关键词: 燃烧稳定性;燃烧化学;数值计算;液氧+;煤油

Abstract: Kerosene-droplet’s instable combustion process in oxidizer-rich gas was investigated numerically. One-dimensional spherical symmetrical N-S equations were employed, and the actual property of the gas and gas-liquid equilibrium on the droplet’s surface were taken into account. 10^-6 meter and 10^-6 second magnitude corresponding to space and time were adopted in calculation. The results show that certain frequency unstable vaporization could be aroused even without pressure oscillation. It is due to the rapid physical-chemistry property variation when droplet is heated up and approaches supercritical point. Supercritical gas-mass’s response is decided by the frequency of pressure oscillations. Heat release’s response to the pressure oscillation is different from the vaporization rate. Moreover, its response to pressure oscillations is obvious.

Key words: Combustion stability;Combustion chemistry;Numerical calculation;Liquid oxygon~+;Kerosene