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- 2015
任意曲线坐标系Euler方程S2流面的计算方法
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Abstract:
为提高S2流面计算方法对涡轮复杂几何的适应性和计算能力,详细推导了任意正交曲线坐标系下应用于流道中心S2流面计算的Euler方程,提出了任意曲线坐标系Euler方程S2流面的计算方法,发展了适用于三阶精度总变差减小的差分格式的数学模型,结合了隐格式时间推进、Riemann问题求解等技术。在应用于带弧形凸起的流道及某直叶栅气动参数计算,并对某三级低压涡轮进行性能预测的结果表明:所提方法对激波具有较高的捕捉精度,能够较准确地获得叶栅气动参数分布,且与实验结果吻合良好;对于多级涡轮总性能参数和气动参数分布均有较高的计算精度,是一种可为涡轮设计提供快速、可靠的计算方法。
To adapt the complex geometry of the turbine profile and improve the computing capability, an Euler S2 stream surface calculation strategy is proposed in the body??fitted coordinate system, the governing equation for Euler S2 stream surface calculation in the arbitrary orthogonal curvilinear coordinate system is derived in detail, and the mathematical model for the third order total variation diminishing (TVD) difference scheme is developed. The implicit time marching method and the Riemann solver are also employed to solve the aerodynamic parameters of a flow channel with bump and a linear cascade, and to predict the performance of a 3??stage low pressure turbine. The results show that the proposed strategy is able to capture the shock wave with high resolution. The solution to the linear cascade coincides well with the experimental data with a credible accuracy for the flow field calculation
| [1] | CHENG Ronghui, LEI Pini, LIU Bo, et al. A two??dimensional numerical method for multi??stage axial compressor performance in engineering applications [J]. Journal of Aerospace Power, 2007, 22(6): 955??960. |
| [2] | SHAO Fuyong, YANG Jinguang, LIU Zhende, et al. Improved streamline curvature throughflow method and its application in a bypass compression system design [J]. Journal of Aerospace Power, 2008, 23(6): 1073??1077. |
| [3] | [5]高国荣, 苏莫明, 杨云凯. 轴流压缩机叶轮流线曲率法反问题的研究 [J]. 风机技术, 2009(5): 7??10. |
| [4] | [1]WU Chunhua. A general theory of 3D flow in subsonic or supersonic turbomachines of axial, radial and mixed flow types, TN??2604 [R]. Washington DC, USA: NASA, 1952. |
| [5] | YUAN Ning, ZHANG Zhenjia, GU Zhonghua, et al. A comparison of three kinds of calculation program of S2 stream surface in the compressor of aero??engine [J]. Journal of Propulsion Technology, 1998, 19(1): 50??56. |
| [6] | GAO Guorong, SU Moming, YANG Yunkai. Research on the inverse problem of streamline curvature method for axial??flow compressor impeller [J]. Compressor, Blower & Fan Technology, 2009(5): 7??10. |
| [7] | [6]阎超, 于剑, 徐晶磊, 等. CFD模拟方法的发展成就与展望 [J]. 力学进展, 2011, 41(5): 562??589. |
| [8] | YAN Chao, YU Jian, XU Jinglei, et al. On the achievements and prospects for the methods of computational fluid dynamics [J]. Advances in Mechanics, 2011, 41(5): 562??589. |
| [9] | [7]刘凤君, 王仲奇. 汽轮机次、末两级弯扭静叶的工程设计与实验研究 [J]. 工程热物理学报, 1996, 17(2): 161??165. |
| [10] | LIU Fengjun, WANG Zhongqi. Engineering design and experiment study for the bowed and twisted blade in sub??last and last stages of steam turbine [J]. Journal of Engineering Thermophysics, 1996, 17(2): 161??165. |
| [11] | [8]孙大伟, 乔渭阳, 许开富, 等. 低雷诺数条件下涡轮性能的计算研究 [J]. 航空动力学报, 2008, 23(7): 1253??1259. |
| [12] | SUN Dawei, QIAO Weiyang, XU Kaifu, et al. Study on turbine performance at low Reynolds number [J]. Journal of Aerospace Power, 2008, 23(7): 1253??1259. |
| [13] | [9]SMADAR K. Multicomponent flow calculations by a consistent primitive algorithm [J]. Journal of Computational Physics, 1994, (112): 31??43. |
| [14] | [10]OSHER S, CHAKRAVARTHY S R. A new class of high accuracy TVD schemes for hyperbolic conservation laws [C]∥ AIAA Aerospace Sciences Meeting. Reston, VA, USA: AIAA, 1985: 0363. |
| [15] | [2]袁宁, 张振家, 顾中华, 等. 涡喷发动机压气机三种S2流面计算程序的比较 [J]. 推进技术, 1998, 19(1): 50??56. |
| [16] | [3]程荣辉, 雷丕霓, 刘波, 等. 一种工程实用的多级轴流压气机特性二维数值计算方法 [J]. 航空动力学报, 2007, 22(6): 955??960. |
| [17] | [4]邵伏永, 杨金广, 刘振德, 等. 改进的流线曲率通流计算方法及在双涵道压缩系统设计中的应用 [J]. 航空动力学报, 2008, 23(6): 1073??1077. |
| [18] | [11]TORO E F. Riemann solvers and numerical methods for fluid dynamics: a practical introduction [M]. 3rd ed. Berlin, Germany: Springer, 2009. |
| [19] | [12]李得英, 宋彦萍, 秦勇, 等. 基于二次函数的二次流损失模型研究 [J]. 工程热物理学报, 2013, 34(10): 1838??1841. |
| [20] | LI Deying, SONG Yanping, QIN Yong, et al. Research of secondary flow loss model in term of quadratic function [J]. Journal of Engineering Thermophysics, 2013, 34(10): 1838??1841. |
| [21] | [13]KARKI K C, PATANKAR S V. Pressure based calculation procedure for viscous flows at all speeds in arbitrary configurations [J]. AIAA Journal, 1989, 27(9): 1167??1182. |
