作 者: (李振环); (孙海锋); (张晓晨); (夏新林); (陈学);
机构地区: 哈尔滨工业大学能源科学与工程学院
出 处: 《化工学报》 2017年第S1期260-265,共6页
摘 要: 以超声速气流冲击轴线与来流方向相一致的带有金属泡沫多孔前置体的实体圆柱为研究对象,采用连续尺度单区域法数值模拟泡沫多孔前置体内部的流场及气动热效应。多孔域阻力特性基于分布阻力法加入,选用局部非热平衡模型,考虑流体相与固体相的传热温差,并通过Rosseland扩散模型加入固体相的辐射热效应。研究发现,在模拟气流工况下前置有一定长度的柱状泡沫多孔材料可显著降低模型激波阻力和前缘气动热效应,此外相对于气动压缩效应对温度场的影响黏性耗散效应较小。 Supersonic flow around streamwise-aligned solid cylinder with cylindrical open-cell metal foam insert front is investigated.The fluid field and aero-heating effect inside frontal foam porous region is numerically simulated by single domain method at continuum-scale.The drag characteristic of porous region is added by distributed resistance method.The heat transfer temperature difference between solid and fluid phase is taken into account by employing local thermal non-equilibrium model and the radiation heat transfer of solid phase is calculated using Rosseland approximation.It is found that the installation of certain length of cylindrical open-cell foam in front of solid cylinder can reduce the wave drag and frontal aero-heating effect of the model considerably under simulating airflow condition.Compared with aerodynamic compression effect,the influence of viscous dissipation effect on temperature field is small.