PT  - JOURNAL ARTICLE
AU  - Klečková, Jitka
TI  - Numerical Simulation of Inviscid Compressible Fluid Flow Around Moving Bodies
DP  - 2015 Nov 1
TA  - Manufacturing Technology Journal
PG  - 854--857
VI  - 15
IP  - 5
AID - 10.21062/ujep/x.2015/a/1213-2489/MT/15/5/854
IS  - 12132489
AB  - The article presents numerical code which was developed for solution of inviscid compressible fluid flow in domains with deforming boundaries. This computational method for the numerical solution of the non-linear system of Euler equations in time-dependent domains was designed as the first step of solution of fluid-structure interaction problem. Arbitrary Lagrangian - Eulerian (ALE) description of continuum, combining Eulerian and Lagrangian approach, was used to describe the inviscid fluid flow in time-dependent domain. The spatial discretization was provided by finite volume method adapted for triangular computational grids. Inviscid fluxes were discretized by the Rusanov flux scheme and Van Leer flux splitting scheme. The computational code was validated using a case of inviscid fluid flow around vibrating airfoil NACA 0012 which was experimentally investigated by AGARD group in 1982. Boundary conditions and simulation parameters were set according to the conditions of experimental measurement and the rotation angle of the body was defined by a time-dependent function. The numerical results are compared with experimental data and results of other authors. The algorithm for the mesh deformation is presented.