一种新非轴对称端壁成型方法的数值研究
Numerical research on a new non-axisymmetric endwall profiling method
-
摘要: 根据叶栅内部二次流形成和发展的机理, 应用正弦函数和多项式函数建立了一种叶栅非轴对称端壁成型方法.采用三维时均可压缩N-S方程组求解技术, 数值研究了采用所建立的非轴对称端壁成型方法设计的跨音速直列叶栅的流动特性, 分析讨论了建立的非轴对称端壁成型方法的效果及其对叶栅流动特性的影响.计算结果表明:所建立的非轴对称端壁可以有效地抑制和延迟叶栅通道中二次流涡系的发展, 沿整个叶栅流道内总压系数明显降低, 成型过程中幅值控制函数中最大幅值约占7.5%叶高为宜, 叶栅出口位置处总压损失降低了约5.6%.Abstract: Based on the mechanism of secondary flow formation and development in a turbine cascade,SINE function and polynomial function were applied to develop a non-axisymmetric endwall profiling method.Three-dimensional Reynolds-Averaged Navier-Stokes solution was used to study the flow characteristics of the transonic linear turbine cascades designed by non-axisymmetric endwall profiling method.And,the effect of this method and its influence on the flow characteristics of cascade were analyzed and discussed.The numerical results show that,the established non-axisymmetric endwall could suppress and delay efficiently the development of secondary flow vortex system in the cascade passage,and the total pressure coefficient along entire cascade passage declines remarkably.The maximum amplitude of the profiling method is preferably set to 7.5% span,and the total pressure loss at exit reduces by 5.6%.
-
[1] Rose M G.Non-axismmetric end wall profriling in the HP NGVs of an axial flow gas turbine[R].ASME Paper 94-GT-249,1994. [2] Harvey N W,Mark M G,Taylor M D,et al.Non-axisymmetric turbine end wall design:part 1:three-dimensional linear design system[R].ASME Paper 99-GT-337,1999. [3] Hartland J,Smith D G.A design method for the profiling of end walls in turbines[R].ASME Paper GT-2001-30433,2001. [4] 李国君,马晓永,李亮.非轴对称端壁成型及其对叶栅损失影响的数值研究[J].西安交通大学学报,2005,11(39):1169-1172.LI Guojun,MA Xiaoyong,LI Liang.Non-axisymmetric turbine end wall design and numerical investigation of its effect on the flow field in a turbine cascade[J].Journal of Xi'an Jiaotong Univerxity,2005,39(11):1169-1172. [5] Menter F R.Two equation eddy viscosity turbulence models for engineering applications[J].AIAA J.,1994,32:1598-1605.
点击查看大图
计量
- 文章访问数: 1521
- HTML浏览量: 2
- PDF量: 419
- 被引次数: 0