关键词: 爆震引发;环形火焰+;热点+;数值模拟

Abstract: Based on the modified wave propagation algorithm which is suitable for multi-component reactive flow, the numerical simulations of detonation initiation by two types of toroidal flame for methane-air mixture were performed in a tube. The distributions of pressure, temperature, chemical heat release and species concentration were calculated for both types of initial toroidal flame, and the formation and effectiveness of "hot spot" were discussed according to the calculated results. The results show that the compression wave produced by flame can collide and reflect on axis or wall of tube. The interaction between shock complex and flame accelerates the chemical heat release rate, and leads to the formation of hot spot. Further, the hot spot is amplified to form the overdriven detonation wave, then, the overdriven detonation wave gradually becomes the steady detonation wave. The calculated parameters of steady detonation wave front are compared with those of CJ theory, and the good agreements can be obtained.

Key words: Detonation initiation;Toroidal flame~+;Hot spot;Numerical simulation