摘要
由二元超音速燃烧流场垂直喷射H_2的数值模拟计算,描述了缝隙喷嘴附近氢气与空气的混合和燃烧过程。使用两步化学反应、MacCormark显式时间分裂法和Baldwin-Lomax修正的代数湍流模型,计算超音速燃烧流场,得出了流线、静压、静温、H_2和H_2O浓度等值线图,反映了缝隙喷嘴附近回流区的大小、自动着火点的位置及火焰向主流的传播现象。
A two-dimensional supersonic combustion flowfield is numerically simulated to under,tand the phenomena and mechanism of mixing and combustion processes near a slot injector injecting hydrogen transversely in a scramjet enging. A two-step global model is applied to the calculation of hydrogen-fueled turbulent combustion in supersonic airstream. Results are presented, which show the streamlines, the contours of static pressure and static temperature, and the concentrations of H2 and H2O, and also describe the size of seperation zones near the injector, the locations where autoignition occurs, and how flames propagate into the airstream.
出处
《推进技术》
EI
CAS
CSCD
北大核心
1995年第4期7-13,共7页
Journal of Propulsion Technology
基金
国家自然科学基金
关键词
冲压喷气发动机
超音速燃烧
二元流场
流动分布
Ramjet
Supersonic combustion
Binary fluid
Flow distribution
Numerical solution
