[1] MAREK J, OLSEN W A. Turbulent dispersion of the icing cloud from spray nozzles used in icing tunnels:NASA TM-87316[R]. Washington, D.C.:NASA, 1986.
[2] BARTLETT C S. Turbine engine icing spray bar design issues[J]. Journal of Engineering for Gas Turbines and Power, 1995, 117(3):406-412.
[3] DEANGELIS B C, LOTH E. Simulations of turbulent droplet dispersion in wind-tunnel icing clouds[J]. Journal of Aircraft, 1997, 34(2):213-219.
[4] HANCIR P, ANDERSON A, LOTH E. Computations of droplet distributions in the NASA icing research tunnel:AIAA-2000-0101[R]. Reston:AIAA, 2000.
[5] BHARGAVA C, LOTH E, POTAPCZUK M. Aerodynamic simulations of the NASA Glenn icing research tunnel:AIAA-2003-0566[R]. Reston:AIAA, 2003.
[6] LEE A, LOTH E. Droplet dispersion in the NASA Glenn icing research tunnel:AIAA-2010-7533[R]. Reston:AIAA, 2010.
[7] CLARK K, MALINOWSKI M, LOTH E. Air flow and liquid water concentration simulations of the 2012 NASA Glenn icing research tunnel:AIAA-2012-2936[R]. Reston:AIAA, 2012.
[8] STRELETS M. Detached eddy simulation of massively separated flows:AIAA-2001-0879[R]. Reston:AIAA, 2001.
[9] SPALART P R, JOU W H, STRELETS M, et al. Comments on the feasibility of LES for wings, and on a hybrid RANS/LES approach[C]//1st AFOSR International Conference on DNS/LES. Dayton, OH:Greyden Press, 1997:14-18.
[10] SPALART P R. Detached-eddy simulation[J]. Annual Review of Fluid Mechanics, 2009, 41:181-202.
[11] VATSA V N, SINGER B A. Evaluation of a second accurate Navier-Stokes code for detached eddy simulation past a circular cylinder:AIAA-2003-4085[R]. Reston:AIAA, 2003.
[12] HANSEN R P, FORSYTHE I R. Large and detached eddy simulation of flow over a circular cylinder using unstructured grids:AIAA-2003-0775[R]. Reston:AIAA, 2003.
[13] ROY C J, DECHANT L J, PAYNE J L, et al. Bluff-body flow simulations using hybrid RANS/LES:AIAA-2003-3889[R]. Reston:AIAA, 2003.
[14] LO S C, HOFFMANN K A, DIETIKER J F. Numerical investigation of high Reynolds number flow over square and circular cylinders[J]. Journal of Thermophisics and Heat Transfer, 2005, 19(1):72-80.
[15] NISHINO T, ROBERTS G T, ZHANG X. Unsteady RANS and detached-eddy simulations of flow around a circular cylinder in ground effect[J]. Journal of Fluid and Structure, 2008, 24(1):18-33.
[16] JEE S, SHARIFF K. Detached-eddy simulation based on the υ2-f model[J]. International Journal of Heat and Fluid Flow, 2014, 46(2):84-101.
[17] 徐晶磊, 高歌, 杨焱. 基于当地流动结构的RANS/LES混合模型[J]. 航空学报, 2014, 35(11):2992-2999. XU J L, GAO G, YANG Y. A RANS/LES hybrid model based on local flow structure[J]. Acta Aeronautica et Astronautica Sinica, 2014, 35(11):2992-2999(in Chinese).
[18] 王翔宇, 李栋. SST-DES在小分离流动数值模拟中的改进[J]. 北京航空航天大学学报, 2014, 40(9):1245-1249. WANG X Y, LI D. Improved SST-DES in numerical simulation of mild separation[J]. Journal of Beijing University of Aeronautics and Astronautics, 2014, 40(9):1245-1249(in Chinese).
