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基于非结构动网格的非定常流数值模拟方法
引用本文:伍贻兆,田书玲,夏健. 基于非结构动网格的非定常流数值模拟方法[J]. 航空学报, 2011, 32(1): 15-26. DOI: CNKI: 11-1929/V.20101216.1125.000
作者姓名:伍贻兆  田书玲  夏健
作者单位:南京航空航天大学空气动力学系,江苏南京,210016
基金项目:南京航空航天大学基本科研业务费专项科研项目
摘    要:
给出了基于非结构动网格的非定常流动问题的数值模拟方法,重点说明两种动态非结构网格方法的原理以及在非定常流模拟中的算法.一种是基于非结构网格的重叠网格方法,该方法结合了非结构网格方法和重叠网格方法的优点,以物面距为准则参数对网格节点进行分类,进而建立重叠网格的网格问插值关系,通过采用动态非结构重叠网格算法,可以处理多体间...

关 键 词:计算流体力学  非定常流  动网格  非结构重叠网格  Delaunay图映射

Unstructured Grid Methods for Unsteady Flow Simulation
WU Yizhao,TIAN Shuling,XIA Jian. Unstructured Grid Methods for Unsteady Flow Simulation[J]. Acta Aeronautica et Astronautica Sinica, 2011, 32(1): 15-26. DOI: CNKI: 11-1929/V.20101216.1125.000
Authors:WU Yizhao  TIAN Shuling  XIA Jian
Affiliation:Department of Aerodynamics,Nanjing University of Aeronautics and Astronautics,Nanjing 210016,China
Abstract:
Two unstructured grid methods for unsteady flow simulation are presented, whose principles and algorithms in unsteady flow simulation are stressed. One is overset unstructured grid method, which has the advantages of unstructured grid and chimera grid and can handle problems with complex geometries and/or moving bodies. The wall distance of grid node is used as a parameter to classify the nodes and define the interpolation boundary of overset grid. A dynamic overset unstructured grid method is used to deal with the unsteady problems with multi-body moving. The other is dynamic unstructured grid based on Delaunay graph mapping, which can handle unsteady flow problems with body motion and deformation. In the method, a Delaunay graph is first generated using boundary nodes of computational grid and one to one mapping is built between Delaunay graph and the grid. The motion or deformation of body is realized by the moving of Delaunay graph and the new computational grid can be generated efficiently by the mapping. A number of cases(3D store separation, helicopter fuselage-rotor interaction, multi-airfoil with large trailing flap pitching, AGARD445.6 wing aeroelastic deformation)are used to validate the unstructured grid methods. All the results show that those methods are efficient in simulating unsteady problems.
Keywords:computational fluid dynamics  unsteady flow  dynamic grid  unstructured overset grid  Delaunay graph mapping
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