摘要: By combining the three-dimensional model software and grid generation software, the combustor parametric model and high quality and high speed gridding in the full flow field has been realized. Based on the research of the parametric modeling, an optimizing design, CFD analysis and performance prediction of the combustor have been accomplished, and the rule of the combustor performance variation with structural parameters was presented. The results show that the combustor capability has no significant change with the radial swirler parameters and the primary holes area. The combustor capability has significant change with position and profile of the primary holes and dilution holes, and the combustor outlet temperature profile and emission change greatly when the total hole area of the burnerinnerliner changes. The parametric model method is helpful to provide a fast design method for the aero-engine combustor design.
摘要: 采用等效盘模型与全三维黏性仿真相结合的方法,对旋翼下洗流干扰下直升机/粒子分离器的一体化流场特性进行了仿真研究.验证了ROBIN(rotor body interaction)模型,对类“阿帕奇”直升机/粒子分离器进行了大、小前进比时不同桨盘载荷下的一体化流场特性仿真,并对比了一体化条件、孤立条件下粒子分离器工作特性差异.结果表明:小前进比时下洗流对粒子分离器进口的分离流结构影响较大,且下洗流携带动能的叠加使得一体化条件下扫气流出口的总压损失反而比独立粒子分离器低;较大前进比状态下,下洗流干扰使得齿轮箱外罩鼓包后的分离区位置向两侧偏移,范围相比无桨盘载荷状态有所扩大,不过其对粒子分离器气动性能参数的影响并不明显.