Melt-coolant interaction

“…In Sections 9.2 and 9.3, see also [15], we recalled the basics of the detonation theory for single-and multi-phase flows. We ended up with a model for detonation analysis for melt-coolant interaction systems.…”

“…There is a consensus among researchers that mixtures in which one of the liquids is continuous are explosive. But up to this study [15,16] it was not clear how to judge the risk of mixtures consisting of melt droplets, coolant droplets and gas. The practical outcome of this study is the demonstration that detonation pressure jumps in disperse systems are lower than 200 bar without considering the question whether they can be realized in nature or not.…”

Detonation waves caused by chemical reactions or by melt-coolant interactions

“…In Sections 9.2 and 9.3, see also [15], we recalled the basics of the detonation theory for single-and multi-phase flows. We ended up with a model for detonation analysis for melt-coolant interaction systems.…”

“…There is a consensus among researchers that mixtures in which one of the liquids is continuous are explosive. But up to this study [15,16] it was not clear how to judge the risk of mixtures consisting of melt droplets, coolant droplets and gas. The practical outcome of this study is the demonstration that detonation pressure jumps in disperse systems are lower than 200 bar without considering the question whether they can be realized in nature or not.…”

Detonation waves caused by chemical reactions or by melt-coolant interactions