A three-equation turbulence model for high-speed flows 被引量：1

A three-equation turbulence model for high-speed flows

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摘要 Adding a new equation to the two-equation K-turbulence model framework,this paper proposed a three-equation turbulence model to determine the density variance for high-speed aero-optics and high-speed compressible turbulent flows.Simulations were performed with the new model for supersonic and hypersonic flat-plate turbulent boundary layer and hypersonic ramp flows.The results showed that the prediction with the present model agrees well with the experimental data and is significantly better than the Lutz's model in predicting the density variance for the flat-plate flows.Furthermore,the present model can produce more accurate skin pressure and skin heat flux distributions than the original K-model in simulating hypersonic compression ramp flows with separation and reattachment and shock/boundary layer interactions.Without introducing a variety of ad hoc wall damping and wall-reflection terms,the proposed three-equation turbulence model is applicable to highspeed aero-optics and turbulent flows of real vehicles of complex configuration.

作者 LIU JingYuan

机构地区 Aircraft Engineering College

出处《Science China(Technological Sciences)》 SCIE EI CAS 2013年第4期803-811,共9页 中国科学（技术科学英文版）

基金 supported by the National Natural Science Foundation of China (Grant No. 11102079) the Aeronautical Science Foundation of China (Grant No. 20111456005)

关键词 high speed turbulence model density variance AERO-OPTICS numerical simulation heat flux SEPARATION 湍流模型高速流动方程可压缩湍流边界层湍流高超音速密度差异气动光学

分类号 V211 [航空宇航科学与技术—航空宇航推进理论与工程]

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参考文献3

1LEE ChunHian.Numerical investigation of compressibility effects in turbulent channel flows using large eddy simulation[J].Science China(Physics,Mechanics & Astronomy),2012,55(2):305-315. 被引量：5
2刘景源,李椿萱.高超声速二方程湍流模型的数值模拟对比[J].北京航空航天大学学报,2007,33(10):1131-1135. 被引量：6
3DONG Ming & ZHOU Heng Department of Mechanics,Tianjin University,Tianjin 300072,China.The improvement of turbulence modeling for the aerothermal computation of hypersonic turbulent boundary layers[J].Science China(Physics,Mechanics & Astronomy),2010,53(2):369-379. 被引量：8

二级参考文献21

1董明,罗纪生,曹伟.NUMERICAL INVESTIGATION OF EVOLUTION OF DISTURBANCES IN SUPERSONIC SHARP CONE BOUNDARY LAYERS[J].Applied Mathematics and Mechanics(English Edition),2006,27(6):713-719. 被引量：2
2董明,罗纪生.高超音速零攻角尖锥边界层转捩的机理[J].应用数学和力学,2007,28(8):912-920. 被引量：19
3李新亮,马延文,傅德薰.DNS and scaling law analysis of compressible turbulent channel flow[J].Science in China,Ser.A.2001(05)
4Xinliang Li,Yanwen Ma,Dexun Fu.DNS and scaling law analysis of compressible turbulent channel flow[J].Science in China Series A: Mathematics.2001(5)
5Bert Vreman,Bernard Geurts,Hans Kuerten.Subgrid-modelling in LES of compressible flow[J].Applied Scientific Research.1995(3)
6Mossi M,Sagaut P.Numerical investigation of fully developed channel flow using shock-capturing schemes[].Computers and Fluids.2003
7Ridder J P,Beddini R.Large eddy simulation of compressible channel flow. NASA Tech.Report,Grant NGT-50363 . 1993
8Huang P G,Coleman G N,Bradshaw P.Compressible turbulent channel flow:DNS results and modeling[].Journal of Fluid Mechanics.1995
9Morkovin M V.Effects of compressibility on turbulent flows[].Mechanique de la Turbulence.1964
10Spina E F,Smits A J,Robinson S K.The physics of supersonic turbulent boundary layers[].Annual Review of Fluid Mechanics.1994

共引文献14

1DONG Ming & ZHOU Heng Department of Mechanics,Tianjin University,Tianjin 300072,China.The effect of high temperature induced variation of specific heat on the hypersonic turbulent boundary layer and its computation[J].Science China(Physics,Mechanics & Astronomy),2010,53(11):2103-2112. 被引量：5
2DONG Ming,LI XinLiang.Problems of the conventional BL model as applied to super/hypersonic turbulent boundary layers and its improvements[J].Science China(Physics,Mechanics & Astronomy),2011,54(10):1889-1898. 被引量：3
3李新亮,傅德薰,马延文.基于直接数值模拟的可压缩湍流模型评估和改进[J].力学学报,2012,44(2):222-229. 被引量：9
4刘景源.SST湍流模型在高超声速绕流中的改进[J].航空学报,2012,33(12):2192-2201. 被引量：19
5刘景源.SST二方程湍流模型在高超声速绕流中的可压缩修正[J].宇航学报,2012,33(12):1719-1726. 被引量：4
6ZHONG DengHua,ZHANG XiaoXin,AO XueFei,WANG XiaoLing,TONG DaWei,REN BingYu.Study on coupled 3D seepage and stress fields of the complex channel project[J].Science China(Technological Sciences),2013,56(8):1906-1914. 被引量：5
7钟登华,张晓昕,敖雪菲,王晓玲,佟大威,任炳昱.复杂渠道工程三维渗流应力耦合分析与研究[J].中国科学：技术科学,2013,43(11):1193-1201. 被引量：3
8REN ZhuYin,LU Zhen,HOU LingYun,LU LiuYan.Numerical simulation of turbulent combustion: Scientific challenges[J].Science China(Physics,Mechanics & Astronomy),2014,57(8):1495-1503. 被引量：5
9周恒.高超声速边界层转捩和湍流计算问题[J].现代防御技术,2014,42(4):1-8. 被引量：3
10刘海涌,刘朝阳,刘存良.可压缩性修正湍流模型的高超声速飞行器流场模拟研究[J].固体火箭技术,2015,38(6):770-775. 被引量：4

