ON MATHEMATICAL MODELLING OF GUST RESPONSE USING THE FINITE ELEMENT.METHOD

被引:0
|
作者
Svacek, Petr [1 ]
Horacek, Jaromir [2 ]
机构
[1] Czech Tech Univ, Fac Mech Engn, Dept Tech Math, Karlovo nam 13,121 35, Prague 2, Czech Republic
[2] Acad Sci Czech Republ, Inst Thermomech, Doleiskova 5, Prague 18200 8, Czech Republic
来源
APPLICATIONS OF MATHEMATICS 2013 | 2013年
关键词
FLUID;
D O I
暂无
中图分类号
O29 [应用数学];
学科分类号
070104 ;
摘要
In this paper the numerical approximation of aeroelastic response to sudden gust is presented. The fully coupled formulation of two dimensional incompressible viscous fluid flow over a flexibly supported structure is used. The flow is modelled with the system of Navier-Stokes equations written in Arbitrary Lagrangian-Eulerian form and coupled with system of ordinary differential equations describing the airfoil vibrations with two degrees of freedom. The Navier-Stokes equations are spatially discretized by the fully stabilized finite element method. The numerical results are shown.
引用
收藏
页码:197 / 206
页数:10
相关论文
共 50 条
  • [1] Modelling cyclic pile response using the Finite Element Method
    Taborda, D.
    Zdravkovic, L.
    Kontoe, S.
    Potts, D. M.
    APPLICATION OF STRESS-WAVE THEORY TO PILES: SCIENCE, TECHNOLOGY AND PRACTICE, 2008, : 327 - 333
  • [2] On mathematical modelling of aeroelastic problems with finite element method
    Svacek, Petr
    EFM17 - EXPERIMENTAL FLUID MECHANICS 2017, 2018, 180
  • [3] Mathematical modelling of heat transfer in plate heat exchangers using the finite element method
    Roertgen, Horst G.
    Warme- und Stoffubertragung Zeitschrift, 1988, 23 (06): : 353 - 364
  • [4] On mathematical modeling of fluid-structure interactions with nonlinear effects: Finite element approximations of gust response
    Svacek, Petr
    Horacek, Jaromir
    JOURNAL OF COMPUTATIONAL AND APPLIED MATHEMATICS, 2015, 273 : 394 - 403
  • [5] Design of an induction glass melting furnace by means of mathematical modelling using the finite element method
    Arellano, Isaac
    Plascencia, Gabriel
    Carrillo, Elias
    Barron, Miguel A.
    Sanchez, Adolfo
    Gutierrez, Juliana
    DIFFUSION IN SOLIDS AND LIQUIDS: HEAT TRANSFER - MICROSTRUCTURE & PROPERTIES, 2007, 553 : 124 - +
  • [6] An Overview of Modelling Craniosynostosis Using the Finite Element Method
    Malde, Oyvind
    Libby, Joseph
    Moazen, Mehran
    MOLECULAR SYNDROMOLOGY, 2019, 10 (1-2) : 74 - 82
  • [7] Mathematical Modelling of Drying of Hydrogels via Finite Element Method and Texture Analysis
    da Silva Jr, Marco Antonio Vasiliev
    Feltre, Gabriela
    Dacanal, Gustavo Cesar
    PROCESSES, 2024, 12 (08)
  • [8] Finite Element Method Applied to Mathematical Modelling of the Hydrogen Diffusion Process in Metals
    Bucur, Liviu
    Bucur, Gabriela
    Moise, Adrian-George
    Popescu, Cristina
    REVISTA DE CHIMIE, 2016, 67 (01): : 87 - 91
  • [9] Computation of Schenberg response function by using finite element modelling
    Frajuca, C.
    Bortoli, F. S.
    Magalhaes, N. S.
    11TH EDOARDO AMALDI CONFERENCE ON GRAVITATIONAL WAVES (AMALDI 11), 2016, 716
  • [10] Simulating the response of shallow foundations using finite element modelling
    Johnson, K
    Christensen, M
    Sivakugan, N
    Karunasena, W
    MODSIM 2003: INTERNATIONAL CONGRESS ON MODELLING AND SIMULATION, VOLS 1-4: VOL 1: NATURAL SYSTEMS, PT 1; VOL 2: NATURAL SYSTEMS, PT 2; VOL 3: SOCIO-ECONOMIC SYSTEMS; VOL 4: GENERAL SYSTEMS, 2003, : 2060 - 2065
12345