Rotation invariant constitutive relation for Reynolds stress structure parameter

Rotation invariant constitutive relation for Reynolds stress structure parameter

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摘要 A new Reynolds stress constitutive formula is constructed using the first- order statistics of turbulent fluctuations instead of the mean strain rate. It includes zero empirical coefficients. The formula is validated with the direct numerical simulation （DNS） data of turbulent channel flow at Reτ=180. The Reynolds stresses given by the proposed formula agree very well with the DNS results. The good agreement persists even after the multi-angle rotation of the coordinate system, indicating the rotation in- variance of the formula. The autocorrelation of the fluctuating velocity rather than the mean strain rate is close to the essence of the Reynolds stress. A new Reynolds stress constitutive formula is constructed using the first- order statistics of turbulent fluctuations instead of the mean strain rate. It includes zero empirical coefficients. The formula is validated with the direct numerical simulation （DNS） data of turbulent channel flow at Reτ=180. The Reynolds stresses given by the proposed formula agree very well with the DNS results. The good agreement persists even after the multi-angle rotation of the coordinate system, indicating the rotation in- variance of the formula. The autocorrelation of the fluctuating velocity rather than the mean strain rate is close to the essence of the Reynolds stress.

作者 Jinglei XU Zhengguang TU Ning HU

机构地区 National Key Laboratory of Aircraft Engine The China Academy of Aerospace Aerodynamics

出处《Applied Mathematics and Mechanics(English Edition)》 SCIE EI CSCD 2015年第4期517-522,共6页 应用数学和力学（英文版）

基金 Project supported by the National Natural Science Foundation of China(No.11002014)

关键词 direct numerical simulation （DNS） channel flow Reynolds stress consti-tutive relation direct numerical simulation （DNS）, channel flow, Reynolds stress consti-tutive relation

分类号 O357.5 [理学—流体力学]

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参考文献4

1高歌,江立军,高琳.使用Gao-Yong湍流方程计算翼体角偶流动[J].北京航空航天大学学报,2012,38(10):1271-1274. 被引量：1
2高琳,高歌,江立军.用GAO-YONG湍流模式对分离流动的数值模拟[J].北京航空航天大学学报,2013,39(5):631-634. 被引量：1
3GAO Ge,ZHANG Chang-xian,YAN Wen-hui,WANG Yong.Numerical study of compression corner flowfield using Gao-Yong turbulence model[J].航空动力学报,2012,27(1):124-128. 被引量：2
4Zhen-Su She Ning Hu You Wu State Key Laboratory for Turbulence and Complex Systems and Dept Mechanical and Aerospace Engineering,College of Engineering, Peking University,100871 Beijing, China.Structural ensemble dynamics based closure model for wall-bounded turbulent flow[J].Acta Mechanica Sinica,2009,25(5):731-736. 被引量：11

二级参考文献17

1闫文辉,高歌.应用GAO-YONG湍流模式数值模拟三维激波/湍流边界层干扰[J].航空动力学报,2009,24(10):2193-2200. 被引量：6
2Gao Ge, Yan Yong. Partial-average-based equations of incom- pressible turbulent flow[J]. International Journal of Non-Linear Mechanics ,2004,39 : 1407 - 1419.
3Gao Lin, Xu Jinglei, Gao Ge. Numerical simulation of turbulent flow past airfoils on OpenFOAM[ C]//Proeedia Engineering, 2012,31:756-761.
4Sjunnesson A, Nelsson C, Max E. LDA measurement of velocities and turbulence in a bluff body stabilized flame technical [ R].Trollhattan , Volvo Flygmotor A B, 1991.
5Durbin P A. Separated flow computations with the k-s-v2 model [ J]. AIAA Journal, 1995,33 (4) :659-664.
6Johansson S H, Davidson L, Olsson E. Numerical simulation of vortex shedding past triangular cylinders at high Reynolds num- ber using a k-e turbulence model[ J ]. International Journal for Numerical Methods in Fluids ,1993,16( 10 ) :859-878.
7Madabhushi R K, Choi D, Barber T J. Unsteady simulations of turbulent flow behind a triangular bluff body [ C ]//33rd Joint Propulsion Conference and Exhibit. [ S. 1. ] : American Institute of Aeronautics and Astronautics, 1997.
8Driver D M,Seegmiller H L. Features of a reattaching turbulent shear layer in divergent channel flow [ J]. AIAA Journal, 1985, 23(2) :163-171.
9Wilcox D C. Turbulence modeling for CFD [ M ]. La Canada, California: DCW Industries, 1993.
10闫文辉,闫巍,高歌.用GAO-YONG湍流模式对翼型跨音粘流的数值模拟[J].北京航空航天大学学报,2008,34(4):417-421. 被引量：2

