关键词: 冲压喷气发动机;煤油;超音速燃烧;导流型凹槽+;模型

Abstract: The chemistry mechanism of kerosene is key to numerical simulations of kerosene’s supersonic combustion flow field. The chemical dynamic characteristics of surrogate fuel’s (C₁₂H₂₃) reduced chemistry model were analyzed in detail. It was concluded that: （1） the cracking, ignition, combustion and NO_X emission characteristics are properly described by this chemistry model, in which the predicted distribution of OH is in consistent with the PLIF observation of literature, but the temperature flow field was over-predicted by one step cracking mechanism to some extent. （2） The production of CO₂ in 3D cavity is relatively high, which reveals more combustion enhancement in 3D cavity. Besides, the OH distribution in 3D cavity’s transverse vortex proves its flame stabilizing mechanism in microcosmic view. （3） The description of kerosene’s reacting dynamics plays an important role in exact numerical prediction of kerosene’s supersonic combustion flow field and evaluation of kerosene-fueled scramjet’s performance.

Key words: Scramjet;Kerosene;Supersonic combustion;Cavity with flow-usher slot~+;Model