摘要
对SST湍流模型进行了改进,并通过对典型分离流动进行数值模拟,来检验和提高模型预测分离流动的能力。基于亚声速分离流动,提出了提高雷诺应力的模拟精度和分离流修正的改进方法,并进行了对比研究得出结论;在亚声速分离流动分析结论基础上,采用了可压缩性修正方法,开展了跨声速、超声速和高超声速激波/边界层干扰分离流动的数值模拟研究。结果表明:提高雷诺应力的模拟精度和采用分离流修正明显地提高了SST湍流模型对分离流动的模拟能力;适当地可压缩性修正对超声速和高超声速分离流动的计算精度有改善作用。
To verify and improve the capability of predicting separation,SST turbulence model was modified and applied to simulate separation flows.Firstly,starting from the property of subsonic,Reynolds stress simulation improvement and separation correction were used,some significant conclusions were reached from comparison.Secondly,based on hypersonic and supersonic,the modified model employed compressibility correction and simulated shock wave/boundary-layer interaction in transonic,supersonic and hypersonic.Finally,the results show that Reynolds stress simulation improvement and separation correction can improve the capability of predicting separation and suitable compressibility correction obviously improves the capability of prediction supersonic and hypersonic separation flow.
出处
《推进技术》
EI
CAS
CSCD
北大核心
2013年第5期595-602,共8页
Journal of Propulsion Technology
基金
国家装备预研基金(9140A25010312HK0301)
国家自然基金(11202162)
关键词
SST湍流模型
分离流
雷诺应力
可压缩性修正
激波
边界层干扰
SST turbulence model
Separation flow
Reynolds stresses
Compression modification
Shock wave/boundary-layer interaction