共引文献11

1Zhen-Su She,Xi Chen,You Wu,Fazle Hussain.New perspective in statistical modeling of wall-bounded turbulence[J].Acta Mechanica Sinica,2010,26(6):847-861. 被引量：13
2WANG YanZhi SHE ZhenSu.Sub-ensemble study of pressure gradient effects on the variation of Karman constant[J].Science China(Physics,Mechanics & Astronomy),2012,55(8):1439-1444.
3WU You,CHEN Xi,SHE ZhenSu,HUSSAIN Fazle.Incorporating boundary constraints to predict mean velocities in turbulent channel flow[J].Science China(Physics,Mechanics & Astronomy),2012,55(9):1691-1695. 被引量：4
4HU Ning.A rescaling method for correcting log-layer mismatch in detached eddy simulation[J].Science China(Physics,Mechanics & Astronomy),2013,56(6):1165-1175.
5Jun Chen,Xiao-Tian Shi,Tie-Jin Wang,Zhen-Su She.Wavy structures in compressible mixing layers[J].Acta Mechanica Sinica,2013,29(5):633-640.
6佘振苏,陈曦,毕卫涛,陈军.从根子上实现气动计算湍流模型的突破[J].中国基础科学,2013,15(4):3-12. 被引量：1
7闫文辉,高歌.Sajben跨声速扩压器分离流动中湍流模式数值研究[J].推进技术,2016,37(9):1631-1637. 被引量：2
8佘振苏,唐帆,肖梦娟.面向精准工程湍流模型的理论研究[J].空气动力学学报,2019,37(1):1-18. 被引量：5
9史可天,马汉东.计算气动光学研究进展[J].空气动力学学报,2019,37(2):186-192. 被引量：8
10Meng-Juan Xiao,Zhen-Su She.Precise drag prediction of airfoil flows by a new algebraic model[J].Acta Mechanica Sinica,2020,36(1):35-43. 被引量：2

1程士宏.APPROXIMATION TO THE EXPECTATION OF A FUNCTION OF ORDER STATISTICS AND ITS APPLICATIONS[J].Acta Mathematicae Applicatae Sinica,1997,13(1):71-86.
2Zhang Shihai,Zou Xianwu,Zhang Wenbin,Yuan Changying,Hu Jindong,Jin Zhunzhi,Peng Min.A System of Treatment for Correlation Signals[J].Wuhan University Journal of Natural Sciences,1998,3(3):50-54.
3NOURI Nowrouz Mohammad,BAKHSH Mohammad Saadat,SEKHAVAT Setareh.Analysis of shear rate effects on drag reduction in turbulent channel flow with superhydrophobic wall[J].Journal of Hydrodynamics,2013,25(6):944-953. 被引量：5
4曹则贤.物理学咬文嚼字之六十六参照系?坐标系![J].物理,2014,43(11):767-772. 被引量：2
5Rana Ali Mubarak Bakoban.A Study on Mixture of Exponentiated Rayleigh and Exponentiated Exponential Distributions Based on Order Statistics[J].Journal of Mathematics and System Science,2012,2(3):163-170.
6Leping Huang,Baochun Fan,Dongjie Mei.Mechanism of drag reduction by spanwise oscillating Lorentz force in turbulent channel flow[J].Theoretical & Applied Mechanics Letters,2012,2(1):67-70. 被引量：1
7Zhong, Feng-Quan, Liu, Nan-Sheng, Lu, Xi-Yun, Zhuang, Li-Xian.LARGE EDDY SIMULATION OF FREE SURFACE TURBULENT CHANNEL FLOW WITH HEAT TRANSFER[J].Journal of Hydrodynamics,2002,14(1):16-22.
8Feng-quan Zhong,Nan-sheng Liu,Xi-yun Lu,Bing-gang Tong.Large Eddy Simulation of Stratified Turbulent Channel Flow with a Dynamic Subgrid Scale Model[J].Advances in Manufacturing,2000(2):87-91.
9Yu Kai,Lu Chuanlai(Department of information Engineering. Beijing University of Posts and Telecommunications,Beijing, 100088,P.R.China).Some　Statistical　Properties　of　the　Correlation　Function　of　Combination　Sequences[J].The Journal of China Universities of Posts and Telecommunications,1996,3(1):53-58.
10何书元.CONVERGENCE OF THE CLIPPED SAMPLE AUTOCORRELATION AND AUTOCOVARIANCE[J].Acta Mathematicae Applicatae Sinica,1998,14(1):36-42.

Applied Mathematics and Mechanics(English Edition)

2015年第4期

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Rotation invariant constitutive relation for Reynolds stress structure parameter

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二级参考文献17

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