弹箭与制导学报
彈箭與製導學報
탄전여제도학보
JOURNAL OF PROJECTILES, ROCKETS, MISSILES AND GUIDANCE
2010年
2期
158-162
,共5页
激波%混合层%超声速燃烧%大涡模拟
激波%混閤層%超聲速燃燒%大渦模擬
격파%혼합층%초성속연소%대와모의
shock wave%mixing layer%supersonic combustion%large eddy simulation
基于大涡模拟数值方法,文中研究了具有双燃烧室冲压发动机超声速燃烧室工程背景的二维超声速混合层与激波相互作用的情况.强激波入射在混合层上,使当地混合层增长加快,但在下游位置,拟序结构对平均流湍动能的吸收达到饱和,阻碍了混合层增长;超声速气流绕楔流动产生的激波角越大,更大强度的激波入射到混合层上,使其向上偏折更厉害;激波与有反应超声速混合层作用的流场,相对于无激波的燃烧流场,化学反应强度要大很多.
基于大渦模擬數值方法,文中研究瞭具有雙燃燒室遲壓髮動機超聲速燃燒室工程揹景的二維超聲速混閤層與激波相互作用的情況.彊激波入射在混閤層上,使噹地混閤層增長加快,但在下遊位置,擬序結構對平均流湍動能的吸收達到飽和,阻礙瞭混閤層增長;超聲速氣流繞楔流動產生的激波角越大,更大彊度的激波入射到混閤層上,使其嚮上偏摺更厲害;激波與有反應超聲速混閤層作用的流場,相對于無激波的燃燒流場,化學反應彊度要大很多.
기우대와모의수치방법,문중연구료구유쌍연소실충압발동궤초성속연소실공정배경적이유초성속혼합층여격파상호작용적정황.강격파입사재혼합층상,사당지혼합층증장가쾌,단재하유위치,의서결구대평균류단동능적흡수체도포화,조애료혼합층증장;초성속기류요설류동산생적격파각월대,경대강도적격파입사도혼합층상,사기향상편절경려해;격파여유반응초성속혼합층작용적류장,상대우무격파적연소류장,화학반응강도요대흔다.
Large eddy simulation was carried out on the interaction between strong shock wave and supersonic mixing layer in DCR's supersonic combustor.The results show that the incidence of strong shock wave in mixing layer induces acceleration of local mixing layer development,while it blocks mixing in the backward sect because of the saturation of eddy absorbing turbulence kinetic energy of the average flow.The bigger shock wave angle induced by supersonic flow round wedge brings the more intense shock and the more deflected mixing layer.There is larger combustion intensity in the reacting supersonic mixing layer flow field with strong shock wave compared to the one without shock wave.