching, which underlines the importance of scaling effects (Lian et al, 2011).…”

A step toward lifting the fog off mist explosions: Comparative study of three fuels

“…Investigations of the stability of thermal hazards are important because runaway reactions that result from the combination of incompatible molecules in a laboratory often result in fires and potentially in explosions. − Runaway reactions have resulted in numerous casualties due to the unexpected behavior of chemical mixtures. , Methyl ethyl ketone peroxide (MEKPO) is a hazardous material because of its unstable structure, and it has been implicated in many accidents around the world. − MEKPO has caused many thermal explosions in Taiwan, Japan, Korea, and China, which makes it one of the most hazardous materials in Asia (Table ). , These accidents were usually caused by the inappropriate use of MEKPO. For example, the heat of dilution that was generated by the mixing of acid wastes resulted in a MEKPO explosion and fire in Yoshitomi, Fukuoka, Japan, in 1998 .…”

Real-Time Thermal Imaging of Fast Exothermic Reactions Involving the Hazardous Combination of Methyl Ethyl Ketone Peroxide and Inorganic Acids

Molecular-Level Modeling and Simulation in Process Safety