Publication detail
Meshfree method for computational aeroacoustics using LEE for the solution of noise propagation
BAJKO, J. ČERMÁK, L. JÍCHA, M. HARTMANN, M.
English title
Meshfree method for computational aeroacoustics using LEE for the solution of noise propagation
Type
Paper in proceedings (conference paper)
Language
en
Original abstract
Meshfree Finite point method (FPM) has been used for the solution of sound (noise) propagation, which can be modeled by linearized Euler equations (LEE). Important property of a numerical method for simulation of sound propagation is the capability to reach the high order of accuracy. In this paper we present the accuracy improvements of FPM using the reconstruction of variables in the Riemann solver by Taylor polynomial. Order of the derived meshfree method will be verified on 2D Acoustic pulse problem which serves as a benchmark problem with known analytical solution.
Keywords in English
Acoustic pulse problem, computational aeroacoustics, Finite point method, linearized Euler equations
Released
2013-09-18
Publisher
Artes Gráficas Torres S.A.
Location
Stuttgart
ISBN
978-84-941531-8-1
Book
Particle-Based Methods III. Fundamentals and Applications
Pages from–to
752–763
Pages count
12
BIBTEX
@inproceedings{BUT101723,
author="Jaroslav {Bajko} and Libor {Čermák} and Miroslav {Jícha} and Michael {Hartmann}",
title="Meshfree method for computational aeroacoustics using LEE for the solution of noise propagation",
booktitle="Particle-Based Methods III. Fundamentals and Applications",
year="2013",
pages="752--763",
publisher="Artes Gráficas Torres S.A.",
address="Stuttgart",
isbn="978-84-941531-8-1"
}