SPACE-TIME VMS METHODS FOR MODELING OF INCOMPRESSIBLE FLOWS AT HIGH REYNOLDS NUMBERS

被引:74
|
作者
Takizawa, Kenji [1 ,2 ]
Montes, Darren [3 ]
McIntyre, Spenser [3 ]
Tezduyar, Tayfun E. [3 ]
机构
[1] Waseda Univ, Dept Modern Mech Engn, Shinjuku Ku, Tokyo 1698050, Japan
[2] Waseda Univ, Waseda Inst Adv Study, Shinjuku Ku, Tokyo 1698050, Japan
[3] Rice Univ, Houston, TX 77005 USA
来源
MATHEMATICAL MODELS & METHODS IN APPLIED SCIENCES | 2013年 / 23卷 / 02期
关键词
Incompressible flows; DSD/SST formulation; DSD/SST-VMST method; space-time VMS method; high Reynolds numbers; airfoil geometries; spacecraft configurations; FLUID-STRUCTURE-INTERACTION; FINITE-ELEMENT COMPUTATION; TURBULENT CHANNEL FLOWS; LARGE-EDDY SIMULATION; WIND TURBINE ROTORS; MOVING BOUNDARIES; 3D SIMULATION; ISOGEOMETRIC ANALYSIS; CEREBRAL ANEURYSM; FAR WAKE;
D O I
10.1142/S0218202513400022
中图分类号
O29 [应用数学];
学科分类号
070104 ;
摘要
Deforming-Spatial-Domain/Stabilized Space-Time (DSD/SST) formulation was developed for flow problems with moving interfaces and has been successfully applied to some of the most complex problems in that category. A new version of the DSD/SST method for incompressible flows, which has additional subgrid-scale representation features, is the space-time version of the residual-based variational multiscale (VMS) method. This new version, called DSD/SST-VMST and also Space-Time VMS (ST-VMS), provides a more comprehensive framework for the VMS method. We describe the ST-VMS method, including the embedded stabilization parameters, and assess its performance in computation of flow problems at high Reynolds numbers by comparing the results to experimental data. The computations, which include those with 3D airfoil geometries and spacecraft configurations, signal a promising future for the ST-VMS method.
引用
收藏
页码:223 / 248
页数:26
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