期刊文献+

非均匀有理B样条曲线及节点插入算法在透平叶片优化设计中的应用 被引量:12

Application of non-uniform rational B-spline curve and knot insertion algorithm to turbine blade optimization
原文传递
导出
摘要 将非均匀有理B样条(NURBS)曲线及节点插入算法应用到透平叶栅的二维参数化造型,可以兼顾造型参数的实际物理意义和型线调节的灵活性;将控制点可调的NURBS曲线应用到三维叶片积叠线造型,能够构造任意形状的弯、扭、掠叶片.在此基础上搭建的透平叶片三维气动优化平台,将参数化造型、网格自动划分、流体计算并行求解集成在一起,应用实验设计和响应面分析方法进行多目标寻优.对某单级实验透平分别进行单排叶片和整级优化后,单排叶片总压损失降低了0.57%;单级绝热效率提高了0.8%. Non uniform rational B-spline (NURBS) curve and knot insertion algorithm were used for parametric modeling of turbine blade profiles, in which actual physical meaning of the parameters and flexibility of profile regulation can be taken into account. Bended, twisted and swept blades were successfully constructed by applying NURBS with adjustable number of control points to stacking line modeling. An aerodynamic optimization platform for three-dimensional turbine blade has been developed, in which the parametric modeling, grid generation, computational fluid dynamics analysis and multi-objective optimization based on design of expert (DOE) and response surface method (RSM) method were integrated. After optimization, the total pressure loss of a single-row turbine cascade was reduced by 0.57% and the adiabatic efficiency of a singe-stage turbine was increased by 0.8 %.
出处 《航空动力学报》 EI CAS CSCD 北大核心 2010年第2期451-458,共8页 Journal of Aerospace Power
基金 国家973项目(2007CB210108)
关键词 透平叶片 非均匀有理B样条曲线 节点插入算法 多目标气动优化 turbine blade non-uniform rational B-spline (NURBS) curveknot insertion algorithm multi-objective aerodynamic optimization
  • 相关文献

参考文献6

  • 1Trigg M A, Tubby G R, Sheard A G. Automatic genetic optimization approach to two-demensional blade profile design for steam turbines[J]. Journal of Turbomachinery, 1999,121:11-17.
  • 2Cravero C,Satta A. A Navier-Stokes based strategy for the aerodynamic optimization of a turbine cascade using genetic algorithm[R]. ASME Turbo Expo. ,2001-GT-0508.
  • 3宋立明,李军,丰镇平,罗常.基于多目标优化的透平叶栅变工况设计方法[J].航空动力学报,2007,22(9):1499-1504. 被引量:4
  • 4Boehm W. Inserting new knots into B-spline curves[J].CAD, 1980, 12(4):87-111.
  • 5Moffit T P, Szanca E M, Whitney W J. Design and cold air test of single stage uncooled core turbine with high work output[R]. NASA TP-1680,1980.
  • 6Chen Bo, Yuan Xin. Advanced aerodynamic optimization system for turbomachinery[J]. ASME Journal of Turbomachinery, 2008, 130(2): 1005-1016.

二级参考文献8

  • 1Weiss A P,Fottner L.The influence of load distribution on secondary flow in straight turbine cascades[J].ASME J.Engineering for Gas Turbine and Power,1995,117:133-141.
  • 2Benner M W,Sjolander S A,Moustapha S H.Influence of leading-edge geometry on profile losses in turbine at off-design incidence:experimental results and an improvedcorrelation[J].ASME J.Turbomachinery,1997,119:193-20.
  • 3Quagliarella D.Genetic algorithms applications in computational fluid dynamics[C]∥Genetic Algorithms in Engineering and Computer Sciences,Chichester:John Wiley & Sons Ltd.,1995:251-270.
  • 4宋立明,李军,丰镇平.三维跨音速压气机叶栅多目标气动优化设计[R].重庆:中国工程热物理学会学术会议,2006.
  • 5Korakianitis T.Development of three direct-design methods for two-dimensional axial-turbomachinery cascades[J].ASME J.of Turbomachinery,1993,121:312-324.
  • 6Trigg M A,Tubby G R,Sheard A G.Automatic genetic optimization approach to two-dimensional blade profile design for steam turbines[J].ASME J.of Turbomachinery,1999,121:11-17.
  • 7SONG Liming,FENG Zhenping,LI Jun.Shape optimization of turbine stage using adaptive range differential evolution and three-dimensional Navier-Stokes solver[R].ASME Paper GT-2005-68280,2005.
  • 8Korakianitis T.Surface-curvature-distribution effects on turbine-cascade performace[J].ASME J.of Turbomachinery,1993,115:334-340.

共引文献3

同被引文献115

引证文献12

二级引证文献89

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部