[19] 李斌, 吴颂平. 基于湍流尺度的混合RANS/LES模型[J]. 北京航空航天大学学报, 2008, 34(7):755-758. LI B, WU S P. Hybrid RANS/LES model based on turbulent scale[J]. Journal of Beijing University of Aeronautics and Astronautics, 2008, 34(7):755-758(in Chinese).
[20] 李栋, 焦予秦, SHOV I M, 等. Detached Eddy Simulation方法模拟不同类型翼型的失速特性[J]. 航空学报, 2005, 26(4):406-410. LI D, JIAO Y Q, SHOV I M, et al. Detached eddy simulation for airfoil stall[J]. Acta Aeronautica et Astronautica Sinica, 2005, 26(4):406-410(in Chinese).
[21] 白俊强, 张扬, 华俊. 一种滤波SST方法在翼型深失速模拟中的应用[J]. 航空学报, 2013, 34(5):979-987. BAI J Q, ZHANG Y, HUA J. Application of filter-SST method in airfoil deep stall simulation[J]. Acta Aeronautica et Astronautica Sinica, 2013, 34(5):979-987(in Chinese).
[22] 刘周, 杨云军, 周伟江, 等. 基于RANS-LES混合方法的翼型大迎角非定常分离流动研究[J]. 航空学报, 2014, 35(2):372-380. LIU Z, YANG Y J, ZHOU W J, et al. Study of unsteady separation flow around airfoil at high angle of attack using hybrid RANS-LES method[J]. Acta Aeronautica et Astronautica Sinica, 2014, 35(2):372-380(in Chinese).
[23] DECK S. Zonal-detached-eddy simulation of the flow around a high-lift configuration[J]. AIAA Journal, 2005, 43(11):2372-2384.
[24] FORSYTHE J R, SQUIRES K D, WURTZLER E, et al. Detached-eddy simulation of the F-15E at high alpha[J]. Journal of Aircraft, 2004, 41(2):193-200.
[25] BROCK J M, SUBBAREDDY P K, CANDLER G V. Detached-eddy simulation of hypersonic capsule wake flow[J]. AIAA Journal, 2015, 53(1):70-80.
[26] 杨小龙, 林铁平. 汽车外流场DES/RANS模拟研究[J]. 湖南大学学报(自然科学版), 2011, 38(1):29-34. YANG X L, LIN T P. DES and RANS of vehicle external flow field[J]. Journal of Hunan University (Natural Science), 2011, 38(1):29-34(in Chinese).
[27] 谢超, 谷正气, 杨振东, 等. 不同RANS/LES混合模型的汽车气动噪声分析[J]. 汽车工程, 2015, 37(4):440-445. XIE C, GU Z Q, YANG Z D, et al. Analysis on vehicle aerodynamic noise with different hybrid RANS/LES models[J]. Automotive Engineering, 2015, 37(4):440-445(in Chinese).
[28] 刘学强, 伍贻兆. 用DES数值模拟具有横向喷流的紊流流场[J]. 航空学报, 2004, 25(3):209-213. LIU X Q, WU Y Z. The computation of the lateral jet turbulence flow using DES method[J]. Acta Aeronautica et Astronautica Sinica, 2004, 25(3):209-213(in Chinese).
[29] 周昊, 岑可法, 樊建人. 分离涡方法模拟浓氮气固射流两相非稳态流动特性研究[J]. 中国电机工程学报, 2005, 25(7):1-6. ZHOU H, CEN K F, FAN J R. The numerical investigation on the transient characteristics of the gas-solid two-phase fuel rich-lean burn flow[J]. Proceedings of the CSEE, 2005, 25(7):1-6(in Chinese).
[30] 孙明波, 梁剑寒, 王振国. 二维凹腔超声速流动的混合RANS/LES模拟[J]. 推进技术, 2006, 27(2):119-123. SUN M B, LIANG J H, WANG Z G. Hybrid RANS/LES simulation of the supersonic flow over two-dimentional cavities[J]. Journal of Propulsion Technology, 2006, 27(2):119-123(in Chinese).