同被引文献35

1XUAN Ying,XIANG JunHua,ZHANG WeiHua,ZHANG YuLin.Gradient-based Kriging approximate model and its application research to optimization design[J].Science China(Technological Sciences),2009,52(4):1117-1124. 被引量：4
2HUANG Wei, LUO ShiBin, LIU Jun & WANG ZhenGuo Institute of Aerospace & Materials Engineering, National University of Defense Technology, Changsha 410073, China.Effect of cavity flame holder configuration on combustion flow field performance of integrated hypersonic vehicle[J].Science China(Technological Sciences),2010,53(10):2725-2733. 被引量：6
3WANG YiPing,ZHEN Xin,WU Jing,GU ZhengQi,XIAO ZhenYi,YANG Xue.Hybrid CFD/FEM-BEM simulation of cabin aerodynamic noise for vehicles traveling at high speed[J].Science China(Technological Sciences),2013,56(7):1697-1708. 被引量：7
4SUN RuJie,CHEN GuoPing,ZHOU Chen,ZHOU LanWei,JIANG JinHui.Multidisciplinary design optimization of adaptive wing leading edge[J].Science China(Technological Sciences),2013,56(7):1790-1797. 被引量：6
5张为华,李晓斌.飞行器多学科不确定性设计理论概述[J].宇航学报,2004,25(6):702-706. 被引量：25
6薛飞,余雄庆,姚卫星.轻型飞机机翼气动/结构协同优化研究[J].计算力学学报,2005,22(4):488-491. 被引量：9
7李响,李为吉.飞行器多学科设计优化的三种基本类型及协同设计方法[J].宇航学报,2005,26(6):693-697. 被引量：10
8J.Roshanian,Z.Keshavarz.Effect of Variable Selection on Multidisciplinary Design Optimization:a Flight Vehicle Example[J].Chinese Journal of Aeronautics,2007,20(1):86-96. 被引量：7
9余雄庆.飞机总体多学科设计优化的现状与发展方向[J].南京航空航天大学学报,2008,40(4):417-426. 被引量：47
10黄伟,王振国.一体化高超声速飞行器攻角特性的数值研究[J].应用数学和力学,2009,30(6):725-732. 被引量：7

引证文献1

1Zhenguo Wang,Wei Huang,Li Yan.Multidisciplinary design optimization approach and its application to aerospace engineering[J].Chinese Science Bulletin,2014,59(36):5338-5353. 被引量：7

二级引证文献7

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2冯国奇,崔东亮,张亚军,周平.样本视角下面向复杂产品多目标优化设计的混合人工神经网络—遗传算法技术[J].计算机集成制造系统,2016,22(6):1403-1414. 被引量：12
3李团结,周博,王鹏.多环闭链空间可展开机构力-热耦合协同优化[J].西安电子科技大学学报,2018,45(1):42-47.
4孔雪,宁国栋,杨明,王松艳,晁涛.面向飞推一体化的飞行器建模方法[J].系统工程与电子技术,2019,41(1):141-147. 被引量：3
5冯国奇,崔东亮,朱凯全,张琦.一种面向复杂问题的小样本建模方法研究[J].控制工程,2019,36(11):2013-2018. 被引量：3
6李凌蔚,吴宋伟,张天宏,嵇润民.涡轮基变循环组合动力控制技术发展分析[J].推进技术,2023,44(11):16-26. 被引量：1
7ZHANG TianTian,WANG ZhenGuo,HUANG Wei,YAN XiaoTing.Performance comparison between waverider and wide-speed-range gliding vehicle based on CFD approaches[J].Science China(Technological Sciences),2019,62(10):1861-1870. 被引量：1

1刘宇陆,卢志明,蔡树棠.边界层湍流拟序结构与传热研究进展[J].上海大学学报（自然科学版）,1997,3(S1):42-48. 被引量：2
2王培光.二层不同类型的流体沿斜面流动的稳定性(英文)[J].河北大学学报（自然科学版）,1993,13(4):15-23.
3唐洪涛.平板边界层湍流的数值分析[J].天津科技大学学报,2010,25(1):43-47.
4王培光,王振东.宾汉流体沿斜面流动的稳定性分析[J].应用数学和力学,1995,16(10):943-948. 被引量：1
5李新亮,傅德薰,马延文.可压缩尖锥边界层湍流的直接数值模拟[J].中国科学（G辑）,2008,38(1):89-101. 被引量：10
6周莉,肖华,王占学,刘增文.无源腔结构对大膨胀比单膨胀斜面喷管的影响[J].航空动力学报,2015,30(8):1811-1817. 被引量：2
7黄章峰,周恒,罗纪生.超音速平板边界层湍流的直接数值模拟及分析[J].中国科学（G辑）,2006,36(1):46-58. 被引量：7
8段占元,童秉纲,姜贵庆.高速流动中一种关于物面密度的数值边界条件[J].空气动力学学报,1999,17(2):163-167.
9CHEN Lin,TANG DengBin,LU Ping,LIU ChaoQun.Evolution of the vortex structures and turbulent spots at the late-stage of transitional boundary layers[J].Science China(Physics,Mechanics & Astronomy),2011,54(5):986-990. 被引量：3
10朱成莲,陈光曙.几个重要分布的Pearson-X^2距离[J].哈尔滨师范大学自然科学学报,2005,21(5):34-37. 被引量：2

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