ON APPLICATION OF FINITE ELEMENT METHOD FOR APPROXIMATION OF 3D FLOW PROBLEMS

被引:0
|
作者
Svacek, P. [1 ]
Horacek, J. [2 ]
机构
[1] Czech Tech Univ, Fac Mech Engn, Dept Tech Math, Prague 12135 2, Czech Republic
[2] Acad Sci Czech Republ, Inst Thermomech, Prague 18200 8, Czech Republic
来源
TOPICAL PROBLEMS OF FLUID MECHANICS 2015 | 2015年
关键词
aeroelasticity; finite element method; NUMERICAL-SIMULATION; AIRFOIL; CONSERVATION; FORMULATION; VIBRATIONS;
D O I
暂无
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
This paper is interested to the interactions of the incompressible flow with a flexibly supported airfoil. The bending and the torsion modes are considered. The problem is mathematically described. The numerical method is based on the finite element method. A combination of the streamline-upwind/Petrov-Galerkin and pressure stabilizing/Petrov-Galerkin method is used for the stabilization of the finite element method. The numerical results for a three-dimensional problem of flow over an airfoil are shown.
引用
收藏
页码:175 / 182
页数:8
相关论文
共 50 条
  • [1] A conservative finite-element method: Application to 3D problems of electric exploration
    Avdevich, MM
    Vishnevskii, AM
    Lapovok, AY
    FIZIKA ZEMLI, 1998, (04): : 47 - 54
  • [2] Generalized mixed finite element method for 3D elasticity problems
    Guanghui Qing
    Junhui Mao
    Yanhong Liu
    Acta Mechanica Sinica, 2018, 34 (02) : 371 - 380
  • [3] A finite element method for computing 3D eddy current problems
    Yu, HT
    Shao, KR
    Lavers, JD
    IEEE TRANSACTIONS ON MAGNETICS, 1996, 32 (05) : 4320 - 4322
  • [4] Generalized mixed finite element method for 3D elasticity problems
    Guanghui Qing
    Junhui Mao
    Yanhong Liu
    Acta Mechanica Sinica, 2018, 34 : 371 - 380
  • [5] Generalized mixed finite element method for 3D elasticity problems
    Qing, Guanghui
    Mao, Junhui
    Liu, Yanhong
    ACTA MECHANICA SINICA, 2018, 34 (02) : 371 - 380
  • [6] APPLICATION OF FINITE ELEMENT METHOD TO CREEPING FLOW PROBLEMS
    ATKINSON, B
    CARD, CCH
    IRONS, BM
    TRANSACTIONS OF THE INSTITUTION OF CHEMICAL ENGINEERS AND THE CHEMICAL ENGINEER, 1970, 48 (7-10): : T276 - &
  • [7] Multilevel algorithms for Rannacher–Turek finite element approximation of 3D elliptic problems
    I. Georgiev
    J. Kraus
    S. Margenov
    Computing, 2008, 82 : 217 - 239
  • [8] A difference finite element method based on nonconforming finite element methods for 3D elliptic problems
    Song, Jianjian
    Sheen, Dongwoo
    Feng, Xinlong
    He, Yinnian
    ADVANCES IN COMPUTATIONAL MATHEMATICS, 2025, 51 (01)
  • [9] A Lagrangian finite element method for 3D compressible flow applications
    Cremonesi, Massimiliano
    Frangi, Attilio
    COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING, 2016, 311 : 374 - 392
  • [10] Implementation and Evaluation of 3D Finite Element Method Application for CUDA
    Ohshima, Satoshi
    Hayashi, Masae
    Katagiri, Takahiro
    Nakajima, Kengo
    HIGH PERFORMANCE COMPUTING FOR COMPUTATIONAL SCIENCE - VECPAR 2012, 2013, 7851 : 140 - 148
12345