[31] 汪洪波, 孙明波, 吴海燕, 等. 超声速燃烧凹腔质量交换特性的混合RANS/LES模拟[J]. 航空动力学报, 2010, 25(1):41-46. WANG H B, SUN M B, WU H Y, et al. Hybrid RANS/LES simulation of mass exchange characteristics of cavity for supersonic combustion[J]. Journal of Aerospace Power, 2010, 25(1):41-46(in Chinese).
[32] 薛帮猛, 杨永. 基于两方程湍流模型的DES方法在超声速圆柱底部流动计算中的应用[J]. 西北工业大学学报, 2006, 24(5):544-547. XUE B M, YANG Y. Technical details in applying DES method to computing supersonic cylinder-base flow[J]. Journal of Northwestern Polytechnical University, 2006, 24(5):544-547(in Chinese).
[33] SHUR M, SPALART P R, STRELETS M, et al. Detached-eddy simulation of an airfoil at high angle of attack[C]//4th International Symposium on Engineering Turbulence Modeling and Experiments. Amsterdam:Elsevier Science Ltd., 1999:669-678.
[34] SHIH T H, LIOU W W, SHABBIR A, et al. A new k-ε eddy-viscosity model for high Reynolds number turbulent flow[J]. Computers & Fluids, 1995, 24(3):227-238.
[35] MENTER F R, KUNTZ M, LANGTRY R. Ten years of industrial experience with the SST turbulence model[J]. Turbulence, Heat and Mass Transfer, 2003, 4(1):625-632.
[36] NICHOLS R H. Comparison of hybrid RANS/LES turbulence models on a circular cylinder at high Reynolds number:AIAA-2005-0498[R]. Reston:AIAA, 2005.
[37] KRAVCHENKO A G, MOIN P. Numerical studies of flow over a circular cylinder at ReD=3900[J]. Physics of Fluids, 2000, 12(2):403-417.
[38] ONG L, WALLACE J. The velocity field of the turbulent very near wake of a circular cylinder[J]. Experiments in Fluids, 1996, 20(6):441-453.
[39] PARNAUDEAU P, CARLIER J, HEITZ D, et al. Experimental and numerical studies of the flow over a circular cylinder at Reynolds number 3900[J]. Physics of Fluids, 2008, 20(8):1-14.
[40] SPALART P R. Yong-person's guide to detached-eddy simulation grids:NASA/CR-2001-211032[R]. Washington, D.C.:NASA, 2001.
[41] BUNGE U, MOCKETT C, THIELE F. Guidelines for implementing detached-eddy simulation using different models[J]. Aerospace Science and Technology, 2007, 11(5):376-385.
[42] TRAVIN A, SHUR M, STRELETS M, et al. Detached-eddy simulations past a circular cylinder[J]. Flow, Turbulence and Combustion, 1999, 63(1):293-313.
[43] MANSY H, YANG P M, WILLIAMS D R. Quantitative measurements of three-dimensional structures in the wake of a circular cylinder[J]. Journal of Fluid Mechanics, 1994, 270:227-296.
[44] WILLIAMSON C H K, WU J, SHERIDAN J. Scaling of streamwise vortices in wakes[J]. Physics of Fluids, 1995, 7(10):2307-2309.
[45] MENTER F R. Two-equation eddy-viscosity turbulence model for engineering applications[J]. AIAA Journal, 1994, 32(8):1598-1605.
[46] DONG S, KARNIADAKIS G E, EKMEKCI A, et al. A combined direct numerical simulation-particle image velocimetry study of the turbulent near wake[J]. Journal of Fluid Mechanics, 2006, 569:185-207.
[47] MA X, KARAMANOS G S, KARNIADAKIS G E. Dynamics and low-dimensionality of turbulent near wake[J]. Journal of Fluid Mechanics, 2000, 410:29-65.
[48] FRANKE J, FRANK W. Large eddy simulation of the flow past a circular cylinder at Re=3900[J]. Journal of Wind Engineering and Industrial Aerodynamics, 2002, 90(10):1191-1